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8. Improving insulin sensitivity, liver steatosis and fibrosis in type 2 diabetes by a food-based digital education-assisted lifestyle intervention program: a feasibility study

Author

Zaharia, Oana P., Kupriyanova, Yuliya, Karusheva, Yanislava, Markgraf, Daniel F., Kantartzis, Konstantinos, Birkenfeld, Andreas L., Trenell, Michael, Sahasranaman, Aarti, Cheyette, Chris, Kössler, Theresa, Bódis, Kálmán, Burkart, Volker, Hwang, Jong-Hee, Roden, Michael, Szendroedi, Julia, and Pesta, Dominik H.

Published
2021
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11. Deletion of the diabetes candidate gene Slc16a13 in mice attenuates diet-induced ectopic lipid accumulation and insulin resistance

Author

Schumann, Tina, König, Jörg, von Loeffelholz, Christian, Vatner, Daniel F., Zhang, Dongyan, Perry, Rachel J., Bernier, Michel, Chami, Jason, Henke, Christine, Kurzbach, Anica, El-Agroudy, Nermeen N., Willmes, Diana M., Pesta, Dominik, de Cabo, Rafael, O´Sullivan, John F., Simon, Eric, Shulman, Gerald I., Hamilton, Bradford S., and Birkenfeld, Andreas L.

Published
2021
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12. Publisher Correction: Deletion of the diabetes candidate gene Slc16a13 in mice attenuates diet-induced ectopic lipid accumulation and insulin resistance

Author

Schumann, Tina, König, Jörg, von Loeffelholz, Christian, Vatner, Daniel F., Zhang, Dongyan, Perry, Rachel J., Bernier, Michel, Chami, Jason, Henke, Christine, Kurzbach, Anica, El-Agroudy, Nermeen N., Willmes, Diana M., Pesta, Dominik, de Cabo, Rafael, O´Sullivan, John F., Simon, Eric, Shulman, Gerald I., Hamilton, Bradford S., and Birkenfeld, Andreas L.

Published
2021
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14. Short-term dietary reduction of branched-chain amino acids reduces meal-induced insulin secretion and modifies microbiome composition in type 2 diabetes: a randomized controlled crossover trial

Author

Karusheva, Yanislava, Koessler, Theresa, Strassburger, Klaus, Markgraf, Daniel, Mastrototaro, Lucia, Jelenik, Tomas, Simon, Marie-Christine, Pesta, Dominik, Zaharia, Oana-Patricia, Bódis, Kálmán, Bärenz, Felix, Schmoll, Dieter, Wolkersdorfer, Martin, Tura, Andrea, Pacini, Giovanni, Burkart, Volker, Müssig, Karsten, Szendroedi, Julia, and Roden, Michael

Published
2019
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16. Mitochondrial respiration in peripheral arterial disease depends on stage severity.

Author

Speichinger, Fiona, Gratl, Alexandra, Raude, Ben, Schawe, Larissa, Carstens, Jan, Hering, Nina A., Greiner, Andreas, Pesta, Dominik, and Frese, Jan Paul

Subjects
PERIPHERAL vascular diseases, INTERMITTENT claudication, MITOCHONDRIA, RESPIRATION, SKELETAL muscle, CITRATE synthase
Abstract

Peripheral arterial disease (PAD) is an increasing cause of morbidity and its severity is graded based on clinical manifestation. To investigate the influence of the different stages on myopathy of ischemic muscle we analysed severity‐dependent effects of mitochondrial respiration in PAD. Eighteen patients with severe PAD, defined as chronic limb‐threatening ischemia, 47 patients with intermittent claudication (IC) and 22 non‐ischemic controls were analysed. High‐resolution respirometry (HRR) was performed on muscle biopsies of gastrocnemius and vastus lateralis muscle of patients in different PAD stages to investigate different respiratory states. Results from HRR are given as median and interquartile range and were normalized to citrate synthase activity (CSA), a marker for mitochondrial content. In order to account for inter‐individual differences between patients and controls, we calculated the ratio of O₂‐flux in gastrocnemius muscle over vastus muscle ('GV ratio'). CSA of the gastrocnemius muscle as a proxy for mitochondrial content was significantly lower in critical ischemia compared to controls. Mitochondrial respiration normalized to CSA was higher in IC compared to controls. Likewise, the GV ratio was significantly higher in IC compared to control. Mitochondrial respiration and CSA of PAD patients showed stage‐dependent modifications with greater changes in the mild PAD stage group (IC). [ABSTRACT FROM AUTHOR]

Published
2024
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18. The effects of caffeine, nicotine, ethanol, and tetrahydrocannabinol on exercise performance

Author

Pesta, Dominik H, Angadi, Siddhartha S, Burtscher, Martin, and Roberts, Christian K

Abstract

Abstract Caffeine, nicotine, ethanol and tetrahydrocannabinol (THC) are among the most prevalent and culturally accepted drugs in western society. For example, in Europe and North America up to 90% of the adult population drinks coffee daily and, although less prevalent, the other drugs are also used extensively by the population. Smoked tobacco, excessive alcohol consumption and marijuana (cannabis) smoking are addictive and exhibit adverse health effects. These drugs are not only common in the general population, but have also made their way into elite sports because of their purported performance-altering potential. Only one of the drugs (i.e., caffeine) has enough scientific evidence indicating an ergogenic effect. There is some preliminary evidence for nicotine as an ergogenic aid, but further study is required; cannabis and alcohol can exhibit ergogenic potential under specific circumstances but are in general believed to be ergolytic for sports performance. These drugs are currently (THC, ethanol) or have been (caffeine) on the prohibited list of the World Anti-Doping Agency or are being monitored (nicotine) due to their potential ergogenic or ergolytic effects. The aim of this brief review is to evaluate the effects of caffeine, nicotine, ethanol and THC by: 1) examining evidence supporting the ergogenic or ergolytic effects; 2) providing an overview of the mechanism(s) of action and physiological effects; and 3) where appropriate, reviewing their impact as performance-altering aids used in recreational and elite sports.

Published
2013

20. Dietary Intake of Athletes at the World Masters Athletics Championships as Assessed by Single 24 h Recall.

Author

Leonhardt, Taylor P. M., Bristol, Ainsley, McLaurin, Natalie, Forbes, Scott C., Tanaka, Hirofumi, Frings-Meuthen, Petra, Pesta, Dominik, Rittweger, Jörn, and Chilibeck, Philip D.

Abstract

Proper dietary intake is important for masters athletes because of the physiological changes that occur with aging and the unique nutritional needs when competing at high levels. We evaluated the dietary intake of masters athletes competing at the World Masters Athletics Championships (outdoor games, Tampere, Finland, 2022, and indoor games, Torun, Poland, 2023). A total of 43 athletes (16 females and 27 males, mean age 59.2 ± 10.3 y, height 168 ± 8 cm, and body mass 62.3 ± 10.8 kg) participating in endurance (n = 21), sprint (n = 16), jumping (2), multi-component (e.g., decathlon; n = 3), and throwing (n = 1) events provided 24 h dietary recalls while participating in the games. Carbohydrate intake was below the recommended levels for endurance athletes. Protein intake was below the recommended levels for masters athletes, except for female athletes involved in power events (i.e., sprinters and jumpers). Other nutrient intakes that were below the recommended levels included vitamins D and E, calcium, potassium, vitamin A (except for female endurance athletes), folate (except for female power athletes), vitamin C for female endurance athletes, vitamin K and fiber for males, and zinc for endurance athletes. We conclude that while competing at world championships, many athletes are not consuming the recommended levels of carbohydrates, protein, and micronutrients. Athletes attending these games would benefit from increased nutritional support. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Impact of physical fitness and exercise training on subcutaneous adipose tissue beiging markers in humans with and without diabetes and a high‐fat diet‐fed mouse model.

Author

Bódis, Kálmán, Breuer, Saida, Crepzia‐Pevzner, Assja, Zaharia, Oana‐Patricia, Schön, Martin, Saatmann, Nina, Altenhofen, Delsi, Springer, Christian, Szendroedi, Julia, Wagner, Robert, Al‐Hasani, Hadi, Roden, Michael, Pesta, Dominik, and Chadt, Alexandra

Subjects
HIGH-fat diet, EXERCISE therapy, OXYGEN consumption, ADIPOSE tissues, WHITE adipose tissue, TYPE 2 diabetes, PHYSICAL fitness, LABORATORY mice
Abstract

Aims: Exercise training induces white adipose tissue (WAT) beiging and improves glucose homeostasis and mitochondrial function in rodents. This could be relevant for type 2 diabetes in humans, but the effect of physical fitness on beiging of subcutaneous WAT (scWAT) remains unclear. This translational study investigates if beiging of scWAT associates with physical fitness in healthy humans and recent‐onset type 2 diabetes and if a voluntary running wheel intervention is sufficient to induce beiging in mice. Materials and Methods: Gene expression levels of established beiging markers were measured in scWAT biopsies of humans with (n = 28) or without type 2 diabetes (n = 28), stratified by spiroergometry into low (L‐FIT; n = 14 each) and high physical fitness (H‐FIT; n = 14 each). High‐fat diet‐fed FVB/N mice underwent voluntary wheel running, treadmill training or no training (n = 8 each group). Following the training intervention, mitochondrial respiration and content of scWAT were assessed by high‐resolution respirometry and citrate synthase activity, respectively. Results: Secreted CD137 antigen (Tnfrsf9/Cd137) expression was three‐fold higher in glucose‐tolerant H‐FIT than in L‐FIT, but not different between H‐FIT and L‐FIT with type 2 diabetes. In mice, both training modalities increased Cd137 expression and enhanced mitochondrial content without changing respiration in scWAT. Treadmill but not voluntary wheel running led to improved whole‐body insulin sensitivity. Conclusions: Higher physical fitness and different exercise interventions associated with higher gene expression levels of the beiging marker CD137 in healthy humans and mice on a high‐fat diet. Humans with recent‐onset type 2 diabetes show an impaired adipose tissue‐specific response to physical activity. [ABSTRACT FROM AUTHOR]

Published
2024
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23. Dynamic changes of muscle insulin sensitivity after metabolic surgery

Author

Gancheva, Sofiya, Ouni, Meriem, Jelenik, Tomas, Koliaki, Chrysi, Szendroedi, Julia, Toledo, Frederico G. S., Markgraf, Daniel F., Pesta, Dominik H., Mastrototaro, Lucia, De Filippo, Elisabetta, Herder, Christian, Jähnert, Markus, Weiss, Jürgen, Strassburger, Klaus, Schlensak, Matthias, Schürmann, Annette, and Roden, Michael

Published
2019
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28. Adjuvant pharmacological strategies for the musculoskeletal system during long‐term space missions.

Author

Thomasius, Friederike, Pesta, Dominik, and Rittweger, Jörn

Abstract

Despite 2 h of daily exercise training, muscle wasting and bone loss are still present after 6‐month missions to the international space station. Some crew members lose bone much faster than others. In preparation for missions to the Moon and Mars, space agencies are therefore reviewing their countermeasure portfolios. Here, we discuss the potential of current pharmacological strategies. Bone loss in space is fuelled by bone resorption. Alendronate, an oral bisphosphonate, reduced bone losses in experimental bed rest and space. However, gastrointestinal side effects precluded its further utilization in space. Zoledronate (a potent bisphosphonate), denosumab (RANKL antagonist) and romosozumab (sclerostin antagonist) are all administered via injection. They effectively suppress bone resorption and are routinely prescribed against osteoporosis. Their serious adverse effects, namely, osteonecrosis of the jaw and atypical femur fractures occur very rarely when the usage is limited to 1 or 2 years. Hence, utilization of one of these compounds may outweigh the bone risks of space travelling, in particular in those with high bone resorption rates. Muscle wasting in space is likely due to hampered muscle protein synthesis. Even though this might theoretically be countered by the synthesis‐boosting effects of anabolic steroids, the practical grounds for such recommendation are currently weak. Moreover, they reveal their full potential only when combined with an anabolic exercise stimulus, for example, via strength training. It therefore seems that a combination of exercise and pharmacological countermeasures should be considered for musculoskeletal health on the way to the Moon and Mars and back. [ABSTRACT FROM AUTHOR]

Published
2023
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31. Dietary lipid droplet structure in postnatal life improves hepatic energy and lipid metabolism in a mouse model for postnatal programming

Author

Jelenik, Tomas, Kodde, Andrea, Pesta, Dominik, Phielix, Esther, Oosting, Annemarie, Rohbeck, Elisabeth, Dewidar, Bedair, Mastrototaro, Lucia, Trenkamp, Sandra, Keijer, Jaap, van der Beek, Eline, Roden, Michael, Center for Liver, Digestive and Metabolic Diseases (CLDM), Reproductive Origins of Adult Health and Disease (ROAHD), Nutrition and Movement Sciences, and RS: NUTRIM - R1 - Obesity, diabetes and cardiovascular health

Subjects
PERMEABILIZED FIBERS, MITOCHONDRIAL-FUNCTION, Mice, MATERNAL OBESITY, Milk fat globule membrane, Animals, NONALCOHOLIC FATTY LIVER, OXPHOS PROTOCOLS, GENE-EXPRESSION, VLAG, Pharmacology, INSULIN-RESISTANCE, GLOBULE-MEMBRANE, Insulin resistance, Lipid Droplets, Lipid Metabolism, Dietary Fats, Diet, Mice, Inbred C57BL, Disease Models, Animal, ADIPOSE-TISSUE, HOMEOSTASIS MODEL, Liver, Human and Animal Physiology, WIAS, Early life programming, Fysiologie van Mens en Dier, Diacylglycerol, Mitochondrial function, Supramolecular structure of lipid droplets
Abstract

Early-life diets may have a long-lasting impact on metabolic health. This study tested the hypothesis that an early-life diet with large, phospholipid-coated lipid droplets (Concept) induces sustained improvements of hepatic mitochondrial function and metabolism. Young C57BL/6j mice were fed Concept or control (CTRL) diet from postnatal day 15 (PN15) to PN42, followed by western style (WSD) or standard rodent diet (AIN) until PN98. Measurements comprised body composition, insulin resistance (HOMA-IR), tricarboxylic acid (TCA) cycle and beta-oxidation-related hepatic oxidative capacity using high-resolution respirometry, mitochondrial dynamics, mediators of insulin resistance (diacylglycerols, DAG) or ceramides) in subcellular compartments as well as systemic oxidative stress. Concept feeding increased TCA cycle-related respiration by 33% and mitochondrial fusion protein-1 by 65% at PN42 (both p 0.05). At PN98, CTRL, but not Concept, mice developed hyperinsulinemia (CTRL/AIN 0.22 +/-& nbsp;0.44 vs. CTRL/WSD 1.49 +/-& nbsp;0.53 nmol/l, p 0.05 and Concept/AIN 0.20 +/-& nbsp;0.38 vs. Concept/WSD 1.00 +/-& nbsp;0.29 nmol/l, n.s.) and insulin resistance after WSD (CTRL/AIN 107 +/-& nbsp;23 vs. CTRL/WSD 738 +/-& nbsp;284, p 0.05 and Concept/AIN 109 +/-& nbsp;24 vs. Concept/WSD 524 +/-& nbsp;157, n.s.). WSD-induced liver weight was 18% lower in adult Concept-fed mice and beta-oxidation-related respiration was 69% higher (p 0.05; Concept/WSD vs. Concept/AIN) along with lower plasma lipid peroxides (CTRL/AIN 4.85 +/-& nbsp;0.28 vs. CTRL/WSD 5.73 +/-& nbsp;0.47 mu mol/l, p 0.05 and Concept/AIN 4.49 +/-& nbsp;0.31 vs. Concept/WSD 4.42 +/-& nbsp;0.33 mu mol/l, n.s.) and were in part protected from WSD-induced increase in hepatic cytosolic DAG C16:0/C18:1. Early-life feeding of Concept partly protected from WSD-induced insulin resistance and systemic oxidative stress, potentially via changes in specific DAG and mitochondrial function, highlighting the role of early life diets on metabolic health later in life.

Published
2022

32. Case Report: Muscle Wasting during Severe Sustained Hypoxia in Two Professional Mountaineers.

Author

PESTA, DOMINIK, HEIEIS, JULE, HAND, OLGA, FRINGS-MEUTHEN, PETRA, MARCUS, KATRIN, CLEMEN, CHRISTOPH S., LEVINE, BEN, SADEK, HESHAM, HOFFMANN, FABIAN, LIMPER, ULRICH, JORDAN, JENS, SIES, WOLFRAM, TANK, JENS, ZANGE, JOCHEN, and RITTWEGER, JÖRN

Subjects
*SKELETAL muscle physiology, *BLOOD testing, *MUSCULAR atrophy, *MOUNTAINEERING, *SKELETAL muscle, *BLOOD gases analysis, *OXYGEN, *FOOD consumption, *ANTHROPOMETRY, *BED rest, *MUSCLE fatigue, *MAGNETIC resonance imaging, *ACCELEROMETERS, *OXYGEN saturation, *MOUNTAIN sickness, *PRE-tests & post-tests, *PHYSICAL activity, *COMPARATIVE studies, *MUSCLE strength, *DESCRIPTIVE statistics, *EXERCISE, *ATHLETIC ability, *HYPOXEMIA, *ALTITUDES
Abstract

Purpose: Chronic exposure to hypoxia can induce muscle wasting in unaccustomed individuals. Detailed assessment of the effects of hypoxia on muscle tissue adaptation in elite mountaineers has not been performed. This study aims to assess muscle volume after exposure to normobaric hypoxia. Methods: Two professional mountaineers (A and B) participated in a 35-d intervention of graded normobaric hypoxia with the aim of 14 d exposure to 8% oxygen corresponding to 7112-m altitude. Volume of the shank, thigh, and hip muscles was assessed by magnetic resonance imaging pre- and postintervention. Dietary intake and physical activity were monitored throughout the study from food images and accelerometry analysis, together with blood analysis and anthropometric measurements. Results: Hypoxia reduced total leg muscle volume by 3.3% ± 6.0% in A and by 9.4% ± 7.3% in B. A lost 288 g and B 642 g of muscle mass, whereas dietary intake only declined by ~23% in the last intervention week. Arterial oxygen saturation declined from 95% and 86% to 77% and 72% in A and B, respectively. In hypoxia, participants could not maintain their physical activity levels. Notably, muscle loss varied substantially across muscle groups amounting to 5.4% ± 3.0%, 8.3% ± 5.2%, and 4.1% ± 8.6% for hip, thigh, and shank muscles, respectively. Conclusions: Our results indicate that hypoxia and resultant reductions in physical activity and caloric intake lead to substantial loss of muscle mass that was accentuated in proximal muscle as opposed to distal muscles. Surprisingly, thigh muscle wasting during this intervention is comparable with that observed during strict 56-d bed rest. [ABSTRACT FROM AUTHOR]

Published
2023
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33. Mitochondrial physiology: Gnaiger Erich et al ― MitoEAGLE Task Group

Author

Gnaiger, Erich, Aasander Frostner, Eleonor, Abdul Karim, Norwahidah, Abdel-Rahman, Engy Ali, Abumrad, Nada A, Acuna-Castroviejo, Dario, Adiele, Reginald C, Ahn, Bumsoo, Alencar, MB, Ali, Sameh S, Almeida, Angeles, Alton, Lesley, Alves, Marco G, Amati, Francesca, Amoedo, Nivea Dias, Amorim, Ricardo, Anderson, Ethan J, Andreadou, Ioanna, Antunes, Diana, Arago, Marc, Aral, Cenk, Arandarcikaite, Odeta, Arias-Reyes, Christian, Armand, Anne-Sophie, Arnould, Thierry, Avram, Vlad Florian, Axelrod, Christopher L, Bairam, Aida, Bailey, Damian M, Bajpeyi, Sudip, Bajzikova, Martina, Bakker, Barbara M, Barlow, Jonathan, Bardal, Tora, Banni, A, Bastos Sant'Anna Silva, Ana Carolina, Batterson, Philip, Battino, Maurizio, Bazil, Jason, Beard, Daniel A, Beleza, Jorge, Bednarczyk, Piotr, Bello, Fiona, Ben-Shachar, Dorit, Bento Guida, Jose Freitas, Bergdahl, Andreas, Berge, Rolf K, Bergmeister, Lisa, Bernardi, Paolo, Berridge, Michael V, Bettinazzi, Stefano, Bishop, David, Blier, Pierre U, Blindheim, Dan Filip, Boardman, Neoma T, Boetker, Hans Erik, Borchard, Sabine, Boros, Mihaly, Borsheim, Elisabet, Borras, Consuelo, Borutaite, Vilma, Botella, Javier, Bouillaud, Frederic, Bouitbir, Jamal, Boushel, Robert C, Bovard, Josh, Bravo-Sagua, Roberto, Breton, Sophie, Brown, David A, Brown, Guy C, Brown, Robert A, Brozinick, Joseph T, Buettner, Garry R, Burtscher, Johannes, Bustos, Matilde, Calabria, Elisa, Calbet, Jose A, Calzia, Enrico, Cannon, Daniel T, Cano Sanchez, Maria, Canto Alvarez, Carles, Cardinale, D, Cardoso, Luiza Helena Daltro, Carvalho, Eugenia, Casado Pinna, Marta, Cassar, Samantha, Castelo, Maria P, Castilho, Roger F, Cavalcanti-de-Albuquerque, Joao Paulo, Cecatto, Cristiane, Celen, Murat C, Cervinkova, Zuzana, Chabi, Beatrice, Chakrabarti, Lisa, Chakrabarti, Sasanka, Chaurasia, Bhagirath, Chen, Quan, Chicco, Adam J, Chinopoulos, Christos, Chowdhury, Subir K, Cizmarova, Beata, Clementi, Emilio, Coen, Paul M, Cohen, Bruce H, Coker, Robert H, Collin-Chenot, Anne, Coughlan, Melinda T, Coxito, Petro, Crisostomo, Luis, Crispim, Marcell, Crossland, Hannah, Dahdah, Norma, Dalgaard, Louise T, Dambrova, Maija, Danhelovska, Tereza, Darveau, Charles A, Darwin, Paula M, Das, Anibh M, Dash, Ranjan K, Davidova, Eliska, Davis, Michael S, Dayanidhi, Sudarshan, De Bem, Andreza Fabro, De Goede, Paul, De Palma, Clara, De Pinto, Vito, Dela, F, Dembinska-Kiec, Aldona, Detraux, Damien, Devaux, Yvan, Di Marcello, Marco, Di Paola, Floriana Jessica, Dias, Candida, Dias, Tania R, Diederich, Marc, Distefano, Giovanna, Djafarzadeh, Siamak, Doermann, Niklas, Doerrier, Carolina, Dong, Lan-Feng, Donnelly, Chris, Drahota, Zdenek, Duarte, Filipe Valente, Dubouchaud, Herve, Duchen, Michael R, Dumas, Jean-Francois, Durham, William J, Dymkowska, Dorota, Dyrstad, Sissel E, Dyson, Alex, Dzialowski, Edward M, Eaton, Simon, Ehinger, Johannes, Elmer, Eskil, Endlicher, Rene, Engin, Ayse B, Escames, Germaine, Evinova, Andrea, Ezrova, Zuzana, Falk, Marni Joy, Fell, David A, Ferdinandy, Peter, Ferko, Miroslav, Fernandez-Ortiz, Marisol, Erika, Fernandez-Vizarra, Ferreira, Julio Cesar Batista, Ferreira, Rita, Ferri, Alessandra, Festuccia, WT, Fessel, Joshua P, Filipovska, Aleksandra, Fisar, Zdenek, Fischer, Christine, Fischer, Michael, Fisher, Gordon, Fisher, Joshua J, Fontanesi, Flavia, Forbes-Hernandez, Tamara Y, Ford, Ellen, Fornaro, Mara, Fuertes Agudo, Marina, Fulton, Montana, Galina, Antonio, Galkin, Alexander, Gallee, Leon, Galli, Gina L, Gama Perez, Pau, Gan, Zhenji, Ganetzky, Rebecca, Gao, Yun, Garcia, Geovana S, Garcia-Rivas, Gerardo, Garcia-Roves, Pablo Miguel, Garcia-Souza, Luiz Felipe, Garlid, Keith D, Garrabou, Gloria, Garten, Antje, Gastaldelli, Amalia, Gayen, Jiaur, Genders, Amanda J, Genova, Maria Luisa, Giampieri, Francesca, Glatz, Jan FC, Giovarelli, Matteo, Goikoetxea Usandizaga, Naroa, Goncalo Teixeira da Silva, Rui, Goncalves, Debora Farina, Gonzalez-Armenta, Jenny L, Gonzalez-Francesqua, A, Gonzalez-Freire, Marta, Gonzalo, Hugo, Goodpaster, Bret H, Gorr, Thomas A, Gourlay, Campbell W, Grams, Bente, Granata, Cesare, Grefte, Sander, Grilo, Luis, Guarch, Meritxell Espino, Gueguen, Naig, Gumeni, Sentiljana, Haas, Clarissa B, Haavik, Jan, Hachmo, Yafit, Haendeler, Judith, Haider, Markus, Hajrulahovic, Anesa, Hamann, Andrea, Han, Jin, Han, Woo Hyun, Hancock, Chad R, Hand, Steven C, Handl, Jiri, Hansikova, Hana, Hardee, Justin P, Hargreaves, Ian P, Harper, Mary Ellen, Harrison, David K, Hassan, Hazirah, Hatakova, Zuzana, Hausenloy, Derek J, Heales, Simon JR, Heiestad, Christina, Hellgren, Kim T, Henrique, Alexandrino, Hepple, Russell T, Hernansanz-Agustin, Pablo, Hewakapuge, Sudinna, Hickey, Anthony J, Ho, Dieu Hien, Hoehn, Kyle L, Hoel, Frederik, Holland, Olivia J, Holloway, Graham P, Holzner, Lorenz, Hoppel, Charles L, Hoppeler, H, Hoppel, Florian, Houstek, Josef, Huete-Ortega, Maria, Hyrossova, Petra, Iglesias-Gonzalez, Javier, Indiveri, Cesare, Irving, Brian A, Isola, Raffaella, Iyer, Shilpa, Jackson, Christophe B, Jadiya, Pooja, Jana, Prado Fabian, Jandeleit-Dahm, K, Jang, David H, Jang, Young C, Janowska, Joanna, Jansen, Kirsten, Jansen-Duerr, Pidder, Jansone, Baiba, Jarmuszkiewicz, Wieslawa, Jaskiewicz, Anna, Jaspers, Richard T, Jedlicka, Jan, Jerome, Estaquier, Jespersen, Nichlas R, Jha, Rajan K, Joseph, Vincent, Juhasz, Laszlo, Jurczak, Michael J, Jurk, Diana, Kaambre, Tuuli, Kaczor, Jan J, Kainulainen, Heikki, Kampa, Rafal Pawel, Kandel, Sunil M, Kane, Daniel A, Kapferer, Werner, Kapnick, Senta, Kappler, Lisa, Karabatsiakis, Alexander, Karavaeva, Iuliia, Karkucinska-Wieckowska, Agnieszka, Kaur, Sarbjot, Keijer, Jaap, Keller, Markus A, Keppner, Gloria, Khamoui, Andy V, Kidere, Dita, Kilbaugh, Todd, Kim, Hyoung Kyu, Kim, Julian KS, Kimoloi, Sammy, Klepinin, Aleksandr, Klepinina, Lyudmila, Klingenspor, Martin, Klocker, Helmut, Komlódi, Timea, Kolasa, Iris, Koopman, Werner JH, Kopitar-Jerala, Natasa, Kowaltowski, Alicia J, Kozlov, Andrey V, Krajcova, Adela, Krako Jakovljevic, Nina, Kristal, Bruce S, Krycer, Jamer R, Kuang, Jujiao, Kucera, Otto, Kuka, Janis, Kwak, Hyo Bum, Kwast, Kurt, Kwon, Oh Sung, Laasmaa, Martin, Labieniec-Watala, Magdalena, Lai, Nicola, Lalic, Nebojsa M, Land, John M, Lane, Nick, Laner, Verena, Lanza, Ian R, Laouafa, Sofien, Larsen, Steen, Larsen, Terje S, Lavery, Gareth G, Lazou, Antigone, Ledo, Ana Margarida, Lee, Hong Kyu, Leeuwenburgh, Christiaan, Lehti, Maarit, Lemieux, Helene, Lenaz, Giorgio, Lerfall, Jorgen, Li, Pingan A, Li Puma, Lance, Liang, Liping, Liepins, Edgars, Lin, Chien-Te, Liu, Jiankang, Lopez, Luis C, Lucchinetti, Eliana, Ma, Tao, Macedo, Maria P, Machado, Ivo F, Maciej, Sarah, MacMillan-Crow, Lee Ann, Magalhaes, Jose, Magri, Andrea, Majtnerova, Pavlina, Makarova, Elina, Makrecka-Kuka, Marina, Malik, Afshan N, Marcouiller, Francois, Marechal, Amandine, Markova, Michaela, Markovic, Ivanka, Martin, Daniel S, Martins, Ana Dias, Martins, Joao D, Maseko, Tumisang Edward, Maull, Felicia, Mazat, Jean Pierre, McKenna, Helen T, McKenzie, Matthew, McMillan, Duncan GG, McStay, Gavin P, Menze, Michael A, Mendham, Amy, Mercer, John R, Merz, Tamara, Messina, Angela, Meszaros, Andras T, Methner, Axel, Michalak, Slawomir, Mila Guasch, Maria, Minuzzi, Luciele M, Misirkic Marjanovic, Maja, Moellering, Douglas R, Moisoi, Nicoleta, Molina, Anthony JA, Montaigne, David, Moore, Anthony L, Moore, Christy, Moreau, Kerrie, Moreira, Bruno P, Moreno-Sanchez, Rafael, Mracek, Tomas, Muccini, Anna Maria, Muntane, Jordi, Muntean, Danina M, Murray, Andrew J, Musiol, Eva, Nabben, Miranda, Nair, K Sreekumaran, Nehlin, Jan O, Nemec, Michal, Nesci, Salvatore, Neufer, P Darrell, Neuzil, Jiri, Neviere, Remi, Newsom, Sean A., Norman, Jennifer, Nozickova, Katerina, Nunes, Sara, Nuoffer, Jean-Marc, O'Brien, Kristin, O'Brien, Katie A, O'Gorman, Donal, Olgar, Yusuf, Oliveira, Ben, Oliveira, Jorge, Oliveira, Marcus F, Oliveira, Marcos Tulio, Oliveira, Pedro F, Oliveira, Paulo J, Olsen, Rolf Erik, Orynbayeva, Zulfiya, Osiewacz, Heinz D, Paez, Hector, Pak, Youngmi K, Pallotta, Maria L, Palmeira, Carlos M, Parajuli, Nirmala, Passos, Joao F, Passrugger, Manuela, Patel, Hemal H, Pavlova, Nadia, Pavlovic, Kasja, Pecina, Petr, Pedersen, Tina M, Perales, Jose Carlos, Pereira da Silva Grilo da Silva, Filomena, Pereira, Rita, Perez Valencia, Juan A, Perks, Kara L, Pesta, Dominik, Petit, Patrice X, Pettersen Nitschke, Ina Katrine, Pichaud, Nicolas, Pichler, Irene, Piel, Sarah, Pietka, Terri A, Pinho, Sonia A, Pino, Maria F, Pirkmajer, Sergej, Place, Nicolas, Plangger, Mario, Porter, Craig, Porter, Richard K, Preguica, Ines, Procaccio, Vincent, Prochownik, Edward V, Prola, Alexandre, Pulinilkunnil, Thomas, Puskarich, Michael A, Puurand, Marju, Radenkovic, Filip, Ramzan, Rabia, Rattan, Suresh IS, Reano, Simone, Reboredo, Patricia, Rees, Bernard B, Renner-Sattler, Kathrin, Rial, Eduardo, Robinson, Matthew M, Roden, Michael, Rodrigues, Ana Sofia, Rodriguez, Enrique, Rodriguez-Enriquez, Sara, Roesland, Gro Vatne, Rolo, Anabela Pinto, Ropelle, Eduardo R, Roshanravan, Baback, Rossignol, Rodrigue, Rossiter, Harry B, Rousar, Tomas, Rubelj, Ivica, Rybacka-Mossakowska, Joanna, Saada, Ann, Safaei, Zahra, Sarlak, Saharnaz, Salin, Karine, Salvadego, Desy, Sandi, Carmen, Saner, Nicholas, Santos, Diana, Sanz, Alberto, Sardao, Vilma, Sazanov, Leonid A, Scaife, Paula, Scatena, Roberto, Schartner, Melanie, Scheibye-Knudsen, Morten, Schilling, Jan M, Schlattner, Uwe, Schmitt, Sabine, Schneider Gasser, Edith Mariane, Schoenfeld, Peter, Schots, Pauke C, Schulz, Rainer, Schwarzer, Christoph, Scott, Graham R, Selman, Colin, Sendon, Pamella Marie, Shabalina, Irina G, Sharma, Pushpa, Sharma, Vipin, Shevchuk, Igor, Shirazi, Reza, Shiroma, Jonathan G, Siewiera, Karolina, Silber, Ariel M, Silva, Ana Maria, Sims, Carrie A, Singer, Dominique, Singh, Brijesh Kumar, Skolik, Robert A, Smenes, Benedikte Therese, Smith, James, Soares, Félix Alexandre Antunes, Sobotka, Ondrej, Sokolova, Inna, Solesio Torregrosa, M De la Encarnacion, Soliz, Jorge, Sonkar, Vijay K, Sova, Marina, 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Zikova, Alena, Zischka, Hans, Zorzano, Antonio, Zujovic, Tijana, Zurmanova, Jitka, Zvejniece, Liga, Lagarrigue, Sylviane, Munro, Daniel, Pereira, Susana, Laranjinha, Joäo, Hecker, Matthias, Jusic, Amela, Prigione, Alessandro, Sommer, Natascha, Weissig, Volkmar, Guida, Bento, G, John G, Jones, JG, AMS - Tissue Function & Regeneration, AMS - Rehabilitation & Development, Physiology, Mito-Eagle - Evolution-Age-Gender-Lifestyle-Environment (Mito-Eagle), Oroboros Instruments, Dynamique Musculaire et Métabolisme (DMEM), Université de Montpellier (UM)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), and Gnaiger Erich, Aasander Frostner Eleonor, Abdul Karim Norwahidah, Abdel-Rahman Engy Ali, Abumrad Nada A, Acuna-Castroviejo Dario, Adiele Reginald C, Ahn Bumsoo, Alencar Mayke Bezerra, Ali Sameh S, Almeida Angeles, Alton Lesley, Alves Marco G, Amati Francesca, Amoedo Nivea Dias, Amorim Ricardo, Anderson Ethan J, Andreadou Ioanna, Antunes Diana, Arago Marc, Aral Cenk, Arandarcikaite Odeta, Arias-Reyes Christian, Armand Anne-Sophie, Arnould Thierry, Avram Vlad F, Axelrod Christopher L, Bailey Damian M, Bairam Aida, Bajpeyi Sudip, Bajzikova Martina, Bakker Barbara M, Banni Aml, Bardal Tora, Barlow J, Bastos Sant'Anna Silva Ana Carolina, Batterson Philip M, Battino Maurizio, Bazil Jason N, Beard Daniel A, Bednarczyk Piotr, Beleza Jorge, Bello Fiona, Ben-Shachar Dorit, Bento Guida Jose Freitas, Bergdahl Andreas, Berge Rolf K, Bergmeister Lisa, Bernardi Paolo, Berridge Michael V, Bettinazzi Stefano, Bishop David J, Blier Pierre U, Blindheim Dan Filip, Boardman Neoma T, Boetker Hans Erik, Borchard Sabine, Boros Mihaly, Boersheim Elisabet, Borras Consuelo, Borutaite Vilma, Botella Javier, Bouillaud Frederic, Bouitbir Jamal, Boushel Robert C, Bovard Josh, Bravo-Sagua Roberto, Breton Sophie, Brown David A, Brown Guy C, Brown Robert Andrew, Brozinick Joseph T, Buettner Garry R, Burtscher Johannes, Bustos Matilde, Calabria Elisa, Calbet Jose AL, Calzia Enrico, Cannon Daniel T, Cano Sanchez Maria Consolacion, Canto Alvarez Carles, Cardinale Daniele A, Cardoso Luiza HD, Carvalho Eugenia, Casado Pinna Marta, Cassar Samantha, Castelo Rueda Maria Paulina, Castilho Roger F, Cavalcanti-de-Albuquerque Joao Paulo, Cecatto Cristiane, Celen Murat C, Cervinkova Zuzana, Chabi Beatrice, Chakrabarti Lisa, Chakrabarti Sasanka, Chaurasia Bhagirath, Chen Quan, Chicco Adam J, Chinopoulos Christos, Chowdhury Subir Kumar, Cizmarova Beata, Clementi Emilio, Coen Paul M, Cohen Bruce H, Coker Robert H, Collin-Chenot Anne, Coughlan Melinda T, Coxito Pedro, Crisostomo Luis, Crispim Marcell, Crossland Hannah, Dahdah Norma Ramon, Dalgaard Louise T, Dambrova Maija, Danhelovska Tereza, Darveau Charles-A, Darwin Paula M, Das Anibh Martin, Dash Ranjan K, Davidova Eliska, Davis Michael S, Dayanidhi Sudarshan, De Bem Andreza Fabro, De Goede Paul, De Palma Clara, De Pinto Vito, Dela Flemming, Dembinska-Kiec Aldona, Detraux Damian, Devaux Yvan, Di Marcello Marco, Di Paola Floriana Jessica, Dias Candida, Dias Tania R, Diederich Marc, Distefano Giovanna, Djafarzadeh Siamak, Doermann Niklas, Doerrier Carolina, Dong Lan-Feng, Donnelly Chris, Drahota Zdenek, Duarte Filipe Valente, Dubouchaud Herve, Duchen Michael R, Dumas Jean-Francois, Durham William J, Dymkowska Dorota, Dyrstad Sissel E, Dyson Alex, Dzialowski Edward M, Eaton Simon, Ehinger Johannes K, Elmer Eskil, Endlicher Rene, Engin Ayse Basak, Escames Germaine, Evinova Andrea, Ezrova Zuzana, Falk Marni J, Fell David A, Ferdinandy Peter, Ferko Miroslav, Fernandez-Ortiz Marisol, Fernandez-Vizarra Erika, Ferreira Julio Cesar B, Ferreira Rita Maria P, Ferri Alessandra, Fessel Joshua Patrick, Festuccia William T, Filipovska Aleksandra, Fisar Zdenek, Fischer Christine, Fischer Michael J, Fisher Gordon, Fisher Joshua J, Fontanesi Flavia, Forbes-Hernandez Tamara Y, Ford Ellen, Fornaro Mara, Fuertes Agudo Marina, Fulton Montana, Galina Antonio, Galkin Alexander, Gallee Leon, Galli Gina L J, Gama Perez Pau, Gan Zhenji, Ganetzky Rebecca, Gao Yun, Garcia Geovana S, Garcia-Rivas Gerardo, Garcia-Roves Pablo Miguel, Garcia-Souza Luiz F, Garlid Keith D, Garrabou Gloria, Garten Antje, Gastaldelli Amalia, Gayen Jiaur, Genders Amanda J, Genova Maria Luisa, Giampieri Francesca, Giovarelli Matteo, Glatz Jan FC, Goikoetxea Usandizaga Naroa, Goncalo Teixeira da Silva Rui, Goncalves Debora Farina, Gonzalez- Armenta Jenny L, Gonzalez-Franquesa Alba, Gonzalez-Freire Marta, Gonzalo Hugo, Goodpaster Bret H, Gorr Thomas A, Gourlay Campbell W, Grams Bente, Granata Cesare, Grefte Sander, Grilo Luis, Guarch Meritxell Espino, Gueguen Naig, Gumeni Sentiljana, Haas Clarissa, Haavik Jan, Hachmo Yafit, Haendeler Judith, Haider Markus, Hajrulahovic Anesa, Hamann Andrea, Han Jin, Han Woo Hyun, Hancock Chad R, Hand Steven C, Handl Jiri, Hansikova Hana, Hardee Justin P, Hargreaves Iain P, Harper Mary- Ellen, Harrison David K, Hassan Hazirah, Hatokova Zuzana, Hausenloy Derek J, Heales Simon JR, Hecker Matthias, Heiestad Christina, Hellgren Kim T, Henrique Alexandrino, Hepple Russell T, Hernansanz- Agustin Pablo, Hewakapuge Sudinna, Hickey Anthony J, Ho Dieu Hien, Hoehn Kyle L, Hoel Fredrik, Holland Olivia J, Holloway Graham P, Holzner Lorenz, Hoppel Charles L, Hoppel Florian, Hoppeler Hans, Houstek Josef, Huete-Ortega Maria, Hyrossova Petra, Iglesias-Gonzalez Javier, Indiveri Cesare, Irving Brian A, Isola Raffaella, Iyer Shilpa, Jackson Christopher Benjamin, Jadiya Pooja, Jana Prado Fabian, Jandeleit-Dahm Karin, Jang David H, Jang Young Charles, Janowska Joanna, Jansen Kirsten M, Jansen-Duerr Pidder, Jansone Baiba, Jarmuszkiewicz Wieslawa, Jaskiewicz Anna, Jaspers Richard T, Jedlicka Jan, Jerome Estaquier, Jespersen Nichlas Riise, Jha Rajan Kumar, Jones John G, Joseph Vincent, Juhasz Laszlo, Jurczak Michael J, Jurk Diana, Jusic Amela, Kaambre Tuuli, Kaczor Jan Jacek, Kainulainen Heikki, Kampa Rafal Pawel, Kandel Sunil Mani, Kane Daniel A, Kapferer Werner, Kapnick Senta, Kappler Lisa, Karabatsiakis Alexander, Karavaeva Iuliia, Karkucinska-Wieckowska Agnieszka, Kaur Sarbjot, Keijer Jaap, Keller Markus A, Keppner Gloria, Khamoui Andy V, Kidere Dita, Kilbaugh Todd, Kim Hyoung Kyu, Kim Julian KS, Kimoloi Sammy, Klepinin Aleksandr, Klepinina Lyudmila, Klingenspor Martin, Klocker Helmut, Kolassa Iris, Komlodi Timea, Koopman Werner JH, Kopitar-Jerala Natasa, Kowaltowski Alicia J, Kozlov Andrey V, Krajcova Adela, Krako Jakovljevic Nina, Kristal Bruce S, Krycer James R, Kuang Jujiao, Kucera Otto, Kuka Janis, Kwak Hyo Bum, Kwast Kurt E, Kwon Oh Sung, Laasmaa Martin, Labieniec-Watala Magdalena, Lagarrigue Sylviane, Lai Nicola, Lalic Nebojsa M, Land John M, Lane Nick, Laner Verena, Lanza Ian R, Laouafa Sofien, Laranjinha Joao, Larsen Steen, Larsen Terje S, Lavery Gareth G, Lazou Antigone, Ledo Ana Margarida, Lee Hong Kyu, Leeuwenburgh Christiaan, Lehti Maarit, Lemieux Helene, Lenaz Giorgio, Lerfall Joergen, Li Pingan Andy, Li Puma Lance, Liang Liping, Liepins Edgars, Lin Chien-Te, Liu Jiankang, Lopez Garcia Luis Carlos, Lucchinetti Eliana, Ma Tao, Macedo Maria Paula, Machado Ivo F, Maciej Sarah, MacMillan-Crow Lee Ann, Magalhaes Jose, Magri Andrea, Majtnerova Pavlina, Makarova Elina, Makrecka-Kuka Marina, Malik Afshan N, Marcouiller Francois, Marechal Amandine, Markova Michaela, Markovic Ivanka, Martin Daniel S, Martins Ana Dias, Martins Joao D, Maseko Tumisang Edward, Maull Felicia, Mazat Jean-Pierre, McKenna Helen T, McKenzie Matthew, McMillan Duncan GG, McStay Gavin P, Mendham Amy, Menze Michael A, Mercer John R, Merz Tamara, Messina Angela, Meszaros Andras, Methner Axel, Michalak Slawomir, Mila Guasch Maria, Minuzzi Luciele M, Misirkic Marjanovic Maja, Moellering Douglas R, Moisoi Nicoleta, Molina Anthony JA, Montaigne David, Moore Anthony L, Moore Christy, Moreau Kerrie, Moreira Bruno P, Moreno-Sanchez Rafael, Mracek Tomas, Muccini Anna Maria, Munro Daniel, Muntane Jordi, Muntean Danina M, Murray Andrew James, Musiol Eva, Nabben Miranda, Nair K Sreekumaran, Nehlin Jan O, Nemec Michal, Nesci Salvatore, Neufer P Darrell, Neuzil Jiri, Neviere Remi, Newsom Sean A, Norman Jennifer, Nozickova Katerina, Nunes Sara, Nuoffer Jean-Marc, O'Brien Kristin, O'Brien Katie A, O'Gorman Donal, Olgar Yusuf, Oliveira Ben, Oliveira Jorge, Oliveira Marcus F, Oliveira Marcos Tulio, Oliveira Pedro Fontes, Oliveira Paulo J, Olsen Rolf Erik, Orynbayeva Zulfiya, Osiewacz Heinz D, Paez Hector, Pak Youngmi Kim, Pallotta Maria Luigia, Palmeira Carlos, Parajuli Nirmala, Passos Joao F, Passrugger Manuela, Patel Hemal H, Pavlova Nadia, Pavlovic Kasja, Pecina Petr, Pedersen Tina M, Perales Jose Carles, Pereira da Silva Grilo da Silva Filomena, Pereira Rita, Pereira Susana P, Perez Valencia Juan Alberto, Perks Kara L, Pesta Dominik, Petit Patrice X, Pettersen Nitschke Ina Katrine, Pichaud Nicolas, Pichler Irene, Piel Sarah, Pietka Terri A, Pinho Sonia A, Pino Maria F, Pirkmajer Sergej, Place Nicolas, Plangger Mario, Porter Craig, Porter Richard K, Preguica Ines, Prigione Alessandro, Procaccio Vincent, Prochownik Edward V, Prola Alexandre, Pulinilkunnil Thomas, Puskarich Michael A, Puurand Marju, Radenkovic Filip, Ramzan Rabia, Rattan Suresh IS, Reano Simone, Reboredo-Rodriguez Patricia, Rees Bernard B, Renner-Sattler Kathrin, Rial Eduardo, Robinson Matthew M, Roden Michael, Rodrigues Ana Sofia, Rodriguez Enrique, Rodriguez-Enriquez Sara, Roesland Gro Vatne, Rohlena Jakub, Rolo Anabela Pinto, Ropelle Eduardo R, Roshanravan Baback, Rossignol Rodrigue, Rossiter Harry B, Rousar Tomas, Rubelj Ivica, Rybacka-Mossakowska Joanna, Saada Reisch Ann, Safaei Zahra, Salin Karine, Salvadego Desy, Sandi Carmen, Saner Nicholas, Santos Diana, Sanz Alberto, Sardao Vilma, Sarlak Saharnaz, Sazanov Leonid A, Scaife Paula, Scatena Roberto, Schartner Melanie, Scheibye-Knudsen Morten, Schilling Jan M, Schlattner Uwe, Schmitt Sabine, Schneider Gasser Edith Mariane, Schoenfeld Peter, Schots Pauke C, Schulz Rainer, Schwarzer Christoph, Scott Graham R, Selman Colin, Sendon Pamella Marie, Shabalina Irina G, Sharma Pushpa, Sharma Vipin, Shevchuk Igor, Shirazi Reza, Shiroma Jonathan G, Siewiera Karolina, Silber Ariel M, Silva Ana Maria, Sims Carrie A, Singer Dominique, Singh Brijesh Kumar, Skolik Robert A, Smenes Benedikte Therese, Smith James, Soares Felix Alexandre Antunes, Sobotka Ondrej, Sokolova Inna, Solesio Maria E, Soliz Jorge, Sommer Natascha, Sonkar Vijay K, Sova Marina, Sowton Alice P, Sparagna Genevieve C, Sparks Lauren M, Spinazzi Marco, Stankova Pavla, Starr Jonathan, Stary Creed, Stefan Eduard, Stelfa Gundega, Stepto Nigel K, Stevanovic Jelena, Stiban Johnny, Stier Antoine, Stocker Roland, Storder Julie, Sumbalova Zuzana, Suomalainen Anu, Suravajhala Prashanth, Svalbe Baiba, Swerdlow Russell H, Swiniuch Daria, Szabo Ildiko, Szewczyk Adam, Szibor Marten, Tanaka Masashi, Tandler Bernard, Tarnopolsky Mark A, Tausan Daniel, Tavernarakis Nektarios, Teodoro Joao Soeiro, Tepp Kersti, Thakkar Himani, Thapa Maheshwor, Thyfault John P, Tomar Dhanendra, Ton Riccardo, Torp May-Kristin, Torres-Quesada Omar, Towheed Atif, Treberg Jason R, Tretter Laszlo, Trewin Adam J, Trifunovic Aleksandra, Trivigno Catherine, Tronstad Karl Johan, Trougakos Ioannis P, Truu Laura, Tuncay Erkan, Turan Belma, Tyrrell Daniel J, Urban Tomas, Urner Sofia, Valentine Joseph Marco, Van Bergen Nicole J, Van der Ende Miranda, Varricchio Frederick, Vaupel Peter, Vella Joanna, Vendelin Marko, Vercesi Anibal E, Verdaguer Ignasi Bofill, Vernerova Andrea, Victor Victor Manuel, Vieira Ligo Teixeira Camila, Vidimce Josif, Viel Christian, Vieyra Adalberto, Vilks Karlis, Villena Josep A, Vincent Vinnyfred, Vinogradov Andrey D, Viscomi Carlo, Vitorino Rui Miguel Pinheiro, Vlachaki Walker Julia, Vogt Sebastian, Volani Chiara, Volska Kristine, Votion Dominique-Marie, Vujacic-Mirski Ksenija, Wagner Brett A, Ward Marie Louise, Warnsmann Verena, Wasserman David H, Watala Cezary, Wei Yau-Huei, Weinberger Klaus M, Weissig Volkmar, White Sarah Haverty, Whitfield Jamie, Wickert Anika, Wieckowski Mariusz R, Wiesner Rudolf J, Williams Caroline M, Winwood-Smith Hugh, Wohlgemuth Stephanie E, Wohlwend Martin, Wolff Jonci Nikolai, Wrutniak-Cabello Chantal, Wuest Rob CI, Yokota Takashi, Zablocki Krzysztof, Zanon Alessandra, Zanou Nadege, Zaugg Kathrin, Zaugg Michael, Zdrazilova Lucie, Zhang Yong, Zhang Yizhu, Zikova Alena, Zischka Hans, Zorzano Antonio, Zujovic Tijana, Zurmanova Jitka, Zvejniece Liga

Subjects
uncoupling, MitoPedia: Respiratory states, SI - The International System of Units, IUPAC, Coupling control, Mitochondrial preparations, Protonmotive force, Uncoupling, Oxidative phosphorylation, Phosphorylation efficiency, Electron transfer-pathway, LEAK-respiration, Residual oxygen consumption, Normalization of rate, Flow, Flux, Flux control ratio, Mitochondrial marker, Cell count, Oxygen, [SDV]Life Sciences [q-bio], coupling control, protonmotive force, oxidative phosphorylation, mitochondrial respiratory control, State 4, electron transfer, State 2, State 3, Mitochondrial physiology, residual oxygen consumption, flux, normalization, ion leak and slip compensatory state, efficiency, electron transfer system, flow, mitochondrial physiology, oxygen, mitochondrial preparations, proton leak
Abstract

As the knowledge base and importance of mitochondrial physiology to evolution, health and diseaseexpands, the necessity for harmonizing the terminologyconcerning mitochondrial respiratory states and rates has become increasingly apparent. Thechemiosmotic theoryestablishes the mechanism of energy transformationandcoupling in oxidative phosphorylation. Theunifying concept of the protonmotive force providestheframeworkfordeveloping a consistent theoretical foundation ofmitochondrial physiology and bioenergetics.We followthe latest SI guidelines and those of the International Union of Pure and Applied Chemistry(IUPAC)onterminology inphysical chemistry, extended by considerationsofopen systems and thermodynamicsof irreversible processes.Theconcept-driven constructive terminology incorporates the meaning of each quantity and alignsconcepts and symbols withthe nomenclature of classicalbioenergetics. We endeavour to provide a balanced view ofmitochondrial respiratory control and a critical discussion on reporting data of mitochondrial respiration in terms of metabolic flows and fluxes.Uniform standards for evaluation of respiratory states and rates will ultimatelycontribute BEC 2020.1 doi:10.26124/bec:2020-0001.v1www.bioenergetics-communications.org3of 44to reproducibility between laboratories and thussupport the development of datarepositoriesof mitochondrial respiratory function in species, tissues, and cells.Clarity of concept and consistency of nomenclature facilitate effective transdisciplinary communication, education, and ultimately further discovery.

Published
2020
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34. Human platelet mitochondrial function reflects systemic mitochondrial alterations: a protocol for application in field studies

Author

Hoppel, Florian, Garcia-Souza, Luiz Felipe, Kantner-Rumplmair, Wilhelm, Burtscher, Martin, Gnaiger, Erich, Pesta, Dominik, and Calabria, Elisa

Subjects
Blood Platelets, QH301-705.5, respirometry, Cell Respiration, Reproducibility of Results, Mitochondria, Oxygen Consumption, field study, mitochondrial function, physical exercise, platelets, Protocol, Humans, Biology (General), quality control, Exercise
Abstract

Human blood cells may offer a minimally invasive strategy to study systemic alterations of mitochondrial function. Here we tested the reliability of a protocol designed to study mitochondrial respiratory control in human platelets (PLTs) in field studies, using high-resolution respirometry (HRR). Several factors may trigger PLT aggregation during the assay, altering the homogeneity of the cell suspension and distorting the number of cells added to the two chambers (A, B) of the Oroboros Oxygraph-2k (O2k). Thus, inter-chamber variability (∆ab) was calculated by normalizing oxygen consumption to chamber volume (JO2) or to a specific respiratory control state (flux control ratio, FCR) as a reliable parameter of experimental quality. The method’s reliability was tested by comparing the ∆ab of laboratory-performed experiments (LAB, N = 9) to those of an ultramarathon field study (three sampling time-points: before competition (PRE, N = 7), immediately after (POST, N = 10) and 24 h after competition (REC; N = 10)). Our results show that ∆ab JO2 changed PRE-POST, but also for LAB-POST and LAB-REC, while all ∆ab FCR remained unchanged. Thus, we conclude that our method is reliable for assessing PLT mitochondrial function in LAB and field studies and after systemic stress conditions.

Published
2021

35. The mammalian INDY homolog is induced by CREB in a rat model of type 2 diabetes

Author

Neuschafer-Rube, Frank, Lieske, Stefanie, Kuna, Manuela, Henkel, Janin, Perry, Rachel J., Erion, Derek M., Pesta, Dominik, Willmes, Diana M., Brachs, Sebastian, von Loeffelholz, Christian, Tolkachov, Alexander, Schupp, Michael, Pathe-Neuschafer-Rube, Andrea, Pfeiffer, Andreas F.H., Shulman, Gerald I., Puschel, Gerhard P., and Birkenfeld, Andreas L.

Subjects
Liver cells -- Genetic aspects, Binding proteins -- Properties, Citrates -- Health aspects, Type 2 diabetes -- Genetic aspects -- Models, Glucagon -- Health aspects, Health
Abstract

Reduced expression of the INDY (I'm not dead yet) tricarboxylate carrier increased the life span in different species by mechanisms akin to caloric restriction. Mammalian INDY homolog (mIndy, SLC13A5) gene expression seems to be regulated by hormonal and/or nutritional factors. The underlying mechanisms are still unknown. The current study revealed that mIndy expression and [[sup.14]C]-citrate uptake was induced by physiological concentrations of glucagon via a cAMP-dependent and cAMP-responsive element-binding protein (CREB)-dependent mechanism in primary rat hepatocytes. The promoter sequence of mIndy located upstream of the most frequent transcription start site was determined by 5'-rapid amplification of cDNA ends. In silico analysis identified a CREB-binding site within this promoter fragment of mIndy. Functional relevance for the CREB-binding site was demonstrated with reporter gene constructs that were induced by CREB activation when under the control of a fragment of a wild-type promoter, whereas promoter activity was lost after site-directed mutagenesis of the CREB-binding site. Moreover, CREB binding to this promoter element was confirmed by chromatin immunoprecipitation in rat liver. In vivo studies revealed that mIndy was induced in livers of fasted as well as in high-fat-diet-streptozotocin diabetic rats, in which CREB is constitutively activated, mIndy induction was completely prevented when CREB was depleted in these rats by antisense oligonucleotides. Together, these data suggest that mIndy is a CREB-dependent glucagon target gene that is induced in fasting and in type 2 diabetes. Increased mIndy expression might contribute to the metabolic consequences of diabetes in the liver. Diabetes 2014;63:1048-1057 | DOI: 10.2337/db13-0749, Reduced expression of the INDY (I'm not dead yet) gene regulates life span by mechanisms that share important similarities with caloric restriction--the most reliable intervention to prolong life span over [...]

Published
2014
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37. Comparison of trunk muscle exercises in supine position during short arm centrifugation with 1g at centre of mass and upright in 1g.

Author

Frett, Timo, Lecheler, Leopold, Speer, Martin, Marcos, David, Pesta, Dominik, Tegtbur, Uwe, Schmitz, Marie-Therese, Jordan, Jens, and Green, David Andrew

Subjects
RECTUS abdominis muscles, SUPINE position, CENTRIFUGATION, DIASTOLIC blood pressure, SYSTOLIC blood pressure, CENTER of mass
Abstract

Spaceflight is associated with reduced antigravitational muscle activity, which results in trunk muscle atrophy and may contribute to post-flight postural and spinal instability. Exercise in artificial gravity (AG) performed via short-arm human centrifugation (SAHC) is a promising multi-organ countermeasure, especially to mitigate microgravity-induced postural muscle atrophy. Here, we compared trunk muscular activity (mm. rectus abdominis, ext. obliques and multifidi), cardiovascular response and tolerability of trunk muscle exercises performed during centrifugation with 1 g at individual center of mass on a SAHC against standard upright exercising. We recorded heart rate, blood pressure, surface trunk muscle activity, motion sickness and rating of perceived exertion (BORG) of 12 participants (8 male/4 female, 34 ± 7 years, 178.4 ± 8.2 cm, 72.1 ± 9.6 kg). Heart rate was significantly increased (p < 0.001) during exercises without differences in conditions. Systolic blood pressure was higher (p < 0.001) during centrifugation with a delayed rise during exercises in upright condition. Diastolic blood pressure was lower in upright (p = 0.018) compared to counter-clockwise but not to clockwise centrifugation. Target muscle activation were comparable between conditions, although activity of multifidi was lower (clockwise: p = 0.003, counter-clockwise: p < 0.001) and rectus abdominis were higher (clockwise: p = 0.0023, counterclockwise: < 0.001) during centrifugation in one exercise type. No sessions were terminated, BORG scoring reflected a relevant training intensity and no significant increase in motion sickness was reported during centrifugation. Thus, exercising trunk muscles during centrifugation generates comparable targeted muscular and heart rate response and appears to be well tolerated. Differences in blood pressure were relatively minor and not indicative of haemodynamic challenge. SAHC-based muscle training is a candidate to reduce microgravity-induced inter-vertebral disc pathology and trunk muscle atrophy. However, further optimization is required prior to performance of a training study for individuals with trunk muscle atrophy/dysfunction. [ABSTRACT FROM AUTHOR]

Published
2022
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38. 3. IMMUNAGE for cancer and aging prevention

Author

Carraro, Ugo, Leeuwenburgh, Christiaan, Woods, Adam J., Anton, Stephen, Fais, Stefano, Mizzoni, Davide, Di Raimo, Rossella, Logozzi, Mariantonia, Wada, Eiji, Kikkawa-Nagata, Namiko, Yoshida, Mizuko, Nagata, Yosuke, Nonaka, Ikuya, Ohashi, Kazuya, Shiozuka, Masataka, Date, Munehiro, Higashi, Tatsuo, Nishino, Ichizo, Matsuda, Ryoichi, Arakawa, Masayuki, Wagatsuma, Akira, Hayashi, Yuki, Doerrier, Carolina, Di Marcello, Marco, Gnaiger, Erich, Gherardi, Gaia, Rizzuto, Rosario, Mammucari, Cristina, Konokhova, Yana, Thome, Trace, Ryan, Terence, Burke, Sarah K., Spendiff, Sally, Hepple, Russell T., Lavorato, Manuela, Mathew, Neal D., Nakamaru-Ogiso, Eiko, Falk, Marni J., Narici, Marco, Pizzichemi, Martina, Marcolin, Giuseppe, Monti, Elena, Rizzi, Benedetta, Franchi, Martino V, Zampieri, Sandra, Benoni, Alexandra, Adamo, Sergio, Alessio, Enrico, Buson, Lisa, Chemello, Francesco, Peggion, Caterina, Massimino, Maria Lina, Martini, Paolo, Pacchioni, Beniamina, Millino, Caterina, Bertoli, Alessandro, Romualdi, Chiara, Scorrano, Luca, Lanfranchi, Gerolamo, Cagnin, Stefano, Spradlin, Ray, Gregorio, Kaitlyn, Barton, Elisabeth, Tavares, Paula, Ribeiro, Eurico, Pinheiro, Victor, Martins, João, Simões, Sandra, Ambrósio, Francisco, Fontes Ribeiro, Carlos A., Martini, Alessandro, Hoppeler, Hans, Volk, Gerd Fabian, Arnold, Dirk, Thielker, Jovanna, Ruck, Anne, Mothes, Oliver, Valeria, Mastryukova, Mayr, Winfried, Guntinas-Lichius, Orlando, Nissim, Nicole, O’Shea, Andrew, Porges, Eric, Cohen, Ronald, Kraft, Jessica, Albizu, Alejandro, Indahlastari, Aprinda, Marcu, Sara, Pegolo, Elena, Ívarsson, Eysteinn, Jónasson, Aron D, Jónasson, Viktor D, Gargiulo, Paolo, Banea, Ovidiu C, Minnock, Dean, Wu, Rui, De Vito, Giuseppe, Clario, Luca, Sweeney, H. Lee, Roth, Fanny, Dhiab, Jamila, Boulinguiez, Alexis, Muraine, Laura, Negroni, Elisa, St Guily, Jean Lacau, Mouly, Vincent, Trollet, Capucine, Butler-Browne, Gillian, Schiavone, Marco, Zulian, Alessandra, Stocco, Anna, Smolina, Natalia, Petronilli, Valeria, Šileikytė, Justina, Forte, Michael, Cohen, Michael, Devereaux, Jordan, Argenton, Francesco, Merlini, Luciano, Sabatelli, Patrizia, Bernardi, Paolo, Angelini, Corrado, Pegoraro, Valentina, Marozzo, Roberta, Tavian, Daniela, Missaglia, Sara, Protasi, Feliciano, Boncompagni, Simona, Pond, Amber L., Whitmore, Clayton, Davie, Judy K., Choudhari, Sulbha, Thimmapuram, Jyothi, Hockerman, Gregory H., Sinha, Shantanu, Sinha, Usha, Franchi, Martino, Sarto, Fabio, Reggiani, Carlo, Toniolo, Luana, Giacomello, Emiliana, Murgia, Marta, Nogara, Leonardo, Simunič, Bostjan, Pisot, Rado., Spörri, Jörg, Pirri, Carmelo, Fede, Caterina, Fan, Chenglei, Porzionato, Andrea, Macchi, Veronica, De Caro, Raffaele, Stecco, Carla, Kern, Helmut, Löfler, Stefan, Cvecka, Jan, Sarabon, Nejc, Musarò, Antonio, Ravara, Barbara, Sartori, Roberta, Sandri, Marco, Pietrobon, Sefora Elisa, Moletta, Lucia, Sperti, Cosimo, Da Dalt, Gianfranco, Merigliano, Stefano, Albertin, Giovanna, Vindigni, Vincenzo, Sedliak, Milan, Kralik, Michal, Putala, Matus, Buzgo, Gabriel, Tirpakova, Veronika, Bujdak, Peter, Kollarik, Boris, Ukropcova, Barbara, Ukropec, Jozef, Payer, Jraj, Killinger, Zdenko, Raastad, Truls, Iodice, Pierpaolo, Pietrangelo, Laura, Galli, Lucia, Pierantozzi, Enrico, Rossi, Daniela, Fusella, Aurora, Caulo, Massimo, Sorrentino, Vincenzo, Rozman, Janez, Pečlin, Polona, Ribarič, Samo, Coscia, Francesco, Gigliotti, Paola V., Rasheed, Rezhna Adil, Fanò-Illic, Giorgio, Bijak, Manfred, Deubner, Orissa, Brettlecker, Sebastian, Cap, Veronika, Lebloch, Kaspar, Schröder, Svenja, Lanmüller, Hermann, Recenti, Marco, Ricciardi, Carlo, Edmunds, Kyle J., Barollo, Fabio, Friðriksdóttir, Rùn, Karlsson, Gunnar H., Svansson, Halldór Á., Edmunds, Kyle, Fratini, Antonio, Hassan, Mahmud, Petersen, Hannes, Michelucci, Antonio, Ambrogini, Patrizia, Sartini, Stefano, Guarnier, Flavia A., Helgason, Thordur, Osk Kristinsdottir, Kristjana, Karason, Halldor, Gudmundsdottir, Vilborg, Magnusdottir, Gigja, Ludwigsdottir, Gudbjorg, Petrelli, Lucia, Guidolin, Diego, Marcucci, Lorenzo, Bondí, Michela, Pavan, Piero, Arakawa, Reiko, Noriko, Otsuki, Masayuki, Arakawa, Kayoko, Saito, Biz, Carlo, Gava, Paolo, Gama-Perez, Pau, Chabi, Beatrice, Ost, Mario, Distefano, Giovanna, Pesta, Dominik, Dahdah, Norma, Lemieux, Hélène, Holody, Claudia, Carpenter, Rowan G, Tepp, Kersti, Puurand, Marju, Kaambre, Tuuli, Dubouchaud, Hervé, Cortade, Fabienne, Calabria, Elisa, Casado, Marta, Fernandez-Ortiz, Marisol, Acuna-Castroviejo, Dario, Villena, Josep A, Grefte, Sander, Keijer, Jaap, O'Brien, Kristin, Sowton, Alice, Murray, Andrew James, Campbell, Matthew D, Marcinek, David J, Nollet, Edgar, Wuest, Rob, Dayanidhi, Sudarshan, Dam Soendergaard, Stine, Chroeis, Karoline Maise, Gonzalez-Franquesa, Alba, Goodpaster, Bret H, Coen, Paul M, (20), Steen Larsen, Garcia-Roves, Pablo Miguel, Gava, Karma, Giordani, Federico, Musumeci, Alfredo, Masiero, Stefano, Giustino, Valerio, Iovane, Angelo, Feka, Kaltrina, Genua, Diego, Rizzo, Federica, Brusa, Jessica, Messina, Giuseppe, Baldassano, Sara, Amanto, Alessanda, Proia, Patrizia, Schiera, Gabriella, Schirò, Giuseppe, Salemi, Giuseppe, Di Liegro, Carlo Maria, Di Liegro, Italia, and Ragonese, Paolo

Subjects
mouth fluids, Aging, muscle, sarcoplasmic reticulum (SR), Fermented Papaya, rejuvenation, dynamic MRI, endurance exercise, bed rest, Anti-oxidant, stress, Elderly, transcranial magnetic stimulation, Masters World records, Muscle spindle, P300, Spinal Cord Injury, electric stimulation, cancer prevention, spasticity, reference values, clinical outcomes, mitochondria, Neuromuscular diseases, machine learning, ETFDH, muscles, muscle trophism, Color Computed Tomography, skin, cortisol, Neurotrophins, Article, muscle fiber conduction velocity, radiodensity, hyaluronan, stem cells, Mobility Medicine, growth factors, hypogonadism, older and oldest persons, skeletal muscle, %MVC, Padova Anatomy School, serological biomarkers, fascia, denervation, variability, P50, strength and resistance training, cardiovascular conditions, Physical Activity, cytokines, HERG Expression, age, nucelar aggregates, myomiRs, home-based full-body in-bed gym, Preventive Medicine, mechanics, muscle atrophy, FPP®, mitochondrial metabolism, adipose triglyceride lipase, type 1 diabetes, functional recovery, lipid droplets, UPP, peripheral effect, power, reproducibility crisis, mitochondrial respiration, adipose content, pain, Vitamin C, Fermented papaya product, serum proteins, Interferon gamma, compressed sensing, endurance, finite element model, vesicles, fermented papaya preparation, training, neuromuscular junction, non-invasive analyses, dietary phosphorus overload, Functional Electrical Stimulation (FES), health, mitochondrial respiratory capacity, fasciae, non-coding RNAs, postural exercise program, brain aging, diffusion modeling, atrophy and flattening, multi arrays electrodes, muscle ultrasound, oculopharyngeal muscular dystrophy, seniors, sarcopenia, connective tissue content, skeletal muscle atrophy, mitochondrial Ca2+ signalling, denervated degenerating muscle, BME, Muscle architecture, cymba conchae, auricular nerve, riboflavin, survival motor neuron 1, endocannabinoid, Transcutaneous vagus nerve stimulation (tANS), unilateral facial paralysis, FES, ageing, blood contamination, rate of performance decay, home Functional Electrical Stimulation, sarcomere, fibrinogen, FBXL4, EDA, electromyography, Aging muscle, circulating myokines, diffusion MRI, biology of aging, prevention, Multiple acyl-CoA dehydrogenase deficiency, young people’s education, mdx mouse, fatty acid oxidation, spinal muscular atrophy, reactive oxygen species, shear wave elastography, excitation-contraction (EC) coupling, exercise, neuromuscular activity, ultrasound, PABPN1, Wartenberg pendulum test, early aging, imaging flow cytometry, IL-17, Telomeres, strategies, IL-10, V O2max, mitochondrial transplantation, strength, cancer cachexia, super-aging society, muscle tendon-unit, nanotechno- logical devices, Multiple Sclerosis, rehabilitation, atrophy, single myofiber, oxytocin, mouse models, neuromuscular maladaptation, Ca2+ entry unit (CEU), cognitive aging, permeabilized muscle fibers, Amyotrophic Lateral Sclerosis, platinum electrodes, mitochondrial permeability transition pore, cochlear implant, mitochondrial database, M. Zygomaticus, mitochondrial fusion and fission, Mitochondrial disease, schizophrenia, muscle co-activation, translational research, immobilization, SCL, Extra-cellular matrix, IMMUNAGE, mitObesity, CTX, SCR, Biomarkers, natural products, vasopressin, Central Core Disease (CCD), Performance, Gymnastic, cochlea, 3D strain imaging, arousal, energy metabolism, agonist, older adults, connective tissue, muscle and neural fatigue, muscle regeneration, stroke, microRNAs, control of energy metabolism, Electrostimulation, gender differences, ”anti-aging”, C. elegans, endoplasmic reticulum stress, cvxEDA, high density EEG, capsule, epicatechins, Neutral lipid storage disease with myopathy, comorbidities, Computed Tomography, store-operated Ca2+ entry (SOCE), 2020 Padua Muscle Days, QOL for seniors, label-free microscopy, gene upregulation, Nutrition, calcium, reliability, epigenetics, IL-4, muscle wasting, zebrafish, excitation contraction (EC) coupling, Transcranial direct current stimulation (tDCS), C2C12 Myotubes, Ryanodine Receptor type-1 (RYR1), acetylcholine receptors, testosterone, numerical model
Abstract

More than half a century of skeletal muscle research is continuing at Padua University (Italy) under the auspices of the Interdepartmental Research Centre of Myology (CIR-Myo), the European Journal of Translational Myology (EJTM) and recently also with the support of the A&CM-C Foundation for Translational Myology, Padova, Italy. The Volume 30(1), 2020 of the EJTM opens with the collection of abstracts for the conference “2020 Padua Muscle Days: Mobility Medicine 30 years of Translational Research”. This is an international conference that will be held between March 18-21, 2020 in Euganei Hills and Padova in Italy. The abstracts are excellent examples of translational research and of the multidimensional approaches that are needed to classify and manage (in both the acute and chronic phases) diseases of Mobility that span from neurologic, metabolic and traumatic syndromes to the biological process of aging. One of the typical aim of Physical Medicine and Rehabilitation is indeed to reduce pain and increase mobility enough to enable impaired persons to walk freely, garden, and drive again. The excellent contents of this Collection of Abstracts reflect the high scientific caliber of researchers and clinicians who are eager to present their results at the PaduaMuscleDays. A series of EJTM Communications will also add to this preliminary evidence., Multiple biological pathways contribute to aging. Some prominent pathways and causes are genome instability, immunosenescence, inflammation, the NAD+ salvage pathways, proteostasis, and mitochondrial dysfunction. Altered gene regulation influenced by epigenetics, circadian rhythms, diet and physical activity levels also influences the rate of aging. Our Institute on Aging and collaborators are involved with multiple clinical trials with the goal to target these pathways and to improve physical and cognitive function or slow the rate of decline typically seen during aging. The ultimate goal is to develop interventions that can maintain health and independence of older adults. Trials ongoing and/or completed have utilized compounds shown to extend health-span and/or life span in invertebrates (c. elegans) or vertebrates (mice/rats). The compounds used range from nutritional (nicotinamide riboside, epicatechin, resveratrol, omega 3, fermented papaya) to pharmacological (metformin, aspirin, rapamycin, telmisartin/losartan, testosterone), lifestyle-physiological interventions (calorie restriction, exercise, fasting regimes). These biological compounds and lifestyle interventions target single or multiple pathways to potentially improve mitochondrial function, mitobiogenesis, autophagy, angiogenesis, nitric oxide production, and levels of NAD+ and/or reduce pathways or biomarkers of inflammation or senescence. In most of these trials we collect skeletal muscle, fat, white blood cells and plasma to determine if the compound alters the proposed biological pathway. We will briefly discuss some clinical trials and highlight findings on a recently completed clinical trial using epicatechins a flavonoid, which improved endothelial and mitochondrial function as well as walking speed. We will also highlight the challenges and limitations in conducting clinical trials, such as dose, duration of study, targeting single vs. multiple pathways, combining an intervention with exercise and/or intermittent fasting.1-5, Age-related cognitive decline has become a major public health concern. Even in the absence of frank neurodegenerative disorders, both cognitive and brain function decline as a function of advancing age. At present, there are few effective intervention options for remediating age-related cognitive and neural decline. Fermented Papaya Product has previously shown promise in human and animal models as a potential nutraceutical compound for impacting mitochondrial function, inflammation, and other age-related processes that contribute to cognitive and neural decline.1-3 The current study presents data from a pilot crossover clinical trials in 28 healthy older adults undergoing 8 weeks of treatment on either 9mg/day FPP vs. 9mg/day placebo (table sugar) with a 6-week washout period. Participants underwent multimodal magnetic resonance imaging and spectroscopy before and after each arm, as well as comprehensive neurocognitive assessment. Results demonstrated promising effect sizes on default mode resting state connectivity (Cohen’s d = .44), measures of verbal fluency (d = 1.16) and attention (d = .61), as well as two out of three novel markers of mitochondrial function from 31P magnetic resonance spectroscopy and neuroinflammation from free-water quantification in diffusion weighted imaging (d = .38). While results failed to survive significance after multiple comparison correction, the pattern of effect size improvement in FPP vs. placebo demonstrate significant promise for further investigation in larger Phase II randomized clinical trials. Potential implications for both healthy older adults and adults with neurodegenerative disease will be discussed., Prolonged oxidative stress may play a key role in tumor development. Antioxidants molecules are contained in many foods and seem to have potential role in future anti-tumor strategies. Among the natural antioxidants, the beneficial effect of Fermented Papaya (FPP®) is known. The aim of this study was to investigate the effects of orally administered FPP® in either prevention or treatment of a murine model of melanoma. The tumor growth was analyzed together with the blood levels of both oxidants (ROS) and anti-oxidants (SOD-1 and GSH). The results showed that FPP® controlled tumor growth, reducing the tumor mass of about 3 to 7 times vs untreated mice. The most significant effect was obtained with sublingual administration of FPP® close to the inoculation of melanoma. At the time of the sacrifice, none of mice treated with FPP® had metastases, the subcutaneous tumors were significantly smaller, and amelanotic compared to untreated mice. Moreover, the FPP® anti-tumor effect was consistent with the decrease of total ROS levels and the increase in the blood levels of GSH and SOD-1. This study shows that a potent anti-oxidant treatment through FPP® may contribute to both preventing and inhibiting tumors growth. The results of the above study suggested that FPP® while showing a clear anti-tumor effect it occurred through the in vivo induction of a potent anti-oxidant reaction. In a new set of experiments, we wanted to verify whether FPP had a clear and scientifically solid in vivo anti-aging effect together with the induction of the anti-oxidant reaction. To this purpose we used a mouse model suitable for aging studies (C576J) treating daily each mouse from 4 weeks of life to 10 months with the same dose of IMMUNEAGE dissolved into the daily water as compared to mice receiving only tap water. At the end of the treatment period (10 months) we measured some biological parameters related to aging cell processes: i) the total anti-oxydant capacity in the plasma of mice treated or untreated with FPP®; ii) the telomerase activity in the plasma of mice treated or untreated with FPP®; iii) the telomeres length in the bone marrow and ovaries of mice treated or untreated with FPP®. The results showed that the blood of treated mice, at the end of the treatment period (10 months) had 2-3 folds more anti-oxidant power and telomerase activities than the untreated mice. In the same mice at the sacrifice, we collected both the bone marrow (from the tibias) and the ovaries. We measured the telomere lengths in both cellular preparations. The results showed that daily FPP® assumption induced 3 folds increase in telomeres length in bone marrow and ovary of treated mice as compared to the untreated mice. This suggests that FPP® induce a clear improvement of the aging biomarkers and that the treated mice were for those variables younger than the untreated ones., Increased intake of a diet high in phosphorus (P) or phosphate (Pi) is associated with an increased risk of mortality in patients with chronic kidney disease or cardiovascular disease. Muscle fibers with ectopic calcification are observed in young patients with severe muscle degeneration. Ectopic calcification was also observed in the skeletal and cardiac muscles of mdx mice. In this study, we determined the effects of dietary phosphorus intake on ectopic calcification in skeletal muscle, muscle performance (specific maximal forces and daily running activity), and pathological features during exercise-induced stress in mdx mice. Increased level of dietary P or Pi intake also increased ectopic calcification and decreased muscle performance in mdx mice. On the other hand, decreased level of dietary P or Pi intake decreased ectopic calcification and muscle degeneration and improved muscle performance. When we added calcium absorber in high phosphorus diet, the ectopic calcification decreased significantly. In C2C12 muscle cell cultures, the increased concentration of Pi in culture medium inhibited myogenesis in a dose-dependent manner. Therefore, we propose that phosphorus (P) or phosphate (Pi) is one of the modifiers in regulating muscle degradation/inflammation in vivo and in vitro. In addition, we also found that the long-lasting Vitamin C, ascorbic acid-2 phosphate added into culture medium supported myogenesis even under high Pi- or low temperature-culture conditions. These results suggest that vitamin C may have therapeutic effect on muscle degeneration caused by increased level of Pi or lowered culture temperature., The neuromuscular junctions (NMJ) are specialized synapses between motor neuron and muscle fibers. They are targets for a variety of neuromuscular diseases. Maintenance and remodeling of NMJ are critical to treat these diseases. Different therapeutic strategies for neuromuscular diseases have been developed ranging from gene therapy to antisense-mediated exon skipping and nonsense mutation suppression by small molecules. We are attempting to search for therapeutic potential molecules from natural sources such as several microorganisms and chemical libraries. Among others, natural bioactive molecules, glucocorticoids and vitamin D have been proposed as potential treatments to delay progression in neuromuscular diseases and aging. However, the direct mechanisms for skeletal muscle have not been fully characterized. Recently, using cultured C2C12 myotubes, we showed that glucocorticoids and vitamin D enhance agrin-induced acetylcholine receptors (AChR) clustering compared to agrin alone. However, sex hormones such as estradiol and testosterone are less effective. To elucidate the physiological role of these compounds in agrin-induced AChR clustering, we investigated and will discuss their effects on expression of key molecules involved in AChR cluster formation and maintenance. This work was supported in part by Japan Society for the Promotion of Science, JSPS Grants-in-Aid for Scientific Research, Grant number:17K10089., Japan is facing a “super-aging” society. Seniors over 65 is 28.4% of the population and the life expectancy is the highest in the world, however, the nation’s annual medical cost is now over 42.6 trillion yen. If this trend continues, the Japanese government will not be able to sustain the social services. Therefore, Osato Research Institute has been conducting researches, aimed at reducing medical costs through Preventive Medicine. Our three core activities for achieving this goal are Education, Researches on Fermented Foods, and Improving QOL of senior generation. Firstly, we think the best preventive medicine is education. For example, AIDS is a typical disease that can be prevented by education. We have been working on young people’s education for AIDS prevention with Prof. Montagnier, president of World Foundation AIDS Research and Prevention at UNESCO. Secondly, we have been focusing our attention on “Fermented Food” since traditional fermented foods are considered to be a key to the world's highest longevity of Japanese people. Among our numerous studies, I will present 5 researches on Fermented Papaya Preparation,1-5 which may be a desired candidate for preventive medicine. Finally, we would like to introduce our activities of “Project ORI wine”. We established vineyards to make a place for social activities especially for local retired people. It would give them fun and challenge to live better and keep them productive and healthy. In this way, we hope we could have happy world not only for young but also for senior people., Mitochondria play a crucial role in health and disease, imposing a growing demand for evaluation of mitochondrial function in inherited and preventable degenerative diseases. These are associated with lack of physical exercise and obesity, causing decline of mitochondrial fitness and early aging. High-resolution respirometry (HRR) is based on the state-of-the-art instrument (Oroboros O2k, Innsbruck, Austria) for mitochondrial and cell respiration.1 The O2k combines real-time respirometry with simultaneous measurement of H2O2 production, mt-membrane potential, ADP-ATP exchange, pH, Ca2+, or nitric oxide. HRR can be applied with a wide spectrum of sample preparations (e.g. isolated mitochondria, tissue homogenate, permeabilized fibers, permeabilized cells, and living cells). Optimized substrate-uncoupler-inhibitor titration (SUIT) protocols offer a powerful tool for comprehensive mitochondrial physiology analysis by HRR.2 Peripheral blood mononuclear cells, platelets and permeabilized fibers are relevant models for diagnostic analysis of oxidative phosphorylation (OXPHOS) in clinical applications (e.g. aging, sarcopenia, obesity). Science and particularly mitochondrial respiratory research face a reproducibility crisis.3 Consequently, Oroboros is strongly committed towards reproducibility by promoting: (1) O2k quality control (i.e. calibrations, instrumental background, DatLab software); (2) proficiency tests with reference samples for inter-laboratory harmonization4,5; and (3) training by scientific experts. Supported by the COST Action MitoEAGLE network, we generate reference values for an Open-Access mitochondrial respirometry database, which requires harmonization of nomenclature.6 With a large O2k-Network, the Oroboros Ecosystem operates in the frame of collaborative Open-Innovation (NextGen-O2k with Q-redox sensor, NAD(P)H autofluorescence and PhotoBiology module) to promote quality and reproducibility in mitochondrial physiology. Support. Contribution to European Union Framework Programme Horizon 2020 COST Action CA15203 MitoEAGLE. Supported by project NextGen-O2k which has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No. 859770., Skeletal muscle plays a significant role in the regulation of whole-body metabolism, and mitochondria are essential organelles for ATP production, thus the studies focused on skeletal muscle mitochondrial activity are necessary to understand the molecular mechanisms controlling the skeletal muscle homeostasis.1 One of the key regulators of mitochondrial metabolism is the second messenger Ca2+. Upon physiological stimuli, skeletal muscle mitochondria rapidly and efficiently accumulate Ca2+ into their matrix via an electrogenic pathway, which relies on the driving force of a steep electrochemical gradient. A large [Ca2+]mt peak occurs dynamically in parallel to agonist-induced [Ca2+]cyt increases, thanks to the activity of the Mitochondrial Calcium Uniporter (MCU), the highly selective channel responsible for mitochondrial Ca2+ accumulation.2 Mitochondrial Ca2+ stimulates aerobic metabolism, tightly regulating three dehydrogenases of the TCA cycle, thus the alteration of mitochondrial Ca2+ homeostasis leads to a dysregulation of metabolism.3 In this talk, we will show an overview of techniques to monitor mitochondrial activity in skeletal muscle, starting with the ex vivo measure of Ca2+ signaling, in terms of cytosolic Ca2+ concentration and mitochondrial Ca2+ uptake, in single isolated fibers thanks to the use of genetically encoded Ca2+ probes.4 Then, to investigate skeletal muscle mitochondrial metabolism we take advantage of genetically encoded indicators for ATP and NADH (Perceval and Peredox probes), and O2 consumption rate measurements.5 Finally, mitophagy, the removal of damaged mitochondria, is a necessary cellular process to maintain healthy muscle homeostasis. Mt-Keima probe is an easy tool to monitor this phenomenon in muscle fibers. Together, all these techniques allow studying many processes that regulate mitochondrial metabolism, a key aspect in the pathophysiology of skeletal muscle., Mitochondria are implicated in atrophy of aging skeletal muscle, yet the link between specific changes in mitochondrial function and aging muscle atrophy has not been established. Amongst many changes occurring with aging, there is a sensitization to mitochondrial permeability transition (MPT) in aged skeletal muscle.1 Building on this observation, we took advantage of heterogeneity in atrophy with aging between hindlimb muscles of the rat, in combination with a muscle cell culture system, to evaluate the hypothesis that MPT is a mechanism of aging muscle atrophy. Our results showed that, exclusive to muscles that atrophy with aging, mitochondria are sensitized to MPT and there is a marked increase in nuclei positive for the mitochondrial-derived protein, apoptosis inducing factor (AIF). Within a given muscle, aged muscle fibers harboring AIF-positive nuclei are severely atrophied relative to normal muscle fibers. In a muscle cell culture system, induction of MPT using doxorubicin is coincident with AIF translocation to myotube nuclei and causes atrophy that can be blocked using inhibitors of MPT (cyclosporin A, bonkrekic acid), inhibiting mitochondrial reactive oxygen species (ROS; using MitoTempo), or knocking down caspase 3 (using shRNA). Together, these results show that: (1) MPT is linked to aging muscle atrophy from the whole muscle to single fiber level; and (2) MPT causes muscle cell atrophy in cell culture in a manner that depends upon both mitochondrial ROS and caspase 3. Our findings thus support the hypothesis that MPT is a mechanism of aging muscle atrophy, FBXL4-related encephalomyopathic mitochondrial DNA depletion syndrome is an autosomal recessive severe, multi-systemic mitochondrial disease with 48 known pathogenic variants. To better understand FBXL4 function and therapies, we characterized novel C. elegans and D. rerio models of FBXL4 disease. This study particularly focuses on analyzing the neuromuscular function of these genetic models using manual and automated assays. We investigated fbxl-1 worms’ neuromuscular function analyzing pharyngeal pump rate, body bends rate and overall motor activity using manual and automated assays. A novel automated video-tracking approach was used to evaluate overall worms’ activity in liquid media. In the latter case, we created a protocol based on the use of the Zebrabox (Viewpoint), automated software created and used for analyzing zebrafish larvae activity and only in this study, applied to worms. Worms’ neuromuscular function was impaired with significantly increased and uncoordinated pharyngeal pumping rate in young adult and decreased rate during aging. Motility was reduced by ~70% compared to N2 control worms. Automated Video-tracking analysis was also used to analyze swim activity in fbxl4sa12470 zebrafish larvae carrying a missense mutation in the FBXL4 allele. Data shows decreased (~50 %) swimming activity in basic condition and after applying stimuli of light on/off cycles. Overall, these data demonstrate that FBXL4 deficiency can be effectively modeled in simple translational animals; new protocols were created for using automated software applications offering robust translational platforms in which therapies can now be modeled to reverse organ-level and behavioral dysfunction directly relevant to the human disease., The neuromuscular junction (NMJ) plays an essential role in enabling the cross-talk between the motoneuron (MN) and skeletal muscle. With progressive age, oxidative damage due to mitochondrial dysfunction, seems to cause a ‘dying-back’ phenomenon, where damage at the axon terminal, causes degeneration of the entire cell.1 The ensuing death of MNs leads to muscle fibre denervation and loss of the entire motor units, a main cause of sarcopenia.2 NMJ degeneration may also arise from changes at the muscle level. In ageing muscle, several phenomena could also cause NMJ damage: mitochondrial dysfunction, increased ROS production, decreased PGC-1alpha expression, known to trigger NMJ changes with ageing.3 Inactivity also promotes muscle fibre denervation as increased neural cell adhesion molecule (N-CAM), marker of denervation/reinnervation, has been found after short periods of bed rest (10-14 days) in young and older men.4,5 In this study, we tested the hypothesis that regular physical activity, such as recreational dancing, would protect against NMJ degeneration while improving functional performance of older individuals. Thirty-one participants aged 60>years (70.4 ± 5.1 years) were recruited for this study after Ethical approval and participants’ informed consent. Among these, 15 (9 female, 6 male) were sedentary (S), while 16 (10 female, 6 male) practiced regular recreational dancing (D) at least 1.5 h/week for a minimum of 1 year. NMJ degeneration was assessed from serum c-terminal agrin fragment (CAF) levels using a commercially available Elisa kit assay. Gait performance was tested with the timed 10m walk test (10WT), dynamic balance (WD) was tested with a stabilometric tablet measuring ankle oscillations, while timed get-up-and go (TUG) was tested as the time taken to get up from a chair, walk 3m and sit back. Muscle size and architecture of the knee extensors were assessed using ultrasonography. Significance was set at p, Stimulation of myogenic cells with vasopressin (AVP), oxytocin (OT), their analogs and antagonists revealed a previously unknown role of the neurohypophyseal hormones (NH) in modulating myogenic differentiation and trophism1 through the activation of complex intracellular signaling, the expression of the MRFs and the stimulation of the hypertrophy pathways2,3. Other studies demonstrated the expression of functional OT receptors (OTR) in human and murine satellite cells (reviewed in2). Extending these studies to in vivo models, we could show a highly stimulated expression of the V1a AVP receptor (V1aR) in post-injury muscle regeneration and assess that the overexpression of V1aR suffices, without exogenous hormone administration, to sustain muscle regeneration2. Furthermore, the administration of AVP rescued the inhibitory effect of TNF in a mouse model of cancer cachexia (reviewed in2). Works conducted in bovine and ovine livestock showed that animals treated with anabolizing steroids displayed dramatically increased OT expression in skeletal muscle, leading to a significant increase of plasma OT level and that the hypertrophying effect of anabolic steroids is mediated by increased OTR signaling (reviewed in 4). Furthermore, in a mouse model of aging, it was shown that reduced circulating OT levels accompany sarcopenia, and that satellite cells obtained from aged mice express reduced levels of OTR5. Efficient regeneration could be restored in aged mice by administering exogenous OT. Taken together, these studies not only confirm that NH target skeletal muscle increasing differentiation and trophism, but also point to muscle as a physiologic source of OT., Non-coding RNAs are emerging as important players in the regulation of several aspects of cellular biology. The expression and therefore the activity of non-coding RNAs is more tissue and cell specific than that of coding RNAs. Therefore, for a better comprehension of their function, it is fundamental to determine their tissue or cell specificity and to identify their subcellular localization. Myofibers are the smallest complete contractile system of skeletal muscle influencing its contraction velocity and metabolism. We compiled a comprehensive catalog of ncRNAs expressed in skeletal muscle, associating the fiber-type specificity and subcellular location to each of them. We demonstrated that many ncRNAs can be involved in the biological processes de-regulated during muscle atrophy. Focusing our attention on a specific long non-coding RNA (Pvt1), activated early during muscle atrophy, we revealed that it impacts on mitochondrial respiration and morphology and affects mito/autophagy, apoptosis and myofiber size in vivo. This work corroborates the importance of long non-coding RNAs in the regulation of metabolism and neuromuscular pathologies and offers a valuable resource to study the metabolism in single cells characterized by pronounced plasticity., One of the consequences of aging is the reduction of the growth hormone/insulin-like growth factor I (GH/IGF-I) axis. For skeletal muscle, this leads to a loss of anabolic and regenerative capacity, which, in part, underlies the onset of sarcopenia. Maintenance of activity in aging can help offset functional deficits, and these benefits are both systemic and specific to skeletal muscle. It is an open question as to the contribution of muscle IGF-I activity to these beneficial adaptations. To address this, we imposed an endurance exercise regimen on a recently developed mouse model with muscle specific inducible deletion of IGF-I (MID mouse), and strain matched controls (CON), comparing their performance to sedentary mice of the same genotypes. After 4 weeks of daily endurance training at 15 m/min for 60 minutes, both MID and CON mice displayed similar and significant improvements in a run-to-exhaustion test. Body composition also displayed a reduction in proportional fat with training. However, in the subsequent 4 weeks of daily endurance training at 18 m/min for 60 minutes, only the CON mice continued to improve in the run-to-exhaustion test, even though there were no differences in the body composition changes in the exercised groups. Over the course of 8 weeks, the sedentary mice progressively gained fat, and by the end of the study, the sedentary MID mice ran for less time in the run-to-exhaustion test compared to sedentary CON mice. Taken together, this suggests that benefits to moderate intensity training can occur in the absence of muscle IGF-I. However, the capacity of muscle to adapt to higher intensity regimens may be limited when actions of local IGF-I signaling are impaired., Skeletal muscle atrophy induced by immobilization is one of the greatest issues in athletes as well in general population. The mechanisms underlying skeletal muscle atrophy, are reasonable known, however, there is no evidence of works that was able to avoid it. A strategy that could preclude the large recovery needed after immobilization would be of great importance. Our group made a research protocol that aims to study the effect of Branched-Chain Amino Acids (BCAA’s) administration to avoid skeletal muscle atrophy. In order to achieve our goals, we use an animal model divided in several groups that includes control, cast-immobilization, exercise animals and animals which have taken BCAA’s. We observed the structure of skeletal muscle, fibre type changes and the satellite cells turnover. To evaluate satellite cells, we used antibodies against Pax-7, Myf-5 and c-met, identification by fluorescence which allows to count the immunoreactive cells and study its evolution and differentiation. As expected, cast immobilization caused atrophy and muscle damage. The satellite cells were activated to regenerate the skeletal muscle, as seen by the increase in Pax-7 and Myf-5 expression with a decrease of c-met, suggesting mobilization of those cells. Visible cell niches in the muscle reinforced these data. The supplement had a partial protective effect when it was taken during immobilization, but it seems to hamper the muscle regeneration, when exercise is performed after immobilization. Thus, our results suggested that BCAA prevent skeletal muscle atrophy by acting over its satellite cells. Partially Supported: FCT, Portugal (Strategic Project UID/NEU/04539/2013), FEDER-COMPETE., According to Bartholomaei Eustachii, Aristotle was the first to describe the complicate interlacement of canaliculi which are in the petrosal bone, identifyng the “coclea”. Aristotle, to explain his idea from an anatomical point of view, compared the inner ear to the strovmboi, i.e. spiral shell (cochlea). Regarding the term labirinto, probably Falloppio was the first to use the term labyrinthus – of egyptian and not greek origin - to describe the inner ear: quum haec cavitas tot habeat meatus et cuniculos, merito labyrinthus dicetur, in quem prospicit fenestra ovalis, clausa a stapede, ecc.». The Anatomic school of Padova gave during the XVI century an enormous contribution to the knowledge of the ear: • Andreas Vesalius 1514-1564 • Andrea Falloppio 1523-1562 • Jeronimus Fabricius ab Acquapendente 1537-1619 • Bartolomeus Eustachi 1514-1574 • Matteo Colombo 1515-1559 • Giovanni Filippo Ingrassia 1510-1580 • Iulius Casserius 1552-1616 One of the major contributions of Vesalius was his suggestion that the organ of hearing should be removed from the skull for investigation. We remember here 3 important contributions: Bartolomeus Eustachi in his work entitled “Epistola de auditus organis” (Eustachi, 1564); Girolamo Fabrici ab Acquapendente De Visione Voce Auditu (1600) and Iulius Casserius De Vocis Auditusque Organis Historia 1601. In 1740, Antonio Valsalva published his anatomical observations on the human auditory system in which he pointed out the importance of the ossicular chain and the oval window for hearing and also observed that the innervation target for the auditory nerve was not the osseous spiral lamina, but was instead the membranous portions of the cochlea and that these areas of sensory epithelium represented, in the opinion of Valsalva, the true receptors of sound. Later, Antonio Scarpa, pupil of Giovanni Battista Morgagni and Marco Antonio Caldani, reported a liquid present within the cochlea's inner membranous compartment, that is, scala media. The Count Alessandro Volta is generally qualified as the first to stimulate the ear with the electricity. Volta, carried out on himself in the late 1790s the first experiment on electrical stimulation of the auditory nerve. Because of the unpleasant sensation experienced by the scientist, any other experiment was carried out over the next half century to study this effect. From the first half of the 18th century onwards, tremendous curiosity about electrical phenomena spread throughout Europe. Machines producing electrostatic electricity were produced, and lectures on electricity attracted members of academia as well as the ruling elite. A field known at the time as “medical electricity” emerged following the electrical researches and the discovery of the effects of electricity on the human body. In 1950, Lundberg performed one of the first recorded attempts to stimulate the auditory nerve with a sinusoidal current during a neurosurgical operation. His patient could only hear noise. In 1957 by Djourno and Eyries provided the first detailed description of the effects of directly stimulating the auditory nerve in deafness. They placed a wire on the auditory nerves that were exposed during an operation for cholesteatoma. When the current was applied to the wire, the patient described generally high-frequency sounds that resembled a “roulette wheel”. The signal generator provided up to 1,000 Hz and the patient gradually developed limited recognition of common words and improved lip-reading capabilities. At this point the clinical application of a cochlear implant started. A cochlear implant is a surgically implanted electronic device that provides a sense of sound to a person who is profoundly deaf or hard of hearing; at now approximately 500,000 people worldwide had received cochlear implants. Padova Audio/Otological group is strongly engaged in the diagnosis and treatment of deafness particularly in childhood and in basic research (Padua Bioacustic lab). Recently an international center was established in Venice: I APPROVE, the International Auditory Processing PROject in Venice, Maximal oxygen consumption (V̇O2max) denotes the reproducible upper limit of oxygen (energy) flux through the respiratory system into skeletal muscle mitochondria that can be reached during intense exercise with a large muscle mass. A high V̇O2max is a key requisite for success in all endurance sports such as cycling, cross-country skiing or running over longer distances. However, V̇O2max has also been strongly and negatively associated with cardiovascular diseases and all-cause mortality. V̇O2max can vary by more than twofold between untrained, sedentary subjects with a heritability value greater than 50%.1 Trainability for an individual's V̇ O2max also varies massively between subjects. Trainability is independent of sedentary V̇O2max with a similarly high heritability as sedentary V̇O2max.2 The high heritability of sedentary V̇O2max and trainability and its importance for athletic performance as well as health has prompted a massive search for its genetic underpinning. Candidate-gene studies, gene-expression studies and genome-wide-association studies (GWAS) have failed to identify a genetic signature of the high V̇ O2max phenotype.3 This may be due to the fact that there are vast multigenetic regulatory networks in skeletal muscle and in other organs that are responsible both for the set-point and the malleability of V̇O2max. Multigenetic phenotypes such as V̇O2max appear to be emergent properties of multiple underlying transcriptomic networks modified by epistasis, the epigenome and the epitranscriptome. It is unclear currently whether an artificial intelligence approach on sufficiently large datasets can make reliable predictions on multigenetic phenotypes such as V̇O2max., In the last decades sparse evidence of the therapeutic potentialities of surface electrical stimulation for the treatment of facial palsy has been published.1,2,3 Our study represents one of the few systematic evaluations of this approach within a homogeneous population suffering from complete unilateral facial paralysis. For this study the stimulation was delivered on the region closest to the upper mouth corner and denervation recovery was monitored for the entire period. Five patients were recruited, undergoing surface electrostimulation for a maximum of 1y, twice a day for 15min (5min pause every 5min stimulation). The parameters set during the first visit were confirmed/adapted every month thereafter. At each visit the patients underwent 3D photos, electromyography, ultrasound,4 magnetic resonance controls,5 and Sunnybrook evaluation, answered to the FaCE and FDI questionnaire. For all the patients effective parameters leading to an utterly Zygomaticus m.-specific stimulation could be found below the discomfort threshold. The required stimulation pulse width decreased with time without requiring a significant amplitude increase to remain effective and specific. Sunnybrook results significantly (p=0.04) improved after 6m stimulation. FaCE (total score) showed a significant (p=0.04) improvement already after 2m, while the social component of the FDI significantly (p=0.04) improved after 7m. Short- (hours) and mid-term (weeks) improvements of muscle tone could also be shown by 3D imaging. Our results showed that surface electrostimulation can be used to deliver a specific response of the Zygomaticus m. without adverse events and without non-specific activation of other facial muscles. Patients were extremely compliant with the treatment protocol and received a significant improvement in their quality of life., Age-related cognitive decline has become a major public health concern. There is currently a paucity of effective interventions to prevent or treat cognitive decline and prevent dementia in the elderly. Decline in working memory is a central facet of the cognitive aging process. Prior research has attempted to use transcranial direct current stimulation (tDCS) to enhance working memory performance in older adults with and without neurodegenerative disease, often in the context of cognitive training paradigms(1, 2). Alone, these methods have shown a degree of promise in remediating age-related working memory decline. In combination, these interventions may prove more effective by pairing two interventions targeting neuroplasticity. However, the neural mechanisms and efficacy of combined cognitive training and tDCS improvements in working memory is not well understood. This talk will discuss data from 3 studies investigating the benefits neural mechanisms of cognitive training paired with tDCS to remediate age-related cognitive decline.1-3 Study 1 was a mechanistic investigation of the impact of tDCS with CT during BOLD fMRI in 14 healthy older adults. Study 2 was a pilot randomized clinical trial of 28 older adults randomized to active tDCS or sham tDCS with cognitive training. Study 3 is an ongoing Phase III RCT investigating the benefits of tDCS with cognitive training in 360 older adults. Neural mechanisms of working memory improvement, efficacy of near transfer from tDCS vs. sham with cognitive training in working memory measures, and future directions of investigation will be discussed., We present preliminary results from the ongoing study entitled “Icelandic AVH TMS” which aim is to study the effectiveness of repetitive transcranial magnetic stimulation (rTMS) treatment for patients with schizophrenia and with persistent auditory verbal hallucinations (AVH) using high-density EEG system (256 channels). The main objectives of this work were to describe P50 and P300 cortical topography pre and post treatment, and to define a robust methodology of signal quantification using high density EEG.1-4 Our results show differences in sensory gating and a stronger response to rare audio stimulus 1 week post treatments. Moreover we show the value of assessing brain electrical activity from high-density EEG (256 channels) analyzing the results in different regions of interest., Reduction in muscle mass and muscle strength together with alterations in the metabolic and cellular machinery of the skeletal muscle are common in type 1 diabetes (T1D)1 Collectively these negative changes have been termed diabetic myopathy.2 Moreover, whole-body fatigue is a frequent complaint in individuals living with T1D but it is unclear if this would depend on muscle alterations per se or on a concomitant impairment in motor units (MU) recruitment capacity. MU recruitment can be now investigated non-invasively using high-density surface electromyography (HD-EMGs) using multi-channels electrodes.3 Sixteen participants, 8 T1D (4M; 33.7 ± 5.2 yrs.; HbA1c 8.1 ± 3.1 %) and 8 healthy (4M; 31.5 ± 5.6 yrs.) volunteered for the study. In one 2-hour visit to the lab participants were tested for maximal isometric strength (MVIC) of knee extensors (KE), sustained KE isometric contractions at 10, 20, 40 and 60 (%MVIC), plus a sustained contraction at 40% MVIC until task failure. During these measures we recorded HD-EMGs from vastus lateralis (VL) muscle with a grid of 64 electrodes. At baseline no differences, between the 2 groups, were observed in MVIC, rate of torque development, and HD-EMGs parameters. In addition, and contrary to our expectations, no differences were observed concerning the fatiguing test either in terms of time to fatigue or of changes in muscle fiber conduction velocity (a marker of MU recruitment). In conclusion, no major differences were detected between the two groups, which could justify the presence of diabetic myopathy (whether neurogenic or myogenic) in our T1D participants., Skeletal muscle is the driver of whole-body aerobic capacity measured by spiroergometry as VO2max/M [mL O2∙min-1∙kg-1]. Obesity is defined as accumulation of excess fat tissue mass, MFE=MF-MF° [kg/x]. MF° is the fat mass [kg] per individual [x] in the healthy reference population at a given height and total body mass M° without overweight.1 Body fat excess, BFE=MFE/M°, is directly related to total body mass excess, BME=ME/M°, where ME=M-M°. In model 1, BFE does not reduce VO2max [mL O2∙min-1∙x-1], but BFE lowers VO2max/M by increasing M. Experimentally, however, VO2max/M declines with BME much steeper than predicted by model 1. The more pronounced loss of ergometric fitness is due to the decline of mitochondrial respiratory capacity per muscle mass, mM,2,3 as a function of BME. Yet this model 2 predicts an even lower VO2max/M at overweight. Finally, model 3 includes the well-known ‘weight-lifting’ effect of obesity on increasing muscle mass with low mitochondrial density, providing a quantitatively complete link between low mitochondrial and whole body aerobic fitness in obesity before onset of sarcopenia. The decline of muscular mitochondrial fitness in overweight states is a biomarker of the systemic mitObesity syndrome: Compromised mitochondrial fitness across metabolically active organs provides the mechanistic link between obesity and comorbidities such as diabetes, cardiovascular and neurodegenerative diseases and various types of cancer bound to redox imbalance, inflammation, oxidative stress and insulin resistance. Today mitObesity is the world-wide leading cause of deaths and early aging, which can be prevented by an active lifestyle and improvement of the quality of life by exercise and caloric balance. Supported by project NextGen-O2k which has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No. 859770. Contribution to COST Action CA15203 MitoEAGLE funded by the Horizon 2020 Framework Programme of the European Union., By combining the digital holography with the tomography, Nanolive technology is an example of emerging intelligent nanoscopy techniques1. The 3D Cell Explorer microscope guarantees a high spatial-temporal resolution imaging of transparent unlabeled specimens, with the advantage over fluorescence techniques of not requiring sample labeling, thus reduce potential damages to living cells2. This intuitive and affordable technology enables scientists to investigate macro cellular dynamics like cell health, proliferation, movement and function as well as micro organelle dynamics and interactions in a e.g. mitochondrial network label-free characterization.3, Intracellular aggregates of RNA binding proteins and perturbed RNA metabolism are typical features of many human neurological and neuromuscular diseases, including oculopharyngeal muscular dystrophy (OPMD), a rare genetic repeat expansion disease (1). In OPMD, a short abnormal polyalanine expansion in PABPN1 (poly(A)-binding protein nuclear 1) leads to the accumulation of intranuclear tubulofilament aggregates in muscles of patients and ultimately to muscle dysfunction. Symptoms usually appear in the fifth decade of life and we have shown a good genotype phenotype correlation (2). The disease is characterized by weakness of the eyelid and pharyngeal muscles, leading to eyelid drooping and dysphagia. A strong collaboration with clinicians gave us access to a large collection of muscle biopsies from OPMD patients. We characterized PABPN1 nuclear aggregates to evaluate if age and genotype influence their features (submitted). In addition, using mammalian models of OPMD, we assessed the efficacy of the anti-aggregates molecule guanabenz (GA). We showed that aging and genotype of OPMD patients influence the amount, the size, the percentage and the composition of nuclear aggregates. Treatment of cellular and mouse models of OPMD with GA allowed a reduction in the percentage and the size of nuclear aggregates as well as an improvement of the mice muscle phenotype. GA acts through the unfolded protein response to endoplasmic reticulum stress (ER) showing for the first time that ER stress is activated in OPMD. (3) This study suggests that the use of pharmacological molecules modulating ER stress is a promising strategy to treat OPMD., Multiple acyl-CoA dehydrogenase deficiency (MADD) is a rare autosomal recessive lipid storage myopathy, often associated with ETFDH gene mutations.1 This gene encodes electron transfer flavoprotein dehydrogenase, a mitochondrial protein involved in the electron-transfer system.2 In this study we investigated the correlation between ETFDH mutations, expression profile of serum muscle‐specific miRNAs (myomiRs)3 and response to treatment in 2 Italian MADD patients. Patient 1 (53 years) presented late onset of MADD, at the age of 38 years. She carried two different ETFDH missense mutations.4 In patient 2 (54 years) the symptoms appeared at 2 years of age and molecular analysis of ETFDH showed a missense and a splice site variation.5 Muscle biopsies of both patients displayed type I fibers vacuolated and muscle atrophy. Moreover, MRI of patient 2 revealed slight alteration of posterior thigh muscles. Bioinformatic analysis demonstrated that the missense mutations can determine conformational modification of protein structure, decreasing enzyme stability and activity. Serum myomiRs analysis displayed an up-regulation of miR-1, miR-133a, miR-133b and miR-206 expression in the two patients. Treatment led to an improvement of clinical condition in both patients, in particular of muscle vacuolization. In this preliminary study the results seem to indicate that the presence of two ETFDH missense mutations correlate not only with a minor severity of MADD phenotype but also with a partial dysregulation of circulating myomiRs, mainly miR-1 and miR-206. In these cases, various treatments can improve ETFDH stability, resulting in skeletal muscle recovery., Store-operated Ca2+ entry (SOCE) is a ubiquitous cellular Ca2+ influx mechanism, first described in non-excitable cells, that is triggered by depletion of intracellular Ca2+ stores (endoplasmic reticulum, ER). A major breakthrough in the field was the identification of the two essential molecular players in SOCE: STIM1, the Ca2+ sensor in the ER, and Orai1, a Ca2+ permeable channel in the plasma membrane.1,2 SOCE is also well-documented in skeletal muscle4 where it limits muscle fatigue during repetitive stimulation.3 Also in muscle SOCE is mediated by interactions between STIM1 in the SR and Orai1 channels in the PM.4 However, the precise subcellular location of STIM1-Orai1 SOCE complexes in skeletal muscle is still debated. We discovered that exercise in mice drives formation of new junctions between stacks of sarcoplasmic reticulum (SR) cisternae and transverse-tubules (TTs) containing STIM1 and Orai1, two proteins that mediate store-operated Ca2+ entry (SOCE). We proposed that these previously unidentified SR-TT junctions function as Ca2+ Entry Units (CEUs), providing a preferential pathway for rapid reuptake of Ca2+ into the SR during repetitive muscle activity.5 Using electron microscopy and two different functional assays we also studied muscles from mice subjected to an incremental treadmill running and sacrificed within 1hr or after 6-24hrs.6 Data collected indicates that: a) while the number of SR-stacks increased up to at least 6hrs to return to control values only after 24hrs of recovery, the extension of TTs (significantly increased at 1 hr), returned to control values already after 6hrs; b) fatigue resistance of EDL muscles during high-frequency stimulation and Mn2+ quench of Fura-2 fluorescence in FDB fibers were both increased after 1hr, but were not different from control after 6 and 24hrs of recovery. Our work represents a pioneer study that identified exercise-driven dynamic formation of new intracellular structures, a mechanism potentially quite important for the delay of muscle fatigue. As altered SOCE activity contributes to muscle dysfunction in ageing and various myopathies, our findings may also have implications for the understanding of mechanisms involved in muscular dysfunction., The HERG potassium channel is detected as a heteromultimer of 2 alternative splice variants (1A and 1B) in heart and has been shown to be partially responsible for repolarization of the cardiac action potential.1 Both alternative splice variants have been reported in certain cancer cells, but their role in these cells is not clear.2 The HERG1A variant has been detected at low abundance in normal skeletal muscle, but is up-regulated in atrophying skeletal muscle, where it has been shown to increase protein degradation by modulation of both intracellular calcium levels and ubiquitin proteasome proteolysis (UPP).3,4,5 The pathways by which this modulation occurs is not clear. Therefore, we virally transduced C2C12 myotubes with either an adenovirus encoding HERG or an appropriate control virus (n=6). After 48 hours, we extracted total RNA from these cells and reverse transcribed them into cDNA, selecting for coding sequences (i.e., mRNA) by using poly(T) oligomers; the cDNA libraries were sequenced on Illumina’s NovaSeq platform. Sequence quality was assessed using FastQC (v 0.11.7; https://www.bioinformatics.babraham.ac.uk/projects/fastqc) for all samples and quality trimming was done using FASTX-Toolkit (v 0.0.14; http://hannonlab.cshl.edu. fastx_toolkit/) to remove bases with Phred33 score of less than 30. Resulting reads of at least 50 bases were mapped against the reference genome using STAR.6 STAR derived mapping results and annotation file for reference genome were used as input for HTSeq7 (v 0.7.0) to obtain read counts. Counts from all replicates were merged together to produce a read count matrix for all samples and this count matrix was used for downstream differential gene expression analysis (DGEA). DGEA between treatment and control was carried out using ‘R’ (v 3.5.1; http://www.r-project.org/). The results show that HERG does result in numerous changes in gene expression. Limiting results to those with a p, MRI is a powerful non-invasive imaging technique that exploits different contrast mechanisms to provide an unprecedented view into both structure and function. We have used velocity encoded phase contrast technique to map muscle motion in-vivo1 and applied to study age and disuse atrophy related changes. A limitation of this dynamic technique is that it requires of the order of 70 consistent contractions cycles in order to image muscle motion. Thus, it is not easy to extend the MR dynamic studies to senior subjects and to higher % Maximum Voluntary Contractions (%MVC). We have implemented a fairly recent innovation called ‘compressed sensing (CS)’ to dynamic MRI for mapping muscle kinematics during isometric contraction. The implementation of this ‘fast’ technique allowed us to study muscle kinematics in 3D and at three %MVCs in the calf muscle. Eight young and eight senior subjects were imaged using the CS-VEPC sequence and the 3x3 strain and strain rate tensors were calculated in the principle axis and in the muscle fiber basis at 35, 45 and 60 %MVC at much reduced number of contractions cycles. Region of interest measurements are reported for the medial gastrocnemius and in the soleus: principle strains and strain rates were significantly different for 30 and 60% MVC (MG and soleus) and shear strain and shear strain rates were significantly different with age. Surprisingly, the strain and strain rates in the fiber basis were much smaller than in the principal basis and no significant differences were found between %MVCs or in age. The implications of these findings with respect to muscle force loss with age will be discussed., Soft tissue contrast afforded by MRI makes it an ideal candidate for imaging the musculoskeletal system. We will discuss our results using a combination of advanced MR pulse sequences to explore age related changes in tissue composition and tissue microstructure. Tissue composition includes estimation of fat (adipose) fraction, connective tissue/macromolecular fraction and water fraction in different muscles and compartments1. A combination of MRI sequences, IDEAL, UTEs and Magnetization transfer2 contrast sequences were applied to cohorts of ten young and ten senior subjects to determine the intramuscular and intermuscular tissue composition in calf muscle. Initial results show that fat and connective tissue fraction increased while macromolecular fraction (MTsat) decreased with age. Tissue microstructure was extracted from diffusion tensor imaging3,4 using a STEAM-DTI sequence and Random Permeable Barrier Modeling (RPBM)5. DTI studies were performed after IRB approval on a GE 3T scanner on seven young and six senior subjects. Time dependent diffusion was measured at ten values of the mixing time, TM (20 ms to 600 ms). The RPBM fits were made to the time dependence of the average of the secondary and tertiary diffusion eigenvalues λ2 and λ3 (Dᅩ ); the values of Dᅩ were the average over the medial gastrocnemius (MG) muscle segmented from all three slices. Muscle fiber diameters from the fit showed a small increase with age which is surprising as fiber atrophies with age. Fiber membrane permeability increased with age potentially indicating compromised sarcolemma integrity. Initial results of validation with biopsy analysis will also be presented., Chronic inactivity is a main cause of muscle wasting and weakness.1 However, muscle atrophy may not be solely due to a reduction in mechanical loading since muscle denervation and neuromuscular junction damage seem also triggered by inactivity.2,3,4 The identification of biomarkers of muscle atrophy and of neuromuscular degeneration is therefore needed for an early detection of the alterations of the neuromuscular system induced by inactivity. Hence, the aim of the present study was to investigate the onset of muscle atrophy and of neuromuscular alterations during a short-term inactivity period. Ten healthy male volunteers (aged 23±5 years) were recruited for this horizontal 10-day bed rest (BR) study, after Ethical approval and participants’ informed consent. Blood samples were collected every two days for the assessment of NMJ damage, based on serum levels of c-terminal agrin fragment (CAF) measured with a commercially available Elisa kit. Muscle fibre denervation was determined from the expression of neural cell adhesive molecule (N-CAM) in myofibres obtained from vastus lateralis (VL) muscle biopsies collected at baseline, and at 5 and 10 days of BR. Myofiber atrophy was determined from mean fibre cross-sectional area (CSA) measurements on histological sections. Whole muscle atrophy was assessed from changes in muscle architecture (pennation angle and muscle thickness) measured every two days of BR using ultrasonography. Significance was set at p, Over the last 25 years imaging techniques have been extensively used to study the in-vivo muscle and tendon morphology at tissue scale. Whereas Dual-energy X-ray absorptiometry (DXA), computed tomography (CT) and MRI have been widely adopted in health, ageing and clinical populations to track changes in body composition and muscle mass, ultrasound (US) can provide further information about the structure, length, thickness and area/volume of muscles and tendons. Despite these characteristics could also be obtained by MRI, US has the advantage that it can provide the same quantity of information, but during passive joint rotations, isometric or dynamic contractions. Recent advancements in musculoskeletal imaging have also led to the use of US also for the investigation of strain in soft tissues in response to compression (Shear Wave Elastography - SWE). However, some limitations of conventional B-mode US lay on: a) the small field of view used (especially during SWE or the study of in-vivo dynamic changes in muscle and tendon structures) and b) the impossibility of US to provide any in-vivo insights into adaptations at the sarcomeric level. Recent developments in the extended field-of-view US (EFOV) and 3D US techniques may offer further advantages in providing information at a whole-tissue level, providing software-integrated panoramic images and 3D volume reconstructions, allowing to gain insights into regional changes along the muscle-tendon unit. Furthermore, in-vivo microendoscopy has been recently implemented in human skeletal muscle, laying the foundation of new investigations into the remodeling of skeletal muscle “from the micro to the macro”. The purpose of this talk is to present and discuss these advances in imaging techniques for the study of human skeletal muscle in-vivo., Real time Ultrasound (US) imaging is being increasingly utilized by Physical and Rehabilitation Medicine (PRM) specialists to assess abdominal muscle in healthy subjects and in patients with low back pain (LBP).1 The current study set out to evaluate the variability and the intra- and inter-rater reliability of US measurements not only of the thickness of the abdominal muscles but also of the fasciae.2 Three specialists with different levels of training in US measurement techniques followed a standard protocol based on four reference anatomic landmarks to perform US examinations of the abdominal muscles and fasciae of a healthy volunteer in resting and dynamic condition. Each of the specialists measured 17 anatomical structures six times during two sessions (three per session). Their intra-rater reliability was assessed by evaluating the range of relative error and the coefficient of variation (CV). The inter-rater reliability was evaluated using the Kruskal-Wallis test at probability levels of 0.05 and 0.01. There were no significant differences between the measurements that the three raters registered (inter-rater reliability) with the exception of those referring to the anterior fascia of the external oblique muscle (p-value < 0.01), the fascia between the external and internal oblique muscles (p-value< 0.05) and the fascia between the internal oblique and the transversus abdominis muscles (p-value < 0.05).3 Knowledge about the fascial anatomy of the abdominal wall is essential to carrying out accurate US examinations. These findings confirm that US imaging is a reliable, non-invasive, cost-effective instrument for evaluating the abdominal muscles/fasciae.3, Spinal cord injury produces muscle wasting, which is especially severe after complete and permanent damage of lower motor neurons as occurs in complete Cauda Equina Syndrome.1 Even in this worst-case scenario, we have shown that permanently denervated Quadriceps muscle can be rescued by surface electrical stimulation, and a purpose-designed home-based rehabilitation regime, i.e., Home based Functional Electrical Stimulation (hbFES) for human muscles that are completely denervated and degenerating.2,3 Here the aim is to show that the effects are extended to the antagonist muscles and skin of the thighs. Before and after two years of electrical stimulation, the mass and structure of Quadriceps and Hamstrings muscles were quantitated by force measurements.1 Muscle gross cross-sections were evaluated using color computed tomography.4 Biopsies of skeletal muscles,1-3 and of stimulated skin,5 were analyzed by quantitative histology and immuno-histochemistry. The treatment produced: 1) an increase in the cross-sectional area of stimulated muscles; 2) an increase in muscle fiber mean diameter; 3) improvements in ultrastructural organization; and 4) increased force output during electrical stimulation.1-4 The recovery of Quadriceps muscle force was sufficient to allow 25% of the compliant subjects to perform stand-up and step-in place trainings.1-3 Improvements were extended to antagonist hamstrings,5 and skin.6 In conclusion, the cushioning effect provided by recovered tissues is a major clinical benefit. The hope is that new trials may start soon in Europe and beyond to provide stronger evidence of the positive effects of h-bFES for permanently denervated muscles. This will help to extend the results world-wide, and to all persons who are in need of the help they deserve., Patient oriented research in rehabilitation revolves around maintaining, improving or restoring muscle function in conjunction with pain treatment. Based on our findings in treating patients with long-term denervated, degenerated muscle (DDM) after spinal cord injury with electrical stimulation, (Kern et al. 2010)1 our activities in the past were aimed at transferring the knowledge to rehabilitation of elderly people (Kern et al. 2014).2 The current work comprises investigating age-related sarcopenia, a multifactorial disorder which underlying mechanisms are still not fully known. It could be shown, that alterations of mitochondrial Ca2+ homeostasis regulated by mitochondrial calcium uniporter (MCU) affect muscle function. Therefore, improved muscle function and structure are linked to increased protein levels of MCU (Zampieri et al. 2016).3 Future translational research will investigate cellular and molecular mechanisms of aging and physical activity, especially the effect of electrical stimulation training and physical therapy on these mechanisms, because only little research on this topic exists and therefore the evidence for efficacy of these therapy approaches is still missing. Focus of the future clinical research program is the in- and outpatient therapy of orthopedic patients, the remobilization and the rehabilitation of patients after knee and hip replacement surgery. For this reason, standardized assessments, analyzes and documentation will be developed and the results are collected across locations in a data base for in- and outpatient rehabilitation. Overall aim of the program is the evaluation of existing and new approaches in musculoskeletal rehabilitation also concerning the economic aspects with constant or improved quality of treatment. In the next years the following topics will be in focus: i) Underlying cellular and molecular mechanisms of Physical Medicine and Rehabilitation procedures; ii) In- and outpatient rehabilitation after knee and hip replacement surgery; iii) Proof of efficacy and cost-effectivity., Physical inactivity is a global pandemic that not only causes morbidity and mortality, but also represents a major economic burden worldwide. As a longer-term goal, we must strive to integrate physical activity into our everyday lives.1 Increased physical activity, among other things, has an influence on chronic pain of the locomotor system, minimizes the risk of cardiovascular disease, increases self-esteem and cognitive abilities, maintains mobility and autonomy, and thus has direct effects on healthy life years and direct and indirect health expenditure. The Centre of Active Ageing (CAA) project, funded by the EU cross border cooperation program INTERREG, is intended to be in line with the Austrian health targets (R-GZ) for Austria,2 the National Health Program of Slovakia,3 the recommendations of the Lancet Physical Activity Series Executive Committee, and of the WHO.5 Encouraging policymakers to take physical activity seriously, to motivate people, and to create the opportunities to do so on a regular basis. Over the entire project period of three years, more than 1000 people aged 60 years and over will benefit from the offers of the CAAs in the program area. Within the scope of the project, they should carry out a standardized training (10-12 weeks) followed by home training for 12 months. In 2019 the first groups started their “SENIOR aktiv” activity program in Austria. It combines education sessions of training theory and nutrition before and after a 10-week physical activity program for two times a week with alternating strength and gymnastics sessions. The first results show improvements in almost all measured parameters and the subjective feedback of the subjects is consistently positive, When resistance training for the improvement of the neuromuscular function is considered, older adults should base training on submaximal loads (85-80% of their one repetition maximum (1RM); tested or estimated from nRM) and advance to speed-power training regimens (50-75% of 1RM executed explosively). Based on the recent research, the latter is an important supplement facilitating physical ability and functional capacity of older individuals. Recent studies have shown that resistance training stressing performance of repetitions with maximal velocity results in higher performance gains as compared to strength training alone.1 It therefore seems reasonable to include speed-power training into physical conditioning of older adults. As a result, we aim to address this topic in the framework of the current Interreg project Slovakia-Austria, by exposing 60+ subjects to 10-week flywheel speed-power training. This training modality offers innovative solutions for individualised training progression (load, tempo, postural stability), which we will share during with the audience during our conference presentation. Additionally, our plan is to get a better insight into the potential of this kind of resistance training for changing force-velocity-power profile in elderly. This would complement our previously used testing approaches we used in past interventional studies in elderly.2 Namely, improving velocity dominance in the force-velocity profile seems to have significant functional relevance (balance control, gait initiation, change of direction; and prevention of falls as a result).3 Preliminary results on initial methodological considerations and protocols (training and testing) development will be presented, Proper muscle function is controlled by intracellular Ca2+ concentration, which in turn depends on: a) release of Ca2+ from intracellular stores during excitation contraction (EC) coupling, which activates muscle contraction; b) entry of Ca2+ from the extracellular space via store-operated Ca2+ entry (SOCE), a mechanism important to limit muscle fatigue; c) uptake of Ca2+ into the mitochondrial matrix, which stimulates aerobic ATP production; and finally d) sequestration/removal by sarcoplasmic reticulum (SR) and plasma membrane (PM) pumps, which relaxes muscle fibers. Abnormalities in Ca2+ handling underlies many physio-pathological conditions. For instance, reduced SR Ca2+ release has been linked to fatigue and dysfunction in ageing, while excess of SR Ca2+ leak may even underlie life-threatening conditions such as malignant hyperthermia susceptibility (MHS). In the last 15 years we have collected compelling evidence that the proper architecture and function of all those membrane systems involved in Ca2+ handling and aerobic ATP production depends on muscle activity: i) denervation causes disarray of units deputed to EC coupling (calcium release units, CRUs) and mitochondrial apparatuses, while functional electrical stimulation (FES) promotes some rescue of this structural disarray;1 ii) sedentary ageing in mice and humans causes misplacement of mitochondria and partial disarray of CRUs, while long-term training does prevent effectively those changes;2-4 iii) acute exercise promotes functional assembly of SOCE-sites (calcium entry units, CRUs), while post-exercise recovery determines their disassemble;5 iv) sedentary ageing causes accumulation of dysfunctional proteins in tubular aggregates (TAs), while exercise prevents TAs formation (manuscript in preparation). Ca2+ handling is crucial for muscle function and is controlled by diverse membrane systems and intracellular organelles. Our experience collected in different, but complementary, projects: i) indicates the structure and function of intracellular organelles is preserved or rescued by exercise or training; and ii) underlines the importance of physical exercise during ageing to preserve muscle function., The dominant role in muscle regeneration is played by the muscle stem cells known as satellite cells, which reside between the basal lamina and sarcolemma of myofibers. Along with satellite cells, other precursor cells, whose activity is strictly dependent by environmental signals, participate to muscle regeneration.1,2 A tightly regulated interplay between stem cells and other resident cell types, as well as the intimate connection with structural components of the tissue niche, can be responsible for the maintenance of the stem cell pool under steady-state conditions and to guide stem cells activation and differentiation when regenerative signals are provided.1 Because niche factors and components normally control and sustain a physiological stem cell activity and maintenance, the loss of homeostatic input from the niche, as observed under pathological conditions, can deregulate stem cell physiology, critically affecting the ability of muscle tissue to efficiently regenerate and to regain the functional integrity after damage.1-3). Thus, the stem cell niche is not only an anatomical compartment but a complex, integrated network of both cellular and acellular components that provide signals influencing stem cells and muscle homeostasis. The basis of muscle regeneration and the impact of cytokines and growth factors on the physiopathology of skeletal muscle will be discussed.1,4-6, Neuromuscular diseases, ageing, and cancer cachexia are chronic conditions characterized by skeletal muscle wasting (1, 2) resulting from altered muscle metabolism, and catabolic processes. Following muscle pathophysiological changes, proteins are secreted or passively released into systemic circulation. The identification of muscle-derived serum biomarkers can be used to develop a kind of “liquid biopsy” for diagnostic/prognostic approaches and to identify altered muscle physiology. With this aim, we performed combined morphological and biochemical analyses of skeletal muscle biopsies and blood samples obtained from cancer patients, both collected the day of surgery. Samples from non-oncologic patients were also collected as controls. Morphometrical analyses showed a significant reduction of myofiber size in oncologic patients in comparison to controls, and the analyses of myofiber diameter distribution showed a higher prevalence of severely atrophic fibers in oncologic patients, most of them having angulated and flat shaped morphology, typical features of denervation (3). The percentage of in situ Neural cell adhesion molecule (N-CAM) expressing myofibers and serum levels of N-CAM (sN-CAM) and Agrin were also tested, as markers of neuromuscular junction plasticity and remodelling (4, 5). Consistently with morphological observations, in cancer patients with respect to controls, the percentage of N-CAM positive myofibers was significantly higher and circulating levels of sN-CAM and Agrin were also significantly increased. These results correlate morphological changes of skeletal muscle trophism and innervation with serum alterations in NMJ-derived proteins. Moreover, they show that sN-CAM and Agrin are promising and reliable serological biomarkers for neuromuscular junction plasticity and remodeling in conditions characterized by skeletal muscle wasting, Functional electrical stimulation (FES) is used to induce skeletal muscle contractions in persons who are unable or reluctant to move usually by surface neuromuscular electrical stimulation (NMES), also known as transcutaneous electrical nerve stimulation (TENS) in out-patients or hospital. If properly instructed, persons may continue at home with FES-induced training with a daily frequency and for the long duration of time needed to achieve clinically-relevant outcomes. Standing on the results of the EU Project RISE,1 and on those in aging persons,2,3 we are confident that FES may contribute to a better life for an expanding population of aged persons and of early aged patients suffering with mobility impairments due to neuromuscular and metabolic disorders as well as systemic diseases. We will describe in detail results of FES for denervated degenerated muscles (DDM) delivered by large anatomically shaped surface electrodes at the level of the stimulated skin. Indeed h-bFES for DDM is able to recover skin from SCI-induced atrophy and flattening.4,5 Further, we will discuss the value of surface morphometry of neck skin, and of non-invasive blood analyses of circulating myokines (using sweat and mouth fluids6,7 as biological markers of aging progression., Male hypogonadism is a clinical syndrome manifesting with low testosterone (TT) including symptoms like decline in lean mass, muscle strength, increased adiposity, visceral obesity and incidence of insulin resistance and metabolic syndrome. 1 There are only few studies dealing with effect of physical activity on hypogonadal males.2 The aim of the study was to examine the effect of 12-week strength training program on body composition, selected biochemical parameters and physical performance in hypogonadal men. The study compared the effect of resistance training (RT) on hypogonadal patients without hormonal therapy (HP, n=6, 48.41±6.38 yrs, TT= 7.9±1.75 nmol/L) and control group of eugonadal males (EM, n=8, 49.31±5.84 yrs, TT= 15.81±3.99 nmol/L). The subjects performed RT twice a week, the training program consisted of 6 exercises at an intensity from 60-80% of 1RM. Body composition was measured by DXA, muscle strength was measured by predicted dynamic leg press 1RM from multiple repetition maximum, handgrip strength using hand dynamometer. Fasting morning venous blood samples were collected. The parameters analyzed from serum were glucose, total cholesterol, LDL cholesterol, HDL cholesterol, SHBG, insulin, total testosterone, and cortisol. Subjects from both the HP and EM groups significantly decreased relative fat mass by 6.2 % and 4.91% (p>0.05 and p, Central Core Disease (CCD) is a congenital myopathy characterized by presence of amorphous central areas (or cores) lacking glycolytic/oxidative enzymes and mitochondria in skeletal muscle fibers.1 Most CCD families are linked to mutations in ryanodine receptor type-1 (RYR1), the gene encoding for the sarcoplasmic reticulum (SR) Ca2+ release channel of skeletal muscle.2 As no treatments are available for CCD, currently management of patients is essentially based on a physiotherapic approaches. Functional electrical stimulation (FES) is a technique used to deliver low energy electrical impulses to artificially stimulate selected skeletal muscle groups.3-5 Here we tested the efficacy of FES in counteracting muscle loss and improve function in the lower extremities of a 55-year-old female patient which was diagnosed with CCD at the age of 44. Genetic screening of the RyR1 gene identified a missense mutation (c.7354C>T) in exon 46 resulting in an amino acid substitution (p.R2452W) and a duplication (c.12853_12864dup12) in exon 91. The patient was treated with FES for 26 months and subjected before, during, and after training to a series of functional and structural assessments: measurement of maximum isometric force of leg extensor muscles, magnetic resonance imaging, a complete set of functional tests to assess mobility in activities of daily living, and analysis of muscle biopsies by histology electron microscopy. All results point to an improvement of muscle structure and function induced by FES suggesting that this approach could be considered as an additional supportive measure to maintain/improve muscle function and reduce muscle loss in CCD patients., Over the last decade, transcutaneous auricular nerve stimulation (tANS) become established method of VNS and has been verified in various disorders including neurological and psychological trauma, addiction of drugs, inflammation and tinnitus. Several groups examined also effects of tANS on central and peripheral nervous system, effects on behaviour in neuropsychiatric populations and effects on subjets with disorder of cognitive and social functioning. tANS of particular areas at the cymba conchae (CC) require electrodes with high spatial selectivity, low impedance and safe reversible charge delivery to specific populations of receptors through the electrode-tissue interface. Cortisol is a naturally occurring steroid hormone that has many important functions in the body and is released into the bloodstream at times of stress. Cortisol is blamed for anxiety, high blood pressure and stroke. It helps to control blood sugar levels, regulate metabolism, help reduce inflammation and assist with memory formulation. All treatments to correct eventual cortisol imbalance involve medication. The present study was aimed at demonstrating that selective tANS can be potentially used as a method for the induction of Cortisol hormone secretion. tANS was accomplished in a 62-year-old subject with angina pectoris, coronary artery disease, and moderate insomnia. Sites at the CC were selectively stimulated using a silicone plug with four platinum cathodes. For the tANS, current regulated stimulating pulses with an intensity of ic=20 mA, a pulse width of 200 μs, and a frequency of f=25, were used. Results show that in six out of eight samples of the mouth fluids, the cortisol level was significantly lower after tANS that before tANS., The environment is critical when, in order of intrinsic morphological or geographical characteristics, or extrinsic features (caused by human presence or human behavior), it induces strenuous changes (independent of emergency accidents) in the physiological conditions of people who require emergency aid.1 Moreover, in an extrinsic critical environment the possibility to have a not homogenous population to be rescued is greater, consequently we can act only on the variable physical capacities and competence of emergency team, to have more success. This is the purpose of this work that has a background of more than 1200 physical evaluations over 10 years, on Italian Alpine Soldiers.2 Every subject had three evaluations of fitness profile during the year (time 0, after three months of programmed training and after six months). Evaluation and training methods are studied in order to be applied to a large number of subjects. The fitness profile includes: anthropometric assessment, aerobic fitness, muscle endurance, heart rate, diastolic and systolic pressure, respiratory rate, hydration, postural assessment by assessing the spine with spinal mouse system.3 The obtained results have shown that the physical preparation carried out, has improved and made homogeneous the physical capabilities of both the team and individual subjects that make it up. In addition to making the members of the emergency team more conscious, the increase in the level of coordinated physical preparation has objectively improved the safety (for team members) and effectiveness of intervention in the various crisis situations., In daily life situations, if we are exposed to unusual, challenging situations, our body reacts in a special way, called acute stress. This mechanism helps to cope with these situations efficiently. Contrary, exposing the body to stress over a longer time period, called chronic stress, like in working environments, can cause various serious health problems.1 The assessment of electrodermal activity (EDA, skin conductance) might be an easy approach to evaluate individual stress conditions over a longer period of time in an objective way. With the help of cvxEDA,2 the monitored skin conductance,3 can be split into the slow skin conductance level (SCL) and the fast skin conductance response (SCR). 20 volunteers were exposed to a relaxing-challenging-relaxing situation to mimic different stress conditions. The SCR rate proofed to be a reliable measure to evaluate sympathetic arousal. During the relaxation phases, the SCR rate was around 6 min-1and during mathematical challenges, and it raised to 9 min-1(p, The nonlinear trimodal regression analysis (NTRA) method,1,2 based on radiodensitometric computed tomography (CT) distributions,3,4 is here used for building predictive models of cardiovascular health parameters, through tree-based Machine Learning (ML) algorithms. This study reports the use of NTRA parameters for classifying elderly subjects from the AGES-Reykjavik database;5 with coronary heart disease (CHD), cardiovascular disease (CVD), and chronic heart failure (CHF). ML models employing the random forests algorithm yielded the highest classification performance for all analyses, and overall classification scores for all three conditions were excellent: CHD (AUCROC: 0.936); CVD (AUCROC: 0.914); CHF (AUCROC: 0.994). The present work introduces a substantial step forward in the construction of non-invasive, standardized tools for associating adipose, loose connective, and lean tissue changes with cardiovascular health outcomes in elderly individuals., Postural Control is the complex feedback system that allows humans to keep balance and maintain the naturally unstable upright stance. This is the result of an articulate interplay between sensorimotor systems (vision, proprioception, somatosensory, etc.) and the Central Nervous System (CNS)1,2. Lesions to the CNS, pathologies like unilateral vestibular loss (UVL) and disorders like Motion Sickness disrupt the postural feedback system, severely impairing balance. In these adverse postural circumstance, prompt adaptive and habituating processes are activated in the CNS to ensure upright posture and gait. By integrating the traditional dynamic posturography with HD-EEG analysis on a cohort of thirtythree healthy subjects3, we investigate cortical involvement in the phases of adaptation and habituation to a postural control challenge, where the balance disruption is induced through a randomized sequence of vibratory stimuli applied to the gastrocnemius muscles of the participant’s calves Keywords: Balance, cerebral cortex, HD-EEG, kinematics, postural control, power spectral density., During skeletal muscle contraction Ca2+ release units (CRUs), the sites of excitation-contraction coupling (EC) provide Ca2+,1 while mitochondria, the organelles deputed to cellular respiration, produce ATP.2 In fast-twitch fibers from adult mice CRUs and mitochondria are structurally linked by small strands or tethers,3 and interact functionally, as the uptake of Ca2+ into the mitochondrial matrix stimulates the respiratory chain.4 Aging causes separation of mitochondria from CRUs and a cross-talk impairment between the two organelles.5 However, whether this age-related uncoupling is the result of aging per-se or the consequence of reduced muscle activity remains still unclear. Here we tested if muscle activity maintains the correct association of mitochondria to CRUs in a) extensor digitorum longus (EDL) muscles from 2 year old mice, either sedentary or trained for 1 year in wheel cages; and b) EDL muscles from denervated adult mice and rats. We analyzed muscle samples using a combination of structural, biochemical, and functional experimental procedures. The results collected in structural studies indicate that: a) ageing and denervation result in partial uncoupling between CRUs and mitochondria; b) exercise and re-innervation either maintains (in old mice) or restores (in transiently denervated rats) the association between the two organelles. Functional studies support the hypothesis that CRU-mitochondria cross-talk is important for mitochondrial Ca2+ uptake, optimal force generation, and muscle performance. Taken together, our results show that muscle activity maintain/improve proper Association between CRUs and mitochondria, providing a potential tool to counteract muscle function decline in elderly and sedentary persons., Wartenberg introduced the pendulum test in the 1950s as a method to assess spasticity in the clinical setting.1 It has proven to be sensitive to the presence and severity of spasticity.2,3 The pendulum test is based on letting the lower leg swing freely under the influence of gravity while recording joint kinematics. In the presented work, the reflex period, extracted from the pendulum test, will be proposed as a new parameter to measure spasticity. The reflex period is defined as the time period from 50% of the maximum velocity of the leg to the first EMG signal indicating muscle contraction. Data from two separate studies, one on spinal cord injury patients (Halla Kristín Guðfinnsdóttir)4 and the other on stroke patients (Belinda Chenery)5 were analyzed. In both studies a pendulum test with goniometers on the knee joint was performed and simultaneously recording electromyography (EMG) of the quadricpes m. Both studies consisted of 3 trials and data from 4 subjects of each study were analyzed. The EMG data was processed with Matlab R2014b (The MathWorks, Inc.) using the open-source toolbox EEGLab. A 4th order Butterworth high-pass filter with cutoff frequency at 10 Hz and a low-pass filter at 500 Hz was applied along with notch filters at 50 Hz, 100 Hz, 150 Hz and so forth. The data was smoothed with a Gaussian filter prior to the analysis. The mean reflex period of SCI patients was 370 ms with a standard deviation of 72 ms. The mean reflex period of stroke patients was 215 ms with a standard deviation of 54 ms. This suggests a difference between the reflex period of stroke and SCI patients which might be explained by the location of their lesion., The demonstrated expression of endocannabinoids receptors in myofascial tissue suggested the role of fascia as source and modulator of pain.1 It is known that the fibroblasts can modulate the production of the various components of the extracellular matrix according to different stimuli: physical, mechanical, hormonal and pharmacological.2 In this work we isolated the fascial fibroblasts from small samples of human fascia lata of the thigh collected from 3 volunteers patients during orthopedic surgery, 2 males and 1 female. We demonstrated for the first time that the agonist of cannabinoid receptor 2, HU-308, permits the in vitro production of hyaluronan-rich vesicles in only 3-4 hours after the treatment, quickly released in the extracellular environment. The cells treated with the synthetic cannabinoid showed a large number of vesicles near the Golgi apparatus of the cells, and also in the cytoplasmic extensions. We demonstrated by Alcian Blue and Toluidin Blue stainings, immunocytochemistry and Transmission Electron Microscopy that the content of these vesicles was rich in hyaluronan. The hyaluronan is a critical element for the extracellular matrix composition and remodeling,3 and in the deep fascia, it affects the movement of hyaluronan-containing fluid layers within and underlying the deep fascia, facilitating the smooth gliding between these structures during movement.4 So its production induced by the cannabinoids can be able to increase the ability of the collagen bundles inside the fasciae to glide one respect to the other, and consequently to improve the tissue adaptability. Furthermore, the stimulation of the endocannabinoid system could be able to provide an anti-fibrotic activity by suppression of pro-inflammatory cytokines and a relief of the myofascial pain.5 These results can help to understand how the cells of fascia can answer to the endocannabinoid system regulating and remodeling the extracellular matrix formation. This is a first step in the comprehension of how the therapeutic applications of cannabinoids for the treatment of pain can have also a peripheral effect, altering the biosynthesis of extracellular matrix in fasciae and consequently remodeling the tissue and its properties., Muscles generate active forces in each half-sarcomere, the smallest contractile Unit, through the coordinated action of myosin motors, assembled in the thick filament, with actin monomers, assembled in the thin filament. Filaments are then arranged in parallel, forming a main axis in the half-sarcomere along which active forces are directed. However, in the musculoskeletal system these active forces must follow non-linear paths from tendon to tendon. This task is achieved thanks to the ability to transmit active forces between half-sarcomeres, along fibre direction (longitudinal axis) through intra-sarcomeric proteins, and between different fibres, in perpendicular directions, through extra-sarcomeric proteins, generally referred as extra-cellular matrix (ECM).1 This ability is affected by age.2 In this work, we analyzed the passive tension generated in elongated fibres alone and when they are arranged in small bundles young and aged healthy humans.3,4 The mechanical properties of the extracellular passive components in a bundle of fibres were deduced by the subtraction of the passive tension observed in single fibres from the passive tension observed in the bundle itself. ECM-related components of passive force are non-negligible in both cases and of the same order of magnitude of intra-sarcomeric components. However, in young humans the increase in passive tension observed in bundles respect to fibres is smaller than in aged humans. Based on our data, we propose to quantitatively characterize the constitutive parameters of a Hill-type three-elements model incorporated in a finite element (FE) mesh representing a fiber bundle. The characterization can be used in future FE models of whole human muscles., Neutral lipid storage disease with myopathy (NLSDM) is a rare autosomal recessive disorder, associated with mutations of patatin like phospholipase domain containing 2 (PNPLA2) gene.1 PNPLA2 encodes adipose triglyceride lipase, that plays a key role in triacylglycerol breakdown1. NLSDM patients mostly present progressive skeletal myopathy, with both proximal and distal involvement.2 Cardiomyopathy, hepatomegaly and diabetes are often observed. NLSDM clinical severity appears to be highly variable and it is difficult to establish the effects of different PNPLA2 mutations on disease phenotype. Recently, alteration in the expression profile of specific microRNAs involved in skeletal muscle development (myomiRs) and lipid metabolism have been observed in neuromuscular disorders.3,4. In this study, we perform the evaluation by qRT-PCR of some circulating microRNAs levels in serum samples obtained from three NLSDM siblings (two brothers and one sister), carrying two PNPLA2 missense mutations.5 Progressive skeletal myopathy was detected in the two brothers and muscle imaging showed fibro-fatty replacement. The sister presented severe hepatosteatosis and diabetes. The analysis of serum microRNAs revealed that NLSDM patients exhibited an increased amount of myomiRs. In particular, a significant correlation between muscle mass and the level of miR-206 and miR-133a was found. Moreover, an elevation of some microRNAs, mainly expressed in liver, was observed, when there was a hepatic involvement. These results show that the changes of serum muscle and lipid metabolism-specific microRNAs might represent biomarkers of skeletal and hepatic involvement. Moreover, the dysregulation of these small molecules might provide a tool to monitor the progression of NLSDM., Spinal muscular atrophy (SMA) is a common autosomal recessive disorder caused by mutations in the gene for the survival motor neuron 1 (SMN 1), and it leads to progressive muscle weakness. A major goal of disease-modifying therapies is to increase the expression of the SMN protein. Although a number of therapies are under evaluation as potential treatments for SMA, there is a critical lack of a biomarker method for assessing the efficacy of therapeutic interventions, particularly those targeting the upregulation of the SMN protein levels. Sensitive methods for quantifying SMN protein in peripheral blood are needed. Accordingly, we developed an imaging flow cytometry (IFC) method for evaluation of SMN protein using peripheral blood and fibroblasts. First, we demonstrated that IFC successfully identified different expression patterns and subcellular localization patterns of SMN protein in SMA patient-derived fibroblasts1. Second, we tested the sensitivity and utility of IFC in identifying the differences in the expression of SMN protein between SMA patients and normal subjects using cultured Epstein–Barr virus-transformed B cells2. Subsequently, we developed an IFC method for evaluating the functional SMN protein using < 1.5 mL of peripheral blood. IFC is advantageous for the analysis of peripheral blood because of its capacity to analyze heterogeneous cell populations3. IFC analysis can be implemented in future studies to optimize its application as a tool for assessment of the effectiveness of spinal muscular atrophy treatment., Prolonged oxidative stress may play a key role in tumor development. Antioxidants molecules are contained in many foods and seem to have a potential role in future anti-tumor strategies. Among the natural antioxidants the beneficial effect of Fermented Papaya (FPP®) is known. The aim of this study was to investigate the effects of orally administered FPP® in either prevention or treatment of a murine model of melanoma. The tumor growth was analyzed together with the blood levels of both oxidants (ROS) and anti-oxidants (SOD-1 and GSH). The results showed that FPP® controlled tumor growth, reducing the tumor mass of about 3 to 7 times vs untreated mice. The most significant effect was obtained with sublingual administration of FPP® close to the inoculation of melanoma. At the time of the sacrifice none of mice treated with FPP® had metastases and the subcutaneous tumors were significantly smaller and amelanotic, compared to untreated mice. Moreover, the FPP® anti-tumor effect was consistent with the decrease of total ROS levels and the increase in the blood levels of GSH and SOD-1. This study shows that a potent anti-oxidant treatment through FPP® may contribute to both preventing and inhibiting tumors growth. The results of the above study suggested that FPP® while showing a clear anti-tumor effect it occurred though the in vivo induction of a potent anti-oxidant reaction. In a new set of experiments we wanted to verify whether FPP had a clear and scientifically solid in vivo anti-aging effect together with the induction of the anti-oxidant reaction. To this purpose we used a mouse model suitable for aging studies (C576J) treating daily each mouse from 4 weeks of life to 10 months with the same dose of IMMUNEAGE dissolved into the daily water as compared to mice receiving only tap water. At the end of the treatment period (10 months) we measured some biological parameters related to the aging processes of the cells: i) the total anti-oxydant capacity in the plasma of mice treated or untreated with FPP®; ii) the telomerase activity in the plasma of mice treated or untreated with FPP®; iii) the telomeres length in the bone marrow and ovaries of mice treated or untreated with FPP® .The results showed that the blood of treated mice, at the end of the treatment period (10 months) had 2-3 folds more anti-oxidant power and telomerase activities than the untreated mice. In the same mice we obtained both the bone marrow (from the tibias) and the ovaries at the scarify, and from the cellular preparations we measured the telomere lengths in both. The results showed that daily FPP® assumption induced 3 folds increase in telomeres length in bone marrow and ovary of treated mice as compared to the untreated mice. This suggests that FPP® induces a clear improvement of the aging scientific parameters and that the treated mice were younger than the untreated controls., The muscle spindle (MS) plays an important role in proprioception and coordination,1 which is surrounded by a strong capsule of connective tissue.2 A gelatinous fluid rich in glycosaminoglycans fills the space of capsule, probably mainly hyaluronan (HA).3 Age-related proprioceptive and coordinative deficits are unclear, although some hypothesises have been proposed to explain those mechanisms both on the peripheral and CNS changes. Age-related changes of MS were compared in unmature (1month, M); young adults (4M); and old (27 M) C57BL/6J male mice. Hematoxylin Eosin (HE), Sirius-red,4 Van Gieson staining were used to evaluate age-related MS morphology changes The collagen type I antibody, biotin labeled HA binding protein immunostainings,5 were used to monitor age-related changes in collagen type I and HA of MS. The Purple-Jelley HA assay was used to measure age-related changes HA contents. MS is surrounded by the capsule in continuity with the perimysium and epimysium and HA filled the capsule. The capsule of the MS, perimysium, epimysium underwent thicking with aging, primarily consisting of collagen type I. Van Gieson showed that the presence of elastin in the capsule. The amount of HA in Triceps Surae is 27.74g/g in 4M. The presence of the collagen fiber, elastin and HA in the capsule of MS and its continuous with fascia suggested that they may effect the MS function. If their proportion changed, they will influence the function of MS, which properly explain part of the peripheral Neuro-physiological mechanisms of Age-related proprioceptive and coordinative deficits., Muscle structure,1 and performance2 differ between female and males when compared across the same age groups. Masters athletes compete in age groups of five-year divisions, ranging from 35 to more than 100 years of age. Here, our aim is to investigate the gender differences in the rate of age-related decay using the complete series of female and male normalized Masters’ World records. The World record series are lists of up to 16 data points that can be interpolated with polynomial trend-lines with a very high R2, after normalization to allow comparisons of the values among the different sports events.3 Here, gender comparisons were performed for 19 Track and Field specialties using weighted regression analyses. As expected, the aging decline began at 35 years for both women and men. Despite higher values of the male athletes in all the 19 Track and Field Masters world records,4 the rates of aging performance decay were very similar, if not identical.5 This lack of difference is a unique exception to the general rule of gender differences in sports activities, suggesting that neuro-hormonal mechanisms poorly influence the rate of aging muscle power decay. We discuss implications and limitations of our hypothesis that, at least in humans, the rates of age-induced decline are related to fundamental cellular mechanisms, perhaps those that control energy metabolism., The exponential increase of scientific publications in the mitochondrial field shows the growing interest in mitochondria. However, the lack of methodological consistency in many published projects on mitochondrial respiratory function complicates a quantitative inter/intra-laboratory comparison of datasets. This deficiency manifests the need to improve the quality in science.1 In this context, the MitoEAGLE COST Action is a powerful framework committed to evaluate and enhance the reproducibility in mitochondrial physiology as a basis to establish a novel mitochondrial database related to Evolution, Age, Gender, Lifestyle and Environment. Permeabilized muscle fibers are widely used to evaluate mitochondrial function in health and disease.2 Therefore, our main goals are to: 1) compare protocols used in different research laboratories, 2) analyze factors which contribute to experimental variability, 3) define optimal experimental conditions in muscle studies, 4) elaborate guidelines for evaluating mitochondrial function in muscle tissue, 5) establish reference values on mitochondrial respiration, particularly as a test of the skills in preparing high-quality permeabilized muscle fibers, and 6) generate a database. To achieve our aims, two unique studies are currently in progress: 1) 17 international research groups performing independently experiments on respiration in permeabilized fibers of mouse soleus muscle, following the same experimental procedure;3 2) a blinded international study measuring simultaneously in the same laboratory respiration of permeabilized human skeletal fibers by high-resolution respirometry and assessing the effect of different experimental conditions.4 Our results contribute to face the reproducibility crisis and provide the basis for establishing the first database on mitochondrial respiratory parameters in muscle tissues. Support. MitoEAGLE Task Group WG2. Contribution to European Union Framework Programme Horizon 2020 COST Action CA15203 MitoEAGLE., In the search for systemic changes of biomarkers1 in physical activity, within aging and rehabilitation studies, a major goal is to identify methods less invasive than blood sampling. Thus, the clinical use of mouth fluids is increasing.2 The consensus is that the presence of blood in mouth fluid compromises its diagnostic value. However, we have been looking at its’ contamination as a major opportunity for non-invasive serological analyses of systemic biomarkers. A major preliminary result has been obtained by evaluating the presence of serum in mouth fluids of healthy seniors and the eventual change after a modest trauma, i.e., tooth brushing. Seven healthy persons, aged older than 65, provided the fluids for the analyses by drooling saliva into a test tube. After low speed centrifugation, small aliquots of supernatants were frozen in liquid nitrogen and stored at -80°C until use. Aliquots were thawed and used to quantify by the total protein content using the Lowry method. Serum albumin, fibrinogen and lysozyme were determined by colorimetric ELISA (enzyme-linked immunosorbent assay), and hemoglobin content was quantified by use of spectrophotometry. After a preliminary test using colorimetric ELISA, saliva dilutions were adjusted to better determine the content of analytes. The control reference was a pool of sera from age-matched healthy seniors, to judge the quantity of serum in the fluid obtained from mouths of the elderly. Saliva collected from the seven healthy elderly persons before and after tooth-and-gum brushing presented measurable amount of the analytes, including fibrinogen, which is a minor component of the pooled sera. Tooth brushing did not induce a statistically significant difference in analytes’ contents, suggesting that a measurable blood contamination is a frequent event in elderly persons. In conclusion, fibrinogen is a promising reference to quantify serological biomarkers through a non-invasive procedure. Its determination will increase acceptability and frequency of analyses during follow-up in aging and rehabilitation., Older and oldest persons, i.e., early and late octogenarians, spend small amounts of time performing daily physical activity, which can aggravate their limited independence. This may force them to stay in bed, and/or to incur more frequent hospitalizations. All progressive muscle contractile impairments, including those related to advancing age, need permanent management.1,2 Inspired by the proven capability to recover skeletal muscle by home-based functional electrical stimulation (hbFES) and guided by common sense, we suggest to these elderly persons to perform a 10 to 20 min daily routine of 12 easy and safe physical exercises, that will train almost all the main skeletal muscles of the body. Elderly persons can do many of these exercises in bed (full-body in-bed gym), so that if hospitalized they may continue light training. The routine is an extension of the well-established cardiovascular and ventilatory rehabilitation trainings, usually performed under a guidance and supervision of a physiotherapist.5 If properly instructed in an outpatient clinic or during hospitalization, elderly persons may continue these exercises at home, and eventually integrate into their permanent lifestyle.3,4 Monitored arterial blood pressure before and after the daily routine described demonstrates that peripheral resistance decreases in a few minutes by functional hyperemia of the trained body muscles. The exercise intensity ought to be slightly challenging, up to the manifestation of visible sweating. In the long term, this will add systemic resistance to fatiguing arising from strength training against the own weight of an arm, leg and other body parts.2 Continued regularly, home-based full-body in-bed gym can help to maintain independence of the most frail elderly persons (old and oldest), reducing risks of accidental falls, and thus of serious clinical consequences., Scientific literature suggests that fitness characteristics in patients with Multiple Sclerosis (MS) may be compromised. Because nanotechnological devices have shown improvements in different healthcare application,1,2 the purpose of this study was to investigate the use of a nanotechnological device integrated with a postural exercise program (PEP) on cervical range of motion and handgrip strength in patients affected by MS. Seventeen participants with MS were recruited and randomly assigned to the Experimental Group (EG) and the Control Group (CG) including 9 and 8 subjects respectively. All participants carried out a cervical range of motion evaluation using an inertial motion sensor (Moover®;Sensor Medica®) and a handgrip test using an isometric mechanical dynamometer (KernMap model 80K1;Kern®) before and after a PEP (twenty-session/1 hour each, twice/week). A nanotechnological device (Taopatch®;Tao Technologies srls) was applied to the skin of the participants of the EG at the level of the C7 vertebra throughout the period of the PEP. No differences (p>0.05) were found in the EG on the cervical range of motion, while the CG showed a significantly increase on left rotation (p=0.01). Regards the handgrip test, a significantly improvement was found on the non-dominant hand in the CG (p=0.001) and on the non-dominant hand (p=0.04) and on the dominant hand (p=0.01) in the EG. Our preliminary results suggest that the use of a nanotechnological device could influence muscle strength. The results of this pilot study suggest that we should continue testing larger sample of subjects, diversifying also type and stage of the disease. The authors thank the patients and the Italian Association for Multiple Sclerosis (AISM) of Trapani, Italy for collaboration., Athletes have to pay particular attention on the eating patterns and to dietary intake in the hours before exercise, because pre-exercise nutritional strategies can influence not only exercise performance but also other biological responses to exercise and training including bone remodeling. In fact, inadequate nutrition leads to bone injuries. Twenty-eight preadolescent female gymnasts, playing artistic gymnastics at a pre-competitive level, were examined to investigate the effects of two different pre-exercise meals on athletic performance and bone resorption post exercise. Exercise trial were preceded ninety minutes by an isocaloric meal with carbohydrates or proteins. Urine was sampled at four different time points: pre-meal, ninety minutes post-meal/pre-exercise, ninety and hundred and fifty minutes post-exercise. In urine was analyzed the biomarker of bone resorption CTX by using an established enzyme-linked immunosorbent assay technique. Energy Self-Perception Questionnaire (ESPQ) was used to evaluate energy status of the athletes after the performance. Pre-workout supplementation with a carbohydrate-rich meal reduced significantly post-exercise bone resorption, compared with the protein-rich meal as evidenced by the reduction in CTX levels sixty minutes after the end of physical activity. Moreover, the consumption of both pre-workout meal improves performance indifferently. In conclusion the study shows that a carbohydrate rich pre-exercise meal is able to reduce bone resorption after exercise in pre pubertal age gymnasts and improve the athletic performance., The Main objective of the study was to evaluate the effects of treatment with Cannabis-based drugs combined or not with a proprioceptive training, on patients affected by Multiple Sclerosis (MS), a chronic autoimmune demyelinating disease which can have different symptoms; we estimated the possible synergic interaction between therapy and exercise particularly to reduce the collateral adverse effects of the drugs, over all the spasticity, one of the effect of the disease. We enrolled in our study 10 patients randomly assigned in two groups; both was treated with a cannabinoids drug (group 2) but only one group performed a physical activity for 12 weeks two times per week in session of 60 minutes each (group 1). Blood assessment (serum levels of BDNF, proBDNF, interleukine10 and interleukine17) was performed and the results highlighted a changes. As to concern BDNF levels were 111 vs 33 group 1 compare with 82 vs 22 in group 1; whilst proBDNF levels were 190 vs 153 group 1 compare with 121 vs 138 in group 1. About IL’s, we highlighted this results: IL10 (anti-inflammatory) 61,84 vs 75,52 in group 1 compare with 50,64 vs 54,65 in group 2; IL 17 (pro-inflammatory) 31,12 vs 16,87 in group 1 compare with 24,53 vs 9,68 in group 2. The interpretation of the results is still in progress but the changes has occurred; further investigations are needed improving the sample size and the time of the intervention.

Published
2020

40. Physical Fitness and Cardiovascular Risk Factors in Novel Diabetes Subgroups.

Author

Saatmann, Nina, Zaharia, Oana-Patricia, Strassburger, Klaus, Pesta, Dominik Hans, Burkart, Volker, Szendroedi, Julia, Gerdes, Norbert, Kelm, Malte, and Roden, Michael

Abstract

Context: Physical inactivity promotes insulin resistance and increases the risk of diabetes and cardiovascular disease. Recently introduced clustering based on simple clinical measures identified diabetes subgroups (clusters) with different risks of diabetes-related comorbidities and complications. Objective: This study aims to determine differences in physical fitness and cardiovascular risk between diabetes subgroups and a glucose-tolerant control group (CON). We hypothesized that the severe insulin-resistant diabetes (SIRD) subgroup would be associated with lower physical fitness and increased cardiovascular risk. Methods: The physical fitness and cardiovascular risk of 746 participants with recentonset diabetes (diabetes duration of < 12 months, aged 18-69 years) and 74 CONs of the German Diabetes Study (GDS), a prospective longitudinal cohort study, were analyzed. Main outcome measures included physical fitness (VO2max from spiroerogometry), endothelial function (flow- and nitroglycerin-mediated dilation), and cardiovascular risk scores (Framingham Risk Scores for Coronary Heart Disease [FRS-CHD] and Atherosclerotic CardioVascular Disease [ASCVD] risk score). Results: VO2max was lower in SIRD than in CON, severe autoimmune diabetes (SAID) (both P < .001), and mild age-related diabetes (MARD) (P < .01) subgroups, but not different compared to severe insulin-deficient diabetes (SIDD) (P = .98) and moderate obesity-related diabetes (MOD) subgroups (P = .07) after adjustment for age, sex, and body mass index. Endothelial function was similar among all groups, whereas SAID had lower FRS-CHD and ASCVD than SIRD, MOD, and MARD (all P < .001). Conclusion: Despite comparable endothelial function across all groups, SIRD showed the lowest physical fitness. Of note, SAID had the lowest cardiovascular risk within the first year after diabetes diagnosis compared to the other diabetes subgroups. [ABSTRACT FROM AUTHOR]

Published
2022
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41. Impaired Hepatic Mitochondrial Capacity in Nonalcoholic Steatohepatitis Associated With Type 2 Diabetes.

Author

Gancheva, Sofiya, Kahl, Sabine, Pesta, Dominik, Mastrototaro, Lucia, Dewidar, Bedair, Strassburger, Klaus, Sabah, Ehsan, Esposito, Irene, Weiß, Jürgen, Sarabhai, Theresia, Wolkersdorfer, Martin, Fleming, Thomas, Nawroth, Peter, Zimmermann, Marcel, Reichert, Andreas S., Schlensak, Matthias, and Roden, Michael

Subjects
OBESITY complications, RESEARCH, LIVER, RESEARCH methodology, NON-alcoholic fatty liver disease, CIRRHOSIS of the liver, EVALUATION research, TYPE 2 diabetes, MITOCHONDRIA, COMPARATIVE studies, HYDROGEN peroxide, DISEASE complications
Abstract

Objective: Individuals with type 2 diabetes are at higher risk of progression of nonalcoholic fatty liver (steatosis) to steatohepatitis (NASH), fibrosis, and cirrhosis. The hepatic metabolism of obese individuals adapts by upregulation of mitochondrial capacity, which may be lost during the progression of steatosis. However, the role of type 2 diabetes with regard to hepatic mitochondrial function in NASH remains unclear.Research Design and Methods: We therefore examined obese individuals with histologically proven NASH without (OBE) (n = 30; BMI 52 ± 9 kg/m2) or with type 2 diabetes (T2D) (n = 15; 51 ± 7 kg/m2) as well as healthy individuals without liver disease (CON) (n = 14; 25 ± 2 kg/m2). Insulin sensitivity was measured by hyperinsulinemic-euglycemic clamps with d-[6,6-2H2]glucose. Liver biopsies were used for assessing mitochondrial capacity by high-resolution respirometry and protein expression.Results: T2D and OBE had comparable hepatic fat content, lobular inflammation, and fibrosis. Oxidative capacity in liver tissue normalized for citrate synthase activity was 59% greater in OBE than in CON, whereas T2D presented with 33% lower complex II-linked oxidative capacity than OBE and higher H2O2 production than CON. Interestingly, those with NASH and hepatic fibrosis score ≥1 had lower oxidative capacity and antioxidant defense than those without fibrosis.Conclusions: Loss of hepatic mitochondrial adaptation characterizes NASH and type 2 diabetes or hepatic fibrosis and may thereby favor accelerated disease progression. [ABSTRACT FROM AUTHOR]

Published
2022
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43. Macronutrient composition and metabolic regulation: Do our islets care what we eat?

Author

Pesta, Dominik and Jordan, Jens

Subjects
*HYPERGLYCEMIA, *METABOLIC regulation, *ISLANDS, *GLUCAGON-like peptide-1 receptor
Abstract

Insulin and glucagon are the main hormones regulating glucose homeostasis. Yet, over many years there has been an imbalance in the research on type 2 diabetes mellitus between insulin and glucagon favoring insulin. However, high insulin levels attained during insulin treatment can also promote further weight gain.2 Thus, insulin can have positive as well as negative metabolic actions in a person with type 2 diabetes considering that excess adiposity is a crucial underlying cause of the condition. [Extracted from the article]

Published
2022
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44. NDUFB6 Polymorphism Is Associated With Physical Activity-Mediated Metabolic Changes in Type 2 Diabetes.

Author

Pesta, Dominik, Jelenik, Tomas, Zaharia, Oana-Patricia, Bobrov, Pavel, Görgens, Sven, Bódis, Kálmán, Karusheva, Yanislava, Krako Jakovljevic, Nina, Lalic, Nebojsa M., Markgraf, Daniel F., Burkart, Volker, Müssig, Karsten, Knebel, Birgit, Kotzka, Jörg, Eckel, Jürgen, Strassburger, Klaus, Szendroedi, Julia, and Roden, Michael

Subjects
TYPE 2 diabetes, TYPE 1 diabetes, INSULIN sensitivity, BODY composition, INSULIN resistance
Abstract

The rs540467 SNP in the NDUFB6 gene, encoding a mitochondrial complex I subunit, has been shown to modulate adaptations to exercise training. Interaction effects with diabetes mellitus remain unclear. We assessed associations of habitual physical activity (PA) levels with metabolic variables and examined a possible modifying effect of the rs540467 SNP. Volunteers with type 2 (n=242), type 1 diabetes (n=250) or normal glucose tolerance (control; n=139) were studied at diagnosis and subgroups with type 1 (n=96) and type 2 diabetes (n=95) after 5 years. Insulin sensitivity was measured by hyperinsulinemic-euglycemic clamps, oxygen uptake at the ventilator threshold (VO2AT) by spiroergometry and PA by questionnaires. Translational studies investigated insulin signaling and mitochondrial function in Ndufb6 siRNA-treated C2C12 myotubes, with electronic pulse stimulation (EPS) to simulate exercising. PA levels were 10 and 6%, VO2AT was 31% and 8% lower in type 2 and type 1 diabetes compared to control. Within 5 years, 36% of people with type 2 diabetes did not improve their insulin sensitivity despite increasing PA levels. The NDUFB6 rs540467 SNP modifies PA-mediated changes in insulin sensitivity, body composition and liver fat estimates in type 2 diabetes. Silencing Ndufb6 in myotubes reduced mitochondrial respiration and prevented rescue from palmitate-induced insulin resistance after EPS. A substantial proportion of humans with type 2 diabetes fails to respond to rising PA with increasing insulin sensitivity. This may at least partly relate to a polymorphism of the NDUFB6 gene, which may contribute to modulating mitochondrial function. Clinical Trial Registration: ClinicalTrials.gov, identifier NCT01055093. The trial was retrospectively registered on 25th of January 2010. [ABSTRACT FROM AUTHOR]

Published
2021
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45. Reduced Muscle Strength Is Associated With Insulin Resistance in Type 2 Diabetes Patients With Osteoarthritis.

Author

Zaharia, Oana Patricia, Pesta, Dominik Hans, Bobrov, Pavel, Kupriyanova, Yuliya, Herder, Christian, Karusheva, Yanislava, Bódis, Kálmán, Bönhof, Gidon Josia, Knitza, Johannes, Simon, David, Kleyer, Arnd, Jong-Hee Hwang, Müssig, Karsten, Ziegler, Dan, Burkart, Volker, Schett, Georg, Roden, Michael, Szendroedi, Julia, and Hwang, Jong-Hee

Subjects
TYPE 2 diabetes, MUSCLE strength, PEOPLE with diabetes, INSULIN resistance, OSTEOARTHRITIS
Abstract

Context: Type 2 diabetes is associated with a greater risk for musculoskeletal disorders, yet its impact on joint function remains unclear.Objective: We hypothesized that patients with type 2 diabetes and osteoarthritis would exhibit musculoskeletal impairment, which would associate with insulin resistance and distinct microRNA profiles.Methods: Participants of the German Diabetes Study with type 2 diabetes (T2D, n = 39) or normal glucose tolerance (CON, n = 27), both with (+OA) or without osteoarthritis (-OA) underwent intravenous glucose tolerance and hyperinsulinemic-euglycemic clamp tests. Musculoskeletal function was assessed by isometric knee extension strength (KES), grip strength, range of motion (ROM), and balance skills, while neural function was measured by nerve conductance velocity (NCV). Arthritis-related symptoms were quantified using the Western Ontario and McMaster Universities Osteoarthritis Index (WOMAC) questionnaire, serum arthritis-related microRNA using quantitative polymerase chain reaction.Results: Insulin sensitivity was lower in T2D+OA vs T2D-OA (4.4 ± 2.0 vs 5.7 ± 3.0 mg* kg-1*min-1) and in CON+OA vs CON-OA (8.1 ± 2.0 vs 12.0 ± 2.6 mg*kg-1,*min-1, both P < .05). In T2D+OA, KES and ROM were 60% and 22% lower than in CON+OA, respectively (both P < .05). Insulin sensitivity correlated positively with KES (r = 0.41, P < .05) among T2D, and negatively with symptom severity in CON and T2D (r = -0.60 and r = -0.46, respectively, P < .05). CON+OA and T2D+OA had inferior balance skills than CON-OA, whereas NCV was comparable in T2D+OA and T2D-OA. Expression of arthritis-related microRNAs was upregulated in T2D compared to CON, but downregulated in CON+OA compared to CON-OA (P < .05), and did not differ between T2D+OA and T2D-OA.Conclusion: Musculoskeletal impairment and osteoarthritis-related symptoms are associated with insulin resistance. Type 2 diabetes can mask changes in arthritis-related microRNA profiles. [ABSTRACT FROM AUTHOR]

Published
2021
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46. Effects of Ultramarathon Running on Mitochondrial Function of Platelets and Oxidative Stress Parameters: A Pilot Study.

Author

Hoppel, Florian, Calabria, Elisa, Pesta, Dominik H., Kantner-Rumplmair, Wilhelm, Gnaiger, Erich, and Burtscher, Martin

Subjects
ULTRAMARATHON running, OXIDATIVE stress, MITOCHONDRIA, BLOOD urea nitrogen, BLOOD platelets
Abstract

Only a few studies have evaluated changes in mitochondrial function and oxidative stress associated with ultramarathon running. Invasive biopsies are needed to assess mitochondrial function of skeletal muscle, which may not be well tolerated by some individuals. Platelets (PLTs) as a metabolically highly active and homogenous cell population were suggested as a potentially valuable surrogate to investigate mitochondrial function. Thus, this study was aimed to evaluate mitochondrial function of PLTs and its association with individual race performance and markers of oxidative stress, muscle damage and renal dysfunction. Race performance and mitochondrial function (high-resolution respirometry, HRR) of PLTs using different substrates inducing ROUTINE, LEAK, N-pathway control state (Complex I linked oxidative phosphorylation; CI, OXPHOS), NS-pathway control state (CI + II linked OXPHOS and electron transfer pathway; ET), S-pathway control state (CII linked ET) as well as parameters of oxidative stress and antioxidant capacity, and markers of muscle and renal injury were assessed in eight male ultramarathon runners (26–45 years) before, immediately after and 24 h after an ultramarathon race (PRE, POST, and REC). Ultramarathon running induced an increase in LEAK O2 flux of PLT mitochondria and slight, largely non-significant changes in the oxidant/antioxidant balance. Levels of creatine kinase (CK), lactate dehydrogenase (LDH), blood urea nitrogen, and creatinine were all significantly elevated POST and remained high in REC. There were inverse correlations between race time and N-linked substrate state PRE-POST, and changes in CK and LDH levels were significantly related to PLT mitochondrial LEAK and N-linked respiration PRE. Although race-related changes in respirometry parameters of PLT mitochondria were rather small, a somewhat more pronounced increase in the relative N-linked respiration in faster runners might suggest PLT CI as indicator of physical fitness. The higher PLT LEAK PRE and diminished increase of CK during the race may represent a prophylactic preconditioning and the slight but non-significant elevation of the antioxidant potential post-race as a protective consequence of the race-related oxidative stress and potential threat to the kidney. Our findings point toward an interrelationship between mitochondrial function of PLTs, individual fitness levels and extreme physical and metal stresses, which stimulates further research. [ABSTRACT FROM AUTHOR]

Published
2021
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47. Mitochondrial respirometry reference values from permeabilized mouse soleus muscle fibers

Author

Garcia-Roves, Pablo, Chabi, Béatrice, Cortade, Fabienne, Doerrier, Carolina, Dubouchaud, Herve, Gama-Perez, Pau, Irving, Benjamin, Ost, Mario, Pesta, Dominik, Institut d'Investigació Biomèdica de Bellvitge [Barcelone] (IDIBELL), Dynamique Musculaire et Métabolisme (DMEM), Institut National de la Recherche Agronomique (INRA)-Université de Montpellier (UM), Oroboros Instruments, Institut National de la Santé et de la Recherche Médicale (INSERM), Université Grenoble Alpes (UGA), University of Barcelona (Department of Physiological Sciences II), University of Sheffield [Sheffield], German Institute of Human Nutrition Potsdam-Rehbrücke (DIfE), and Heinrich Heine Universität Düsseldorf = Heinrich Heine University [Düsseldorf]

Subjects
[SDV]Life Sciences [q-bio], ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2017

48. Resistance training to improve type 2 diabetes: working toward a prescription for the future

Author

Pesta, Dominik H., Goncalves, Renata L. S., Madiraju, Anila K., Strasser, Barbara, and Sparks, Lauren M.

Subjects
Nutrition and Dietetics, Endocrinology, Diabetes and Metabolism, Type 2 diabetes, Mitochondrial function, Resistance training, Skeletal muscle, Medicine (miscellaneous)
Abstract

The prevalence of type 2 diabetes (T2D) is rapidly increasing, and effective strategies to manage and prevent this disease are urgently needed. Resistance training (RT) promotes health benefits through increased skeletal muscle mass and qualitative adaptations, such as enhanced glucose transport and mitochondrial oxidative capacity. In particular, mitochondrial adaptations triggered by RT provide evidence for this type of exercise as a feasible lifestyle recommendation to combat T2D, a disease typically characterized by altered muscle mitochondrial function. Recently, the synergistic and antagonistic effects of combined training and Metformin use have come into question and warrant more in-depth prospective investigations. In the future, clinical intervention studies should elucidate the mechanisms driving RT-mitigated mitochondrial adaptations in muscle and their link to improvements in glycemic control, cholesterol metabolism and other cardiovascular disease risk factors in individuals with T2D.

Published
2017

49. Loss of mitochondrial adaptation associates with deterioration of mitochondrial turnover and structure in metabolic dysfunction-associated steatotic liver disease.

Author

Sarabhai, Theresia, Kahl, Sabine, Gancheva, Sofiya, Mastrototaro, Lucia, Dewidar, Bedair, Pesta, Dominik, Ratter-Rieck, Jacqueline M., Bobrov, Pavel, Jeruschke, Kay, Esposito, Irene, Schlensak, Matthias, and Roden, Michael

Subjects
OXYGEN consumption, LIVER diseases, MITOCHONDRIA, RESPIRATION, FATTY liver, TYPE 2 diabetes, TRANSMISSION electron microscopy
Abstract

Obesity and type 2 diabetes frequently have metabolic dysfunction-associated steatotic liver disease (MASLD) including steatohepatitis (MASH). In obesity, the liver may adapt its oxidative capacity, but the role of mitochondrial turnover in MASLD remains uncertain. This cross-sectional study compared individuals with class III obesity (n = 8/group) without (control, OBE CON; NAFLD activity score: 0.4 ± 0.1) or with steatosis (OBE MASL, 2.3 ± 0.4), or MASH (OBE MASH, 5.3 ± 0.3, p < 0.05 vs. other groups). Hepatic mitochondrial ultrastructure was assessed by transmission electron microscopy, mitochondrial respiration by high-resolution respirometry, biomarkers of mitochondrial quality control and endoplasmic reticulum (ER) stress by Western Blot. Mitochondrial oxidative capacity was 31 % higher in OBE MASL, but 25 % lower in OBE MASH (p < 0.05 vs. OBE CON). OBE MASH showed ~1.5fold lower mitochondrial number, but ~1.2–1.5fold higher diameter and area (p < 0.001 vs. other groups). Biomarkers of autophagy (p62), mitophagy (PINK1, PARKIN), fission (DRP-1, FIS1) and fusion (MFN1/2, OPA1) were reduced in OBE MASH (p < 0.05 vs. OBE CON). OBE MASL showed lower p62, p-PARKIN/PARKIN, and p-DRP-1 (p < 0.05 vs. OBE CON). OBE MASL and MASH showed higher ER stress markers (PERK, ATF4, p-eIF2α-S51/eIF2α; p < 0.05 vs. OBE CON). Mitochondrial diameter associated inversely with fusion/fission biomarkers and with oxidative capacity, but positively with H 2 O 2. Humans with hepatic steatosis already exhibit impaired mitochondrial turnover, despite upregulated oxidative capacity, and evidence for ER stress. In MASH, oxidative stress likely mediates progressive decline of mitochondrial turnover, ultrastructure and respiration indicating that mitochondrial quality control is key for energy metabolism and may have potential for targeting MASH. ClinGovTrial: NCT01477957 • In progression of steatosis to steatohepatitis, mitochondrial turnover is impaired first. • In simple steatosis, first morphological abnormalities occur at ER with higher ER stress. • Steatohepatitis related megamitochondria are associated with impaired mitophagy. • In steatohepatitis, megamitochondria present in presence of higher oxidative emission. • In steatohepatitis, morphologic mitochondrial abnormalities are independent of respiratory function. [ABSTRACT FROM AUTHOR]

Published
2024
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50. Physiological and Pathophysiological Responses to Ultramarathon Running in Non-elite Runners.

Author

Hoppel, Florian, Calabria, Elisa, Pesta, Dominik, Kantner-Rumplmair, Wilhelm, Gnaiger, Erich, and Burtscher, Martin

Subjects
ULTRAMARATHON running, ATHLETES, BLOOD urea nitrogen, ACUTE kidney failure, LEUCOCYTES, CREATINE kinase
Abstract

Ultramarathon running represents a major physical challenge even for elite athletes. Runners wellbeing may be challenged by fluid and electrolyte disturbances, hemolysis and skeletal muscle damage, decline in hepatic function and kidney injury. We hypothesized that these effects may even be exacerbated in non-elite runners. Physiological, hematological and biochemical parameters of ten males (26–45 years, weekly training time 8.5 h), participating in a mountain ultramarathon (67 km; approximately 4,500 m of total ascent), were determined before (PRE), immediately after finishing the ultramarathon (POST), and 24 h after the individual finish (REC). Race times of the 8 finishers (2 drop-outs due to hot ambient temperature) varied between 10.4 and 16.1 h, which almost represents the range of the entire starter field (8.82 h–17.47 h). The following changes in mean values of selected markers for skeletal muscle damage and kidney injury were observed from PRE to POST: creatine kinase (CK) + 1289%, lactate dehydrogenase (LDH) + 87%, serum creatinine (CR) + 72%, blood urea nitrogen (BUN) + 96%, and estimated glomerular filtration rate (eGFR) – 45%. Values of CK + 1447%, LDH + 56%, and BUN + 71% remained elevated at REC. White blood cells were increased (+ 137%) only POST. In conclusion, CK and LDH levels and leucocytosis may be considered to be relatively harmless "side-effects" of prolonged running in this group of male subjects with rather moderate ultramarathon experience and training status. However, acute kidney injury may become clinically relevant in this population under the certain conditions, which should be considered by responsible race managers and medical advisors. [ABSTRACT FROM AUTHOR]

Published
2019
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