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6. Superiority of High-Load vs. Low-Load Resistance Training in Military Cadets.

Author

Øfsteng, Sjur F., Hammarström, Daniel, Knox, Silje, Jøsok, Øyvind, Helkala, Kirsi, Koll, Lise, Hanestadhaugen, Marita, Raastad, Truls, Ronnestad, Bent R., and Ellefsen, Stian

Subjects
EXERCISE physiology, PHOTON absorptiometry, TASK performance, STATISTICAL sampling, ISOMETRIC exercise, RANDOMIZED controlled trials, DESCRIPTIVE statistics, RESISTANCE training, IMMUNOHISTOCHEMISTRY, DATA analysis software, CONFIDENCE intervals, MILITARY education
Abstract

Muscle strength and power are important determinants of soldiers' performance in modern warfare. Here, we compare the efficacy of 22 weeks of whole-body resistance training with high load (HL, 10 repetitions maximum/RM) and low load (LL, 30RM) for developing maximal muscle strength and power, performance, and muscle mass in moderately trained cadets (20 ± 1 year, f; n = 5, m; n = 22). Outcome measures were assessed at baseline and at week 22, in addition to a mid-intervention assessment at week 10. Twenty-two weeks of HL led to greater increases in muscle strength (upper limb, Δ 10%, 95% CI [2.8, 17.1], p = 0.01; lower limb, Δ 9.9%, CI [1.1,18.6], p = 0.029), jump height (Δ 5.5%, CI [1.4,9.6], p = 0.011), and upper limb lean mass (Δ 5.2%, CI [1,9.4], p = 0.018) compared with LL. HL and LL led to similar changes in agility, muscle endurance performance, lower limb muscle mass, and cross-sectional area in m. vastus lateralis. For all variables, training-associated changes occurred primarily during the initial 10 weeks of the intervention, including the differential responses to HL and LL. In conclusion, although 22 weeks of HL led to greater increases in lower and upper limb muscle strength, power, and upper limb lean mass than LL, the 2 load conditions led to similar improvements in agility performance and lower limb muscle mass. Our results thus indicate that both loading regimes elicit multifaceted physiological improvements important for military readiness. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Increasing Oxygen Uptake in Cross-Country Skiers by Speed Variation in Work Intervals.

Author

Rønnestad, Bent R., Bakken, Timo Andre, Thyli, Vetle, Hansen, Joar, Ellefsen, Stian, and Hammarstrøm, Daniel

Subjects
ENDURANCE sports training, OXYGEN consumption, EXERCISE physiology, COMPARATIVE studies, CROSS-country skiing, EXERCISE intensity, DESCRIPTIVE statistics, LACTATES, HEART beat, ATHLETIC ability, HIGH-intensity interval training
Abstract

Purpose: Accumulated time at a high percentage of peak oxygen consumption (VO2peak) is important for improving performance in endurance athletes. The present study compared the acute physiological and perceived effects of performing high-intensity intervals with roller ski double poling containing work intervals with (1) fast start followed by decreasing speed (DEC), (2) systematic variation in exercise intensity (VAR), and (3) constant speed (CON). Methods: Ten well-trained cross-country skiers (double-poling VO2peak 69.6 [3.5] mL·min−1·kg−1) performed speed- and duration-matched DEC, VAR, and CON on 3 separate days in a randomized order (5 × 5-min work intervals and 3-min recovery). Results: DEC and VAR led to longer time ≥90% VO2peak (P =.016 and P =.033, respectively) and higher mean %VO2peak (P =.036, and P =.009) compared with CON, with no differences between DEC and VAR (P =.930 and P =.759, respectively). VAR, DEC, and CON led to similar time ≥90% of peak heart rate (HRpeak), mean HR, mean breathing frequency, mean ventilation, and mean blood lactate concentration ([La]). Furthermore, no differences between sessions were observed for perceptual responses, such as mean rate of perceived exertion, session rate of perceived exertion or pain score (all Ps >.147). Conclusions: In well-trained XC skiers, DEC and VAR led to longer time ≥90% of VO2peak compared with CON, without excessive perceptual effort, indicating that these intervals can be a good alternative for accumulating more time at a high percentage of VO2peak and at the same time mimicking the pronounced variation in exercise intensities experienced during XC-skiing competitions. [ABSTRACT FROM AUTHOR]

Published
2022
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15. The Kynurenine Pathway in Healthy Subjects and Subjects with Obesity, Depression and Chronic Obstructive Pulmonary Disease.

Author

Farup, Per G., Hamarsland, Håvard, Mølmen, Knut Sindre, Ellefsen, Stian, and Hestad, Knut

Subjects
CHRONIC obstructive pulmonary disease, KYNURENINE, QUINOLINIC acid
Abstract

Background: Changes in tryptophan metabolism through the kynurenine pathway (KP) are observed in several disorders and coupled with pathophysiological deviations. Methods: This study retrospectively compared the KP in serum in healthy subjects (108) with subjects with obesity (141), depression (49), and chronic obstructive pulmonary disease (COPD) (22) participating in four clinical studies and explored predictors of the changes in the KP metabolites. Results: Compared with the healthy group, the KP was upregulated in the disease groups with high kynurenine, quinolinic acid (QA), kynurenine/tryptophan-ratio and QA/xanthurenic acid-ratio and low kynurenic acid/QA-ratio. Tryptophan and xanthurenic acid were upregulated in the depressed group compared with the groups with obesity and COPD. The covariates BMI, smoking, diabetes, and C-reactive protein explained the significant differences between the healthy group and the group with obesity but not between the healthy group and the groups with depression and COPD, indicating that different pathophysiological conditions result in the same changes in the KP. Conclusions: The KP was significantly upregulated in the disease groups compared with the healthy group, and there were significant differences between the disease groups. Different pathophysiological abnormalities seemed to result in the same deviations in the KP. [ABSTRACT FROM AUTHOR]

Published
2023
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18. Energy metabolism in skeletal muscle cells from donors with different body mass index.

Author

Katare, Parmeshwar B., Dalmao-Fernandez, Andrea, Mengeste, Abel M., Hamarsland, Håvard, Ellefsen, Stian, Bakke, Hege G., Kase, Eili Tranheim, Thoresen, G. Hege, and Rustan, Arild C.

Subjects
ENERGY metabolism, BODY mass index, SKELETAL muscle, MUSCLE cells, MUSCLE metabolism
Abstract

Obesity and physical inactivity have a profound impact on skeletal muscle metabolism. In the present work, we have investigated differences in protein expression and energy metabolism in primary human skeletal muscle cells established from lean donors (BMI<25 kg/m2) and individuals with obesity (BMI>30 kg/m2). Furthermore, we have studied the effect of fatty acid pretreatment on energy metabolism in myotubes from these donor groups. Alterations in protein expression were investigated using proteomic analysis, and energy metabolism was studied using radiolabeled substrates. Gene Ontology enrichment analysis showed that glycolytic, apoptotic, and hypoxia pathways were upregulated, whereas the pentose phosphate pathway was downregulated in myotubes from donors with obesity compared to myotubes from lean donors. Moreover, fatty acid, glucose, and amino acid uptake were increased in myotubes from individuals with obesity. However, fatty acid oxidation was reduced, glucose oxidation was increased in myotubes from subjects with obesity compared to cells from lean. Pretreatment of myotubes with palmitic acid (PA) or eicosapentaenoic acid (EPA) for 24 h increased glucose oxidation and oleic acid uptake. EPA pretreatment increased the glucose and fatty acid uptake and reduced leucine fractional oxidation in myotubes from donors with obesity. In conclusion, these results suggest that myotubes from individuals with obesity showed increased fatty acid, glucose, and amino acid uptake compared to cells from lean donors. Furthermore, myotubes from individuals with obesity had reduced fatty acid oxidative capacity, increased glucose oxidation, and a higher glycolytic reserve capacity compared to cells from lean donors. Fatty acid pretreatment enhances glucose metabolism, and EPA reduces oleic acid and leucine fractional oxidation in myotubes from donor with obesity, suggesting increased metabolic flexibility after EPA treatment. [ABSTRACT FROM AUTHOR]

Published
2022
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20. Expression of heat shock proteins in anoxic crucian carp (Carassius carassius): support for cold as a preparatory cue for anoxia

Author

Stenslokken, Kare-Olav, Ellefsen, Stian, Larsen, Helene Kile, Vaage, Jarle, and Nilsson, Goran E.

Subjects
Carp -- Physiological aspects, Carp -- Research, Heat shock proteins -- Research, Heat shock proteins -- Physiological aspects, Heat shock proteins -- Genetic aspects, Hypoxia -- Physiological aspects, Hypoxia -- Research, Biological sciences
Abstract

The crucian carp (Carassius carassius) tolerates anoxia for days to months depending on temperature. During episodes of stress, heat shock proteins (HSPs) are important for limiting cellular damage, mainly by ensuring protein function. Accordingly, we hypothesized that anoxia would change the expression of HSPs and that this response would be temperature dependent. Real-time RT-PCR was used to investigate the effects of 1 and 7 days anoxia (A1 and A7) on the expression of HSP70a, HSP70b, HSC70, HSP90, and HSP30 in the brain and heart of 8[degrees]C- and 13[degrees]C-acclimated crucian carp. In general, the expression of all HSPs changed in response to anoxia, although varying in size and direction, and with organ and temperature. HSP70a expression increased drastically (~10-fold) in A7 brains and hearts at 13[degrees]C but not at 8[degrees]C. HSC70 and HSP90 expression decreased in A7 brains (by 60-70%), but not in A7 hearts. HSC70 expression increased in A1 brains and hearts at both temperatures (by 60-160%), and HSP30 expression decreased in A7 brains and hearts at both temperatures (by 50-80%). Notably, normoxic fish showed 7- and l l-fold higher HSP70a expression in the brain and heart at 8[degrees]C compared with 13[degrees]C. This difference disappeared during anoxia, suggesting that cold may function as a cue for preconditioning the crucian carp's HSP70a expression to the approaching anoxic winter period. heart; brain; temperature; preconditioning; teleost doi: l0.1152/ajpregu.00675.2009.

Published
2010

23. Heat suit training increases hemoglobin mass in elite cross‐country skiers.

Author

Rønnestad, Bent R., Lid, Ole Martin, Hansen, Joar, Hamarsland, Håvard, Mølmen, Knut Sindre, Nygaard, Håvard, Ellefsen, Stian, Hammarström, Daniel, and Lundby, Carsten

Subjects
SPORTSWEAR, ENDURANCE sports training, HEMOGLOBINS, CONFIDENCE intervals, CASE-control method, PHYSICAL fitness, CROSS-country skiing, DESCRIPTIVE statistics, BLOOD volume, ERYTHROCYTES, ATHLETIC ability
Abstract

Purpose: The primary purpose was to test the effect of heat suit training on hemoglobin mass (Hbmass) in elite cross‐country (XC) skiers. Methods: Twenty‐five male XC‐skiers were divided into a group that added 5 × 50 min weekly heat suit training sessions to their regular training (HEAT; n = 13, 23 ± 5 years, 73.9 ± 5.2 kg, 180 ± 6 cm, 76.8 ± 4.6 ml·min−1·kg−1) or to a control group matched for training volume and intensity distribution (CON; n = 12, 23 ± 4 years, 78.4 ± 5.8 kg, 184 ± 4 cm, 75.2 ± 3.4 ml·min−1·kg−1) during the five‐week intervention period. Hbmass, endurance performance and factors determining endurance performance were assessed before and after the intervention. Results: HEAT led to 30 g greater Hbmass (95% CI: [8.5, 51.7], p = 0.009) and 157 ml greater red blood cell volume ([29, 285], p = 0.018) post‐intervention, compared to CON when adjusted for baseline values. In contrast, no group differences were observed for changes in work economy, running velocity, and fractional utilization of maximal oxygen uptake (V̇O2max) at 4 mmol·L−1 blood lactate, V̇O2max or 15‐min running distance performance trial during the intervention. Conclusion: HEAT induced a larger increase in Hbmass and red blood cell volume after five weeks with five weekly heat suit training sessions than CON, but with no detectable group differences on physiological determinants of endurance performance or actual endurance performance in elite CX skiers. [ABSTRACT FROM AUTHOR]

Published
2022
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24. Differential regulation of AMP-activated kinase and AKT kinase in response to oxygen availability in crucian carp (Carassius carassius)

Author

Stenslokken, Kare-Olav, Ellefsen, Stian, Stecyk, Jonathan A.W., Dahl, Mai Britt, Nilsson, Goran E., and Vaage, Jarle

Subjects
Hypoxia -- Research, Goldfish -- Physiological aspects, Protein kinases -- Physiological aspects, Biological sciences
Abstract

We investigated whether two kinases critical for survival during periods of energy deficiency in anoxia-intolerant mammalian species, AMP-activated kinase (AMPK), and protein kinase B (AKT), are equally important for hypoxic/anoxic survival in the extremely anoxia-tolerant crucian carp (Carassius carassius). We report that phosphorylation of AMPK and AKT in heart and brain showed small changes after 10 days of severe hypoxia (0.3 mg [O.sub.2]/l at 9[degrees]C). In contrast, anoxia exposure (0.01 mg [O.sub.2]/l at 8[degrees]C) substantially increased AMPK phosphorylation but decreased AKT phosphorylation in carp heart and brain, indicating activation of AMPK and deactivation of AKT. In agreement, blocking the activity of AMPK in anoxic fish in vivo with 20 mg/kg Compound C resulted in an elevated metabolic rate (as indicated by increased ethanol production) and tended to reduce energy charge. This is the first in vivo experiment with Compound C in a nonmammalian vertebrate, and it appears that AMPK plays a role in mediating anoxic metabolic depression in crucian carp. Real-time RT-PCR analysis of the investigated AMPK subunit revealed that the most likely composition of subunits in the carp heart is [[alpha].sub.2], [[beta].sub.1B], [[gamma].sub.2a], whereas a more even expression of subunits was found in the brain. In the heart, expression of the regulatory [[gamma].sub.2]-subunit increased in the heart during anoxia. In the brain, expression of the [[alpha].sub.1]-, [[alpha].sub.2]- and [[gamma].sub.1]-subunits decreased with anoxia exposure, but expression of the [[gamma].sub.2]-subunit remained constant. Combined, our findings suggest that AMPK and AKT may play important, but opposing roles for hypoxic/anoxic survival in the anoxia-tolerant crucian carp. metabolism; hypoxia; ATP; ADP; ethanol

Published
2008

25. The Effect of Whole-Body Vibration on Subsequent Sprint Performance in Well-Trained Cyclists.

Author

Rønnestad, Bent R., Slettaløkken Falch, Gunnar, and Ellefsen, Stian

Subjects
ATHLETIC ability, COMPARATIVE studies, CYCLING, VIBRATION (Mechanics), EFFECT sizes (Statistics), WARMUP
Abstract

Postactivation-potentiation exercise with added whole-body vibration (WBV) has been suggested as a potential way to acutely improve sprint performance. In cycling, there are many competitions and situations where sprinting abilities are important. Purpose: To investigate the effect of adding WBV to warm-up procedures on subsequent cycle sprint performance. Methods: Eleven well-trained cyclists participated in the study. All cyclists performed a familiarization session before 2 separate test sessions in randomized order. Each session included a standardized warm-up followed by 1 of the following preconditioning exercises: 30 s of half-squats without WBV or 30 s of half-squats with WBV at 40 Hz. A 15-s Wingate sprint was performed 1 min after the preconditioning exercise. Results: Performing preconditioning exercise with WBV at 40 Hz resulted in superior peak power output compared with preconditioning exercise without WBV (1413 ± 257 W vs 1353 ± 213 W, P = .04) and a tendency toward superior mean power output during a 15-second all-out sprint (850 ± 119 W vs 828 ± 101 W, P = .08). Effect sizes showed a moderate practical effect of WBV vs no WBV on both peak and mean power output. Conclusions: Preconditioning exercise performed with WBV at 40 Hz seems to have a positive effect on cycling sprint performance in young well-trained cyclists. This suggests that athletes can incorporate body-loaded squats with WBV in preparations to specific sprint training to improve the quality of the sprint training and also to improve sprint performance in relevant competitions. [ABSTRACT FROM AUTHOR]

Published
2017
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26. Ribosome accumulation during early phase resistance training in humans.

Author

Hammarström, Daniel, Øfsteng, Sjur J., Jacobsen, Nicolai B., Flobergseter, Krister B., Rønnestad, Bent R., and Ellefsen, Stian

Subjects
RESISTANCE training, RIBOSOMAL RNA, ORGANELLE formation, RIBOSOMAL proteins, VASTUS lateralis
Abstract

Aim: To describe ribosome biogenesis during resistance training, its relation to training volume and muscle growth. Methods: A training group (n = 11) performed 12 sessions (3‐4 sessions per week) of unilateral knee extension with constant and variable volume (6 and 3‐9 sets per session respectively) allocated to either leg. Ribosome abundance and biogenesis markers were assessed from vastus lateralis biopsies obtained at baseline, 48 hours after sessions 1, 4, 5, 8, 9 and 12, and after eight days of de‐training, and from a control group (n = 8). Muscle thickness was measured before and after the intervention. Results: Training led to muscle growth (3.9% over baseline values, 95% CrI: [0.2, 7.5] vs. control) with concomitant increases in total RNA, ribosomal RNA, upstream binding factor (UBF) and ribosomal protein S6 with no differences between volume conditions. Total RNA increased rapidly in response to the first four sessions (8.6% [5.6, 11.7] per session), followed by a plateau and peak values after session 8 (49.5% [34.5, 66.5] above baseline). Total RNA abundance was associated with UBF protein levels (5.0% [0.2, 10.2] per unit UBF), and the rate of increase in total RNA levels predicted hypertrophy (0.3 mm [0.1, 0.4] per %‐point increase in total RNA per session). After de‐training, total RNA decreased (−19.3% [−29.0, −8.1]) without muscle mass changes indicating halted biosynthesis of ribosomes. Conclusion: Ribosomes accumulate in the initial phase of resistance training with abundances sensitive to training cessation and associated with UBF protein levels. The average accumulation rate predicts muscle training‐induced hypertrophy. [ABSTRACT FROM AUTHOR]

Published
2022
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28. No Differences Between 12 Weeks of Block- vs. Traditional-Periodized Training in Performance Adaptations in Trained Cyclists.

Author

Almquist, Nicki Winfield, Eriksen, Hanne Berg, Wilhelmsen, Malene, Hamarsland, Håvard, Ing, Steven, Ellefsen, Stian, Sandbakk, Øyvind, Rønnestad, Bent R., and Skovereng, Knut

Subjects
AEROBIC capacity, HEMATOCRIT, CYTOCHROME oxidase, CITRATE synthase, ERYTHROCYTES, CYCLING safety, DYNAMOMETER
Abstract

The purpose of this study was to compare the effects of 12 weeks load-matched block periodization (BP, n = 14), using weekly concentration of high- (HIT), moderate- (MIT), and low- (LIT) intensity training, with traditional periodization (TP, n = 16) using a weekly, cyclic progressive increase in training load of HIT-, MIT-, and LIT-sessions in trained cyclists (peak oxygen uptake: 58 ± 8 ml·kg−1·min−1). Red blood cell volume increased 10 ± 16% (p = 0.029) more in BP compared to TP, while capillaries around type I fibers increased 20 ± 12% (p = 0.002) more in TP compared to BP from Pre to Post12. No other group differences were found in time-trial (TT) performances or muscular-, or hematological adaptations. However, both groups improved 5 and 40-min TT power by 9 ± 9% (p < 0.001) and 8 ± 9% (p < 0.001), maximal aerobic power (Wmax) and power output (PO) at 4 mmol·L−1 blood lactate (W4mmol), by 6 ± 7 (p = 0.001) and 10 ± 12% (p = 0.001), and gross efficiency (GE) in a semi-fatigued state by 0.5 ± 1.1%-points (p = 0.026). In contrast, GE in fresh state and VO2peak were unaltered in both groups. The muscle protein content of β-hydroxyacyl (HAD) increased by 55 ± 58% in TP only, while both TP and BP increased the content of cytochrome c oxidase subunit IV (COXIV) by 72 ± 34%. Muscle enzyme activities of citrate synthase (CS) and phosphofructokinase (PFK) were unaltered. TP increased capillary-to-fiber ratio and capillary around fiber (CAF) type I by 36 ± 15% (p < 0.001) and 17 ± 8% (p = 0.025), respectively, while BP increased capillary density (CD) by 28 ± 24% (p = 0.048) from Pre to Post12. The present study shows no difference in performance between BP and "best practice"-TP of endurance training intensities using a cyclic, progressively increasing training load in trained cyclists. However, hematological and muscle capillary adaptations may differ. [ABSTRACT FROM AUTHOR]

Published
2022
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29. Impairment of Performance Variables After In-Season Strength-Training Cessation in Elite Cyclists.

Author

Rønnestad, Bent R., Hansen, Joar, Hollan, Ivana, Spencer, Matt, and Ellefsen, Stian

Subjects
LEG physiology, BODY composition, PHYSIOLOGICAL adaptation, ANTHROPOMETRY, ATHLETIC ability, CARDIOPULMONARY system, CLINICAL trials, CONFIDENCE intervals, CYCLING, EXERCISE physiology, EXERCISE tests, HEART rate monitoring, LACTATES, LONGITUDINAL method, MUSCLE strength, MUSCLE strength testing, STATISTICAL sampling, CARDIOVASCULAR fitness, EFFECT sizes (Statistics), PHYSICAL training & conditioning, RANDOMIZED controlled trials, PRE-tests & post-tests, ELITE athletes, OXYGEN consumption, ERGOMETRY, EXERCISE intensity, DESCRIPTIVE statistics, PHOTON absorptiometry, RESISTANCE training
Abstract

The current study investigated the effects of 8 wk of strength-training cessation after 25 wk of strength training on strength- and cycling-performance characteristics. Elite cyclists were randomly assigned to either 25 wk of endurance training combined with heavy strength training (EXP, n = 7, maximal oxygen uptake [...O2max] 77 ± 6 mL ⋅ kg-1 ⋅ min-1; 3 x 4-10 RM, 1 to 2 d/wk) or to endurance training only (CON, n = 7, ...O2max 73 ± 5 mL ⋅ kg-1 ⋅ min-1). Thereafter, both groups performed endurance training only for 8 wk, coinciding with the initial part of the competition season. Data were assessed for practical significance using magnitude-based inferences. During the 25-wk preparatory period, EXP had a larger positive impact on maximal isometric half-squat force, squat jump (SJ), maximal aerobic power (Wmax), power output at 4 mmol/L [La], and mean power in 30-s Wingate test than did CON (ES = 0.46-0.74). Conversely, during the 8-wk competition period EXP had a reduction in SJ, Wmax, and mean power in the 30-s Wingate test compared with CON (ES = 0.49-0.84). The present findings suggest rapid decline of adaptations on termination of strength training during the first 8 wk of the competition period in elite cyclists. [ABSTRACT FROM AUTHOR]

Published
2016
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31. Improved cycling performance with ingestion of hydrolyzed marine protein depends on performance level

Author

Vegge Geir, Rønnestad Bent R, and Ellefsen Stian

Subjects
Hydrolyzed protein, Sport nutrition, Cycling performance, Nutrition. Foods and food supply, TX341-641, Sports medicine, RC1200-1245
Abstract

Abstract Background The effect on performance of protein ingestion during or after exercise is not clear. This has largely been attributed to the utilization of different scientific protocols and the neglection of accounting for factors such as differences in physical and chemical properties of protein supplements and differences in athletic performance level. Methods We hypothesized that ingestion of unprocessed whey protein (15.3 g·h-1) together with carbohydrate (60 g·h-1), would provide no ergogenic effect on 5-min mean-power performance following 120 min cycling at 50% of maximal aerobic power (2.8 ± 0.2 W·kg-1, corresponding to 60 ± 4% of VO2max), compared to CHO alone (60 g·h-1). Conversely, we hypothesized that ingestion of the hydrolyzed marine protein supplement NutriPeptin™ (Np, 2.7 g·h-1), a processed protein supplement with potentially beneficial amino acid composition, together with a PROCHO beverage (12.4 g·h-1 and 60 g·h-1, respectively) would provide an ergogenic effect on mean-power performance. We also hypothesized that the magnitude of the ergogenic effect of NpPROCHO would be dependent on athletic performance. As for the latter analysis, performance level was defined according to a performance factor, calculated from individual pre values of Wmax, VO2max and 5-min mean-power performance, wherein the performance of each subject was ranked relative to the superior cyclist whos performance was set to one. Twelve trained male cyclists (VO2max = 65 ± 4 ml·kg-1·min-1) participated in a randomized double-blinded cross-over study. Results and conclusions Overall, no differences were found in 5-min mean-power performance between either of the beverages (CHO 5.4 ± 0.5 W·kg-1; PROCHO 5.3 ± 0.5 W·kg-1; NpPROCHO 5.4 ± 0.3 W·kg-1) (P = 0.29). A negative correlation was found between NpPROCHO mean-power performance and athletic performance level (using CHO-performance as reference; Pearson R = -0.74, P = 0.006). Moreover, ingestion of NpPROCHO resulted in improved 5-min mean-power performance relative to ingestion of CHO in the six lesser performing subjects compared to the six superior performing subjects (P < 0.05). This suggests that with the current protocol, NpPROCHO provided an ergogenic effect on 5-min mean-power performance in athletes with a lower performance level.

Published
2012
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32. Vitamin D3 supplementation does not enhance the effects of resistance training in older adults.

Author

Mølmen, Knut Sindre, Hammarström, Daniel, Pedersen, Karianne, Lian Lie, Anne Cecilie, Steile, Ragnvald B., Nygaard, Håvard, Khan, Yusuf, Hamarsland, Håvard, Koll, Lise, Hanestadhaugen, Marita, Eriksen, Atle Lie, Grindaker, Eirik, Whist, Jon Elling, Buck, Daniel, Ahmad, Rafi, Strand, Tor A., Rønnestad, Bent R., and Ellefsen, Stian

Subjects
RESISTANCE training, DIETARY supplements, OLDER people, MUSCLE mass, ADIPOSE tissues, MUSCLE strength, LOW density lipoproteins
Abstract

Background: Lifestyle therapy with resistance training is a potent measure to counteract age‐related loss in muscle strength and mass. Unfortunately, many individuals fail to respond in the expected manner. This phenomenon is particularly common among older adults and those with chronic diseases (e.g. chronic obstructive pulmonary disease, COPD) and may involve endocrine variables such as vitamin D. At present, the effects of vitamin D supplementation on responses to resistance training remain largely unexplored. Methods: Ninety‐five male and female participants (healthy, n = 71; COPD, n = 24; age 68 ± 5 years) were randomly assigned to receive either vitamin D3 or placebo supplementation for 28 weeks in a double‐blinded manner (latitude 61°N, September–May). Seventy‐eight participants completed the RCT, which was initiated by 12 weeks of supplementation‐only (two weeks with 10 000 IU/day, followed by 2000 IU/day), followed by 13 weeks of combined supplementation (2000 IU/day) and supervised whole‐body resistance training (twice weekly), interspersed with testing and measurements. Outcome measures included multiple assessments of muscle strength (nvariables = 7), endurance performance (n = 6), and muscle mass (n = 3, legs, primary), as well as muscle quality (legs), muscle biology (m. vastus lateralis; muscle fibre characteristics, transcriptome), and health‐related variables (e.g. visceral fat mass and blood lipid profile). For main outcome domains such as muscle strength and muscle mass, weighted combined factors were calculated from the range of singular assessments. Results: Overall, 13 weeks of resistance training increased muscle strength (13% ± 8%), muscle mass (9% ± 8%), and endurance performance (one‐legged, 23% ± 15%; whole‐body, 8% ± 7%), assessed as weighted combined factors, and were associated with changes in health variables (e.g. visceral fat, −6% ± 21%; [LDL]serum, −4% ± 14%) and muscle tissue characteristics such as fibre type proportions (e.g. IIX, −3% points), myonuclei per fibre (30% ± 65%), total RNA/rRNA abundances (15%/6–19%), and transcriptome profiles (e.g. 312 differentially expressed genes). Vitamin D3 supplementation did not affect training‐associated changes for any of the main outcome domains, despite robust increases in [25(OH)D]serum (∆49% vs. placebo). No conditional effects were observed for COPD vs. healthy or pre‐RCT [25(OH)D]serum. In secondary analyses, vitamin D3 affected expression of gene sets involved in vascular functions in muscle tissue and strength gains in participants with high fat mass, which advocates further study. Conclusions: Vitamin D3 supplementation did not affect muscular responses to resistance training in older adults with or without COPD. [ABSTRACT FROM AUTHOR]

Published
2021
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33. Effects of including sprints during prolonged cycling on hormonal and muscular responses and recovery in elite cyclists.

Author

Almquist, Nicki Winfield, Ellefsen, Stian, Sandbakk, Øyvind, and Rønnestad, Bent R.

Subjects
*QUADRICEPS muscle physiology, *SKELETAL muscle physiology, *ADIPOSE tissues, *CONFIDENCE intervals, *CROSSOVER trials, *CYCLING, *EXERCISE physiology, *HORMONES, *SPRINTING, *MESSENGER RNA, *MUSCLE proteins, *PHYSICAL fitness, *STATISTICAL sampling, *COOLDOWN, *RANDOMIZED controlled trials, *OXYGEN consumption
Abstract

This study investigated the acute effects of including 30‐second sprints during prolonged low‐intensity cycling on muscular and hormonal responses and recovery in elite cyclists. Twelve male cyclists (VO2max, 73.4 ± 4.0 mL/kg/min) completed a randomized crossover protocol, wherein 4 hours of cycling at 50% of VO2max were performed with and without inclusion of three sets of 3 × 30 seconds maximal sprints (E&S vs E, work‐matched). Muscle biopsies (m. vastus lateralis) and blood were sampled at Pre, immediately after (Post) and 3 hours after (3 h) finalizing sessions. E&S led to greater increases in mRNA levels compared with E for markers of fat metabolism (PDK4, Δ‐Log2 fold change between E&S and E ± 95%CI Post; 2.1 ± 0.9, Δ3h; 1.3 ± 0.7) and angiogenesis (VEGFA, Δ3h; 0.3 ± 0.3), and greater changes in markers of muscle protein turnover (myostatin, ΔPost; −1.4 ± 1.2, Δ3h; −1.3 ± 1.3; MuRF1, ΔPost; 1.5 ± 1.2, all P <.05). E&S showed decreased mRNA levels for markers of ion transport at 3h (Na+‐K+ α1; −0.6 ± 0.6, CLC1; −1.0 ± 0.8 and NHE1; −0.3 ± 0.2, all P <.05) and blunted responses for a marker of mitochondrial biogenesis (PGC‐1α, Post; −0.3 ± 0.3, 3h; −0.4 ± 0.3, P <.05) compared with EE&S and E showed similar endocrine responses, with exceptions of GH and SHBG, where E&S displayed lower responses at Post (GH; −4.1 ± 3.2 μg/L, SHBG; −2.2 ± 1.9 nmol/L, P <.05). Both E&S and E demonstrated complete recovery in isokinetic knee extension torque 24 hours after exercise. In conclusion, we demonstrate E&S to be an effective exercise protocol for elite cyclists, which potentially leads to beneficial adaptations in skeletal muscle without impairing muscle recovery 24 hours after exercise. [ABSTRACT FROM AUTHOR]

Published
2021
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34. Factors Influencing Running Velocity at Lactate Threshold in Male and Female Runners at Different Levels of Performance.

Author

Støa, Eva Maria, Helgerud, Jan, Rønnestad, Bent R., Hansen, Joar, Ellefsen, Stian, and Støren, Øyvind

Subjects
ANAEROBIC threshold, AEROBIC capacity, VELOCITY, LONG-distance running
Abstract

Background: The primary aim was to examine the relationship between lactate threshold (LT) expressed as percentage of maximal oxygen uptake (VO2max) and running velocity at LT (LTV). A secondary aim was to investigate to what extent VO2max, oxygen cost of running (CR), and maximal aerobic speed (MAS) determined LTV. A third aim was to investigate potential differences in LT and LTV between elite, national and recreational runners, as well as possible gender differences regarding VO2max, CR, LT, and LTV. Methods: Seventy-five competitive runners (37 males and 38 females) with an average VO2max of 63.0 ± 9.3 mL⋅kg–1⋅min–1, and an average LTV of 13.6 ± 2.3 km⋅h–1 were tested for VO2max, LT, LTV, MAS, and CR. Results: Lactate threshold did not correlate with LTV. With an r – value of 0.95 (p < 0.001) and a standard error of estimate of 4.0%, the product of MAS and individual LT determined 90% of LTV, outside a range of ±0.27 km⋅h–1. LTV increased with higher performance level. However, LT did not differ between elite, national and recreational runners. Female runners had 2.5% higher LT, 8% lower LTV, and 21% lower VO2max, but 9% better CR than male runners. Conclusion: Lactate threshold did not correlate with LTV. The product of MAS and LT correlated strongly with LTV. There were no differences between elite, national and recreational runners regarding LT, but female runners had higher LT than the male runners. Female runners at the same relative performance level had lower LTV and VO2max, but better CR than male runners. [ABSTRACT FROM AUTHOR]

Published
2020
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35. Systemic and muscular responses to effort‐matched short intervals and long intervals in elite cyclists.

Author

Almquist, Nicki W., Nygaard, Håvard, Vegge, Geir, Hammarström, Daniel, Ellefsen, Stian, and Rønnestad, Bent R.

Subjects
QUADRICEPS muscle physiology, ENDOCRINE system physiology, CROSSOVER trials, CYCLING, ELECTROMYOGRAPHY, EXERCISE, HEART rate monitoring, SEX hormones, LACTATES, MESSENGER RNA, MUSCULOSKELETAL system physiology, TESTOSTERONE, COOLDOWN, RANDOMIZED controlled trials, OXYGEN consumption, HIGH-intensity interval training
Abstract

The purpose of this study was to compare the acute effects of time‐ and effort‐matched high‐intensity intervals on physiological, endocrine, and skeletal muscle molecular variables in elite cyclists. Eight elite cyclists performed short intervals (SI: 30‐seconds) and long intervals (LI: 5‐minutes) with work:recovery ratio 2:1, using a randomized crossover design. SI was associated with 14% ± 3% higher mean power output (SI; 421 ± 27 vs LI; 371 ± 22 W), and longer working time above 90% of maximal oxygen uptake (VO2max, 54% ± 76%) and 90% peak heart rate (HRpeak, 153% ± 148%) than LI (all P <.05), despite similar degrees of perceived exertion, blood lactate levels and muscle activation measured using EMG root mean square (EMG rms). In blood, SI was associated with more pronounced increases in testosterone and testosterone‐to‐sex hormone‐binding globulin (SHBG) ratios, as well as prolonged cortisol responses (P <.05). In skeletal muscle (m. Vastus lateralis), SI and LI led to similar changes in mRNA abundance for a range of transcripts, with the exception of NHE1 mRNA, which decreased after SI (P <.05). Overall, SI was associated with more pronounced physiological and endocrine responses than LI in elite cyclists, suggesting that such training might lead to superior adaptations in elite cyclists. [ABSTRACT FROM AUTHOR]

Published
2020
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36. No effect of increasing protein intake during military exercise with severe energy deficit on body composition and performance.

Author

Øfsteng, Sjur Johansen, Garthe, Ina, Jøsok, Øyvind, Knox, Silje, Helkala, Kirsi, Knox, Ben, Ellefsen, Stian, and Rønnestad, Bent R.

Subjects
BODY composition, CREATINE kinase, ENERGY conservation, EXERCISE, HYDROCORTISONE, INGESTION, MUSCLE strength, DIETARY proteins, STATISTICAL sampling, MILITARY personnel, SOMATOMEDIN, TESTOSTERONE, COOLDOWN, BODY movement, RANDOMIZED controlled trials, DESCRIPTIVE statistics
Abstract

In this study, we compare the effects of isocaloric high‐ (HIGH: 2 g kg−1 d−1, n = 19) and low‐protein diet (LOW: 1 g kg−1 d−1, n = 19) on changes in body composition, muscle strength, and endocrine variables in response to a 10‐day military field exercise with energy deficit, followed by 7 days of recovery. Body composition (DXA), one repetition maximum (1RM) bench and leg press, counter‐movement jump height (CMJ) and blood variables were assessed before and after the exercise. Performance and blood variables were reassessed after 7 days of recovery. The 10‐day exercise resulted in severe energy deficit in both LOW and HIGH (−4373 ± 1250, −4271 ± 1075 kcal d−1) and led to decreased body mass (−6.1%, −5.2%), fat mass (−40.5%, −33.4%), 1RM bench press (−9.5%, −9.7%), 1RM leg press (−7.8%, −8.3%), and CMJ (−14.7%, −14.6%), with no differences between groups. No change was seen for fat‐free mass. In both groups, the exercise led to a switch toward a catabolic physiological milieu, evident as reduced levels of anabolic hormones (testosterone, IGF‐1) and increased levels of cortisol (more pronounced in HIGH, P <.05). Both groups also displayed substantial increases in creatine kinase. After 7 days of recovery, most variables had returned to close‐to pre‐exercise levels, except for CMJ, which remained at reduced levels. In conclusion, increased protein intake during 10‐day military field exercise with severe energy deficiency did not mitigate loss of body mass or impairment of physical performance. [ABSTRACT FROM AUTHOR]

Published
2020
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37. Benefits of higher resistance‐training volume are related to ribosome biogenesis.

Author

Hammarström, Daniel, Øfsteng, Sjur, Koll, Lise, Hanestadhaugen, Marita, Hollan, Ivana, Apró, William, Whist, Jon Elling, Blomstrand, Eva, Rønnestad, Bent R., and Ellefsen, Stian

Subjects
ORGANELLE formation, MUSCLE strength, RESISTANCE training, MUSCLE growth, VASTUS lateralis
Abstract

Key points: For individuals showing suboptimal adaptations to resistance training, manipulation of training volume is a potential measure to facilitate responses. This remains unexplored.Here, 34 untrained individuals performed contralateral resistance training with moderate and low volume for 12 weeks. Moderate volume led to larger increases in muscle cross‐sectional area, strength and type II fibre‐type transitions.These changes coincided with greater activation of signalling pathways controlling muscle growth and greater induction of ribosome synthesis.Out of 34 participants, thirteen displayed clear benefit of MOD on muscle hypertrophy and sixteen showed clear benefit of MOD on muscle strength gains. This coincided with greater total RNA accumulation in the early phase of the training period, suggesting that ribosomal biogenesis regulates the dose–response relationship between training volume and muscle hypertrophy.These results demonstrate that there is a dose‐dependent relationship between training volume and outcomes. On the individual level, benefits of higher training volume were associated with increased ribosomal biogenesis. Resistance‐exercise volume is a determinant of training outcomes. However not all individuals respond in a dose‐dependent fashion. In this study, 34 healthy individuals (males n = 16, 23.6 (4.1) years; females n = 18, 22.0 (1.3) years) performed moderate‐ (3 sets per exercise, MOD) and low‐volume (1 set, LOW) resistance training in a contralateral fashion for 12 weeks (2–3 sessions per week). Muscle cross‐sectional area (CSA) and strength were assessed at Weeks 0 and 12, along with biopsy sampling (m. vastus lateralis). Muscle biopsies were also sampled before and 1 h after the fifth session (Week 2). MOD resulted in larger increases in muscle CSA (5.2 (3.8)% versus 3.7 (3.7)%, P < 0.001) and strength (3.4–7.7% difference, all P < 0.05. This coincided with greater reductions in type IIX fibres from Week 0 to Week 12 (MOD, −4.6 percentage points; LOW −3.2 percentage points), greater phosphorylation of S6‐kinase 1 (p85 S6K1Thr412, 19%; p70 S6K1Thr389, 58%) and ribosomal protein S6Ser235/236 (37%), greater rested‐state total RNA (8.8%) and greater exercise‐induced c‐Myc mRNA expression (25%; Week 2, all P < 0.05). Thirteen and sixteen participants, respectively, displayed clear benefits in response to MOD on muscle hypertrophy and strength. Benefits were associated with greater accumulation of total RNA at Week 2 in the MOD leg, with every 1% difference increasing the odds of MOD benefit by 7.0% (P = 0.005) and 9.8% (P = 0.002). In conclusion, MOD led to greater functional and biological adaptations than LOW. Associations between dose‐dependent total RNA accumulation and increases in muscle mass and strength point to ribosome biogenesis as a determinant of dose‐dependent training responses. Key points: For individuals showing suboptimal adaptations to resistance training, manipulation of training volume is a potential measure to facilitate responses. This remains unexplored.Here, 34 untrained individuals performed contralateral resistance training with moderate and low volume for 12 weeks. Moderate volume led to larger increases in muscle cross‐sectional area, strength and type II fibre‐type transitions.These changes coincided with greater activation of signalling pathways controlling muscle growth and greater induction of ribosome synthesis.Out of 34 participants, thirteen displayed clear benefit of MOD on muscle hypertrophy and sixteen showed clear benefit of MOD on muscle strength gains. This coincided with greater total RNA accumulation in the early phase of the training period, suggesting that ribosomal biogenesis regulates the dose–response relationship between training volume and muscle hypertrophy.These results demonstrate that there is a dose‐dependent relationship between training volume and outcomes. On the individual level, benefits of higher training volume were associated with increased ribosomal biogenesis. [ABSTRACT FROM AUTHOR]

Published
2020
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39. Acute and long-term effects of blood flow restricted training on heat shock proteins and endogenous antioxidant systems

Author

Cumming, Kristoffer Toldnes, Ellefsen, Stian, Rønnestad, Bent, Ugelstad, Ingrid, and Raastad, Truls

Subjects
chaperonin, occlusion training, strength training, skeletal muscle, glutathione peroxidase, superoxide dismutase, stress proteins
Abstract

Blood flow restricted exercise (BFRE) with low loads has been demonstrated to induce considerable stress to exercising muscles. Muscle cells have developed a series of defensive systems against exercise-induced stress. However, little is known about acute and long-term effects of BFRE training on these systems. Nine previously untrained females trained low-load BFRE and heavy load strength training (HLS) on separate legs and on separate days to investigate acute and long-term effects on heat shock proteins (HSP) and endogenous antioxidant systems in skeletal muscles. BFRE and HLS increased muscle strength similarly by 12 ± 7% and 12 ± 6%, respectively, after 12 weeks of training. Acutely after the first BFRE and HLS exercise session, αB-crystallin and HSP27 content increased in cytoskeletal structures, accompanied by increased expression of several HSP genes. After 12 weeks of training, this acute HSP response was absent. Basal levels of αB-crystallin, HSP27, HSP70, mnSOD, or GPx1 remained unchanged after 12 weeks of training, but HSP27 levels increased in the cytoskeleton. Marked translocation of HSP to cytoskeletal structures at the commencement of training indicates that these structures are highly stressed from BFRE and HLS. However, as the muscle gets used to this type of exercise, this response is abolished.

Published
2016

40. Block periodization of strength and endurance training is superior to traditional periodization in ice hockey players.

Author

Rønnestad, Bent R., Øfsteng, Sjur J., and Ellefsen, Stian

Subjects
KNEE physiology, ATHLETES, CARDIAC output, CYCLING, HOCKEY, RANGE of motion of joints, SPRINTING, MUSCLE strength, TORQUE, EFFECT sizes (Statistics), RANDOMIZED controlled trials, OXYGEN consumption
Abstract

Team sports like ice hockey require high levels of performance in numerous physical characteristics such as strength, power, and endurance. As such, training is associated with a potential interference effect. The present study randomized well‐trained ice hockey players into a block periodization group (BP; n = 8), focusing on the development of either strength and power or endurance on a weekly, undulating basis, and a traditional group (TRAD; n = 8), performing a mixed training model, with simultaneous focus of strength, power, and endurance training every week. During the 6‐week intervention, the two groups performed equal volumes and intensities of both strength, power, and endurance training. BP led to larger improvements than TRAD in knee extension peak torque at 180° s−1 (6.6 ± 8.7 vs −4.2% ± 6.3%, respectively; P < 0.05) and maximal oxygen uptake (5.1 ± 3.3 vs 1.1% ± 3.5%, respectively; P < 0.05). There was also a trend toward larger improvements in BP than TRAD in peak torque in knee extension at 60° s−1 (2.1 ± 2.5 vs −0.1% ± 2.5%, respectively; P < 0.1, effect size = 0.83) and mean power output during a 30‐s cycling sprint (4.1 ± 2.5 vs −0.3% ± 5.9%, respectively; P < 0.1, effect size = 0.89). Overall, BP exhibited a moderate to large effect size for all these variables compared to TRAD. The present study suggests that block periodization of strength and endurance training induces superior adaptations in both strength and endurance capacities in well‐trained ice hockey players compared to traditional mixed organization, despite similar training volume and intensity. [ABSTRACT FROM AUTHOR]

Published
2019
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41. Life without Oxygen: Gene Regulatory Responses of the Crucian Carp (Carassius carassius) Heart Subjected to Chronic Anoxia

Author

Stensløkken, Kåre-Olav, Ellefsen, Stian, Vasieva, Olga, Fang, Yongxiang, Farrell, Anthony P., Olohan, Lisa, Vaage, Jarle, Nilsson, Göran E., and Cossins, Andrew R.

Subjects
Fish Proteins, Carps, Physiology, Myocardium, lcsh:R, Temperature, Organisms, Fishes, Biology and Life Sciences, lcsh:Medicine, Cardiovascular Physiology, Adaptation, Physiological, Oxygen, Molecular Genetics, Vertebrates, Genetics, Animals, lcsh:Q, Hypoxia, Transcriptome, lcsh:Science, Glycolysis, Molecular Biology, Research Article
Abstract

Crucian carp are unusual among vertebrates in surviving extended periods in the complete absence of molecular oxygen. During this time cardiac output is maintained though these mechanisms are not well understood. Using a high-density cDNA microarray, we have defined the genome-wide gene expression responses of cardiac tissue after exposing the fish at two temperatures (8 and 13 °C) to one and seven days of anoxia, followed by seven days after restoration to normoxia. At 8 °C, using a false discovery rate of 5%, neither anoxia nor re-oxygenation elicited appreciable changes in gene expression. By contrast, at 13 °C, 777 unique genes responded strongly. Up-regulated genes included those involved in protein turnover, the pentose phosphate pathway and cell morphogenesis while down-regulated gene categories included RNA splicing and transcription. Most genes were affected between one and seven days of anoxia, indicating gene regulation over the medium term but with few early response genes. Re-oxygenation for 7 days was sufficient to completely reverse these responses. Glycolysis displayed more complex responses with anoxia up-regulated transcripts for the key regulatory enzymes, hexokinase and phosphofructokinase, but with down-regulation of most of the non-regulatory genes. This complex pattern of responses in genomic transcription patterns indicates divergent cardiac responses to anoxia, with the transcriptionally driven reprogramming of cardiac function seen at 13 °C being largely completed at 8 °C.

Published
2014

42. Analysis of Drifting for a Remotely Controlled Car

Author

Ellefsen, Stian, Fossen, Thor Inge, and Norges teknisk-naturvitenskapelige universitet, Fakultet for informasjonsteknologi, matematikk og elektroteknikk, Institutt for teknisk kybernetikk

Subjects
7042 [ntnudaim], ntnudaim:7042, MTTK teknisk kybernetikk
Abstract

By restricting a vehicle to the linear region of operation, with a small sideslip angle, a vehiclecannot achieve its full potential. By entering the nonlinear region of operation tightercorners can be achieved and some accidents could be prevented. Research is currently beingconducted to introduce drifting into vehicle safety systems, which currently restrict thevehicle to the linear region of operation. Vehicle drifting has been shown to have unstableequilibria, while still maintaining controllability.In this thesis, equilibria with sideslip angles ranging from -30 degrees to 30 are found fora nonlinear two-track model simulator. Analysis showed that simple mappings could bemade between the states and the inputs, and between the states themselves. All the linearisedsystems in these equilibria were found to be unstable, which coincides with currentresearch.In addition, this thesis presents an adaptive backstepping controller, which is used for convergeto an arbitrary sideslip angle, and when the drift is being initialised the controllermimics the behaviour of Power Over drifting technique. The adaptive part of the backsteppingcontroller is used as integral action that, by the use of adaptation, finds the stationarydeviation between the yaw rate and the desired yaw rate, which is added to the control law.A mapping between the desired sideslip angle and the desired yaw rate is used in a feedforward term such that the desired sideslip angle is achieved when the yaw rate converges.The controller has been tested with a modified Line Of Sight guidance system which providedthe controller with a desired sideslip angle. Robust response with respect to changesin vehicle mass and inertia was observed.

Published
2012

43. Gene expression in anoxic crucian carp brain

Author

Ellefsen, Stian

Subjects
fysiologi fisk karpe hjerne
Abstract

Crucian carp, Carassius carassius, survives days to months without oxygen (anoxia). Still, during anoxia, it needs to keep the energy expenditure low, particularly in the brain, which has a high rate of ATP use mainly related to neuronal activity. We hypothesized that the anoxic crucian carp brain reduces its ATP use by suppressing neuronal excitability, and that this is reflected by the expression of genes involved in excitatory and inhibitory neurotransmission. Real-time RT PCR has become a dominating technique for analyses of gene expression. It enables large-scale, hypothesis-driven analyses of gene expression, and should be well-suited for studies in anoxic crucian carp. However, so far, the use of real-time RT PCR has been limited by the lack of a proper procedure for data normalization, with existing procedures depending on the assumption that internal control genes show constitutive expression and do not vary between experimental groups. This is a particular problem in experiments involving severe physiological stress, such as anoxia, where the expression of control genes must be expected to change. Paper 1 reports a novel procedure for normalization of real-time RT PCR data, using an external RNA control gene (mw2060). It is the first to report the addition of an external RNA to tissue on a per-unit-weight basis. The procedure was demonstrated to be suitable for normalization of real-time RT PCR data in crucian carp heart and brain, and provided more accurate normalization than internal RNA control genes. For example, in anoxic hearts, β-actin failed to detect a 2.5-fold increase in the expression of the stress-response gene HSC70. Papers 2 and 3 use the real-time RT PCR procedure to investigate the effects of 1 and 7 days of anoxia on the expression of 29 genes involved in excitatory glutamatergic neurotransmission and 22 genes involved in inhibitory GABAergic neurotransmission, respectively. In general, paper 2 talks against profound neural depression caused by reduced expression of excitatory ion channels in anoxic crucian carp brains. Still, the NMDA receptor-subunits (NR) showed expression patterns that could mediate reduced neuronal excitability. Primarily, the NR2 subunit expression was dominated by NR2B and NR2D, which resembles that seen in hypoxia-tolerant neonatal rats, but also, the expression of NR1, NR2C and NR3A decreased during anoxia, which suggests a reduced number of functional NMDA receptors. Paper 3 indicates that the GABAergic system in the crucian carp brain is dominated by extrasynaptic components. While the expression of GABAA-receptors subunit was dominated by α4, α6, and δ subunits, all of which are located to extrasynaptic sites in mammalian brains and respond to elevations in extracellular levels of GABA by showing tonic activity-patterns, the expression of GABA transporters was dominated by GAT2 and GAT3, which also show extrasynaptic location in mammals. The majority of the investigated genes were largely unaltered by anoxia, but the expression of GAT2 (a and b) and GAT3 was reduced by up to 80%. This suggests reduced GABA transport in the anoxic crucian carp brain, which may explain the previously reported elevation in extracellular GABA levels, and could underlie the previously observed GABAergic inhibition of anoxic metabolic rate.

Published
2008

44. Increased hypertrophic response with increased mechanical load in skeletal muscles receiving identical activity patterns.

Author

Eftestøl, Einar, Egner, Ingrid M., Lunde, Ida G., Ellefsen, Stian, Andersen, Tom, Sjåland, Cecilie, Gundersen, Kristian, and Bruusgaard, Jo C.

Subjects
HYPERTROPHY, SKELETAL muscle, EXERCISE, MUSCLE strength, BIOMECHANICS
Abstract

It is often assumed that mechanical factors are important for effects of exercise on muscle, but during voluntary training and most experimental conditions the effects could solely be attributed to differences in electrical activity, and direct evidence for a mechanosensory pathway has been scarce. We here show that, in rat muscles stimulated in vivo under deep anesthesia with identical electrical activity patterns, isometric contractions induced twofold more hypertrophy than contractions with 50-60% of the isometric force. The number of myonuclei and the RNA levels of myogenin and myogenic regulatory factor 4 were increased with high load, suggesting that activation of satellite cells is mechano dependent. On the other hand, training induced a major shift in fiber type distribution from type 2b to 2x that was load independent, indicating that the electrical signaling rather than mechanosignaling controls fiber type. RAC-α serine/ threonine-protein kinase (Akt) and ribosomal protein S6 kinase β-1 (S6K1) were not significantly differentially activated by load, suggesting that the differences in mechanical factors were not important for activating the Akt/mammalian target of rapamycin/ S6K1 pathway. The transmembrane molecule syndecan-4 implied in overload hypertrophy in cardiac muscle was not load dependent, suggesting that mechanosignaling in skeletal muscle is different. [ABSTRACT FROM AUTHOR]

Published
2016
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45. Effects of Heavy Strength Training on Running Performance and Determinants of Running Performance in Female Endurance Athletes.

Author

Vikmoen, Olav, Raastad, Truls, Seynnes, Olivier, Bergstrøm, Kristoffer, Ellefsen, Stian, and Rønnestad, Bent R.

Subjects
STRENGTH training, PHYSIOLOGICAL aspects of running, ENDURANCE athletes, WOMEN athletes, EXTENSOR muscles, OXYGEN consumption, HEALTH
Abstract

Purpose: The purpose of the current study was to investigate the effects of adding strength training to normal endurance training on running performance and running economy in well-trained female athletes. We hypothesized that the added strength training would improve performance and running economy through altered stiffness of the muscle-tendon complex of leg extensors. Methods: Nineteen female endurance athletes [maximal oxygen consumption (VO2max): 53±3 ml∙kg-1∙min-1, 5.8 h weekly endurance training] were randomly assigned to either normal endurance training (E, n = 8) or normal endurance training combined with strength training (E+S, n = 11). The strength training consisted of four leg exercises [3 x 4–10 repetition maximum (RM)], twice a week for 11 weeks. Muscle strength, 40 min all-out running distance, running performance determinants and patellar tendon stiffness were measured before and after the intervention. Results: E+S increased 1RM in leg exercises (40 ± 15%) and maximal jumping height in counter movement jump (6 ± 6%) and squat jump (9 ± 7%, p < 0.05). This was accompanied by increased muscle fiber cross sectional area of both fiber type I (13 ± 7%) and fiber type II (31 ± 20%) in m. vastus lateralis (p < 0.05), with no change in capillary density in m. vastus lateralis or the stiffness of the patellar tendon. Neither E+S nor E changed running economy, fractional utilization of VO2max or VO2max. There were also no change in running distance during a 40 min all-out running test in neither of the groups. Conclusion: Adding heavy strength training to endurance training did not affect 40 min all-out running performance or running economy compared to endurance training only. [ABSTRACT FROM AUTHOR]

Published
2016
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46. Blood flow-restricted strength training displays high functional and biological efficacy in women: a within-subject comparison with high-load strength training.

Author

Ellefsen, Stian, Hammarström, Daniel, Strand, Tor A., Zacharoff, Erika, Whist, Jon E., Rauk, Irene, Nygaard, Håvard, Vegge, Geir, Hanestadhaugen, Marita, Wernbom, Mathias, Cumming, Kristoffer T., Rønning, Roar, Raastad, Truls, and Rønnestad, Bent R.

Subjects
*BLOOD viscosity, *SOMATOTROPIN, *KNEE anatomy, *MUSCLES, *LEG muscles, *MUSCLE strength
Abstract

Limited data exist on the efficacy of low-load blood flow-restricted strength training (BFR), as compared directly to heavy-load strength training (HST). Here, we show that 12 wk of twice-a-week unilateral BFR [30% of one repetition maximum (1RM) to exhaustion] and HST (6-10RM) of knee extensors provide similar increases in 1RM knee extension and cross-sectional area of distal parts of musculus quadriceps femoris in nine untrained women (age 22 ± 1 yr). The two protocols resulted in similar acute increases in serum levels of human growth hormone. On the cellular level, 12 wk of BFR and HST resulted in similar shifts in muscle fiber composition in musculus vastus lateralis, evident as increased MyHC2A proportions and decreased MyHC2X proportions. They also resulted in similar changes of the expression of 29 genes involved in skeletal muscle function, measured both in a rested state following 12 wk of training and subsequent to singular training sessions. Training had no effect on myonuclei proportions. Of particular interest, 1) gross adaptations to BFR and HST were greater in individuals with higher proportions of type 2 fibers, 2) both BFR and HST resulted in approximately four-fold increases in the expression of the novel exercise-responsive gene Syndecan-4, and 3) BFR provided lesser hypertrophy than HST in the proximal half of musculus quadriceps femoris and also in CSApeak, potentially being a consequence of pressure from the tourniquet utilized to achieve blood flow restriction. In conclusion, BFR and HST of knee extensors resulted in similar adaptations in functional, physiological, and cell biological parameters in untrained women. [ABSTRACT FROM AUTHOR]

Published
2015
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47. Irisin in Blood Increases Transiently after Single Sessions of Intense Endurance Exercise and Heavy Strength Training.

Author

Nygaard, Håvard, Slettaløkken, Gunnar, Vegge, Geir, Hollan, Ivana, Whist, Jon Elling, Strand, Tor, Rønnestad, Bent R., and Ellefsen, Stian

Subjects
MUSCLE strength, EXERCISE, BLOOD testing, GENE expression, GENETIC transcription
Abstract

Purpose: Irisin is a recently identified exercise-induced hormone that increases energy expenditure, at least in rodents. The main purpose of this study was to test the hypothesis that Irisin increases acutely in blood after singular sessions of intense endurance exercise (END) and heavy strength training (STR). Secondary, we wanted to explore the relationship between body composition and exercise-induced effects on irisin, and the effect of END and STR on muscular expression of the irisin gene FNDC5. Methods: Nine moderately trained healthy subjects performed three test days using a randomized and standardized crossover design: one day with 60 minutes of END, one day with 60 minutes of STR, and one day without exercise (CON). Venous blood was sampled over a period of 24h on the exercise days. Results: Both END and STR led to transient increases in irisin concentrations in blood, peaking immediately after END and one hour after STR, before gradually returning to baseline. Irisin responses to STR, but not END, showed a consistently strong negative correlation with proportions of lean body mass. Neither END nor STR affected expression of FNDC5, measured 4h after training sessions, though both protocols led to pronounced increases in PGC-1α expression, which is involved in transcriptional control of FNDC5. Conclusion: The results strongly suggest that single sessions of intense endurance exercise and heavy strength training lead to transient increases in irisin concentrations in blood. This was not accompanied by increased FNDC5 expression, measured 4h post-exercise. The results suggest that irisin responses to resistance exercise are higher in individuals with lower proportions of lean body mass. [ABSTRACT FROM AUTHOR]

Published
2015
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49. Studies of Ribonucleotide Reductase in Crucian Carp--An Oxygen Dependent Enzyme in an Anoxia Tolerant Vertebrate.

Author

Sandvik, Guro K., Tomter, Ane B., Bergan, Jonas, Zoppellaro, Giorgio, Barra, Anne-Laure, Røhr, Åsmund K., Kolberg, Matthias, Ellefsen, Stian, Andersson, K. Kristoffer, Nilsson, Göran E., and Croft, Anna Kristina

Subjects
ENZYMES, RIBONUCLEOSIDE diphosphate reductase, RIBONUCLEOTIDES, DEOXYRIBONUCLEOTIDES, THIYL radicals, EUKARYOTES
Abstract

The enzyme ribonucleotide reductase (RNR) catalyzes the conversion of ribonucleotides to deoxyribonucleotides, the precursors for DNA. RNR requires a thiyl radical to activate the substrate. In RNR of eukaryotes (class Ia RNR), this radical originates from a tyrosyl radical formed in reaction with oxygen (O2) and a ferrous di-iron center in RNR. The crucian carp (Carassius carassius) is one of very few vertebrates that can tolerate several months completely without oxygen (anoxia), a trait that enables this fish to survive under the ice in small ponds that become anoxic during the winter. Previous studies have found indications of cell division in this fish after 7 days of anoxia. This appears nearly impossible, as DNA synthesis requires the production of new deoxyribonucleotides and therefore active RNR. We have here characterized RNR in crucian carp, to search for adaptations to anoxia. We report the full- length sequences of two paralogs of each of the RNR subunits (R1i, R1ii, R2i, R2ii, p53R2i and p53R2ii), obtained by cloning and sequencing. The mRNA levels of these subunits were measured with quantitative PCR and were generally well maintained in hypoxia and anoxia in heart and brain. We also report maintained or increased mRNA levels of the cell division markers proliferating cell nuclear antigen (PCNA), brain derived neurotrophic factor (BDNF) and Ki67 in anoxic hearts and brains. Electron paramagnetic resonance (EPR) measurements on in vitro expressed crucian carp R2 and p53R2 proteins gave spectra similar to mammalian RNRs, including previously unpublished human and mouse p53R2 EPR spectra. However, the radicals in crucian carp RNR small subunits, especially in the p53R2ii subunit, were very stable at 0°C. A long half-life of the tyrosyl radical during wintertime anoxia could allow for continued cell division in crucian carp. [ABSTRACT FROM AUTHOR]

Published
2012
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50. The effects of adding different whole-body vibration frequencies to preconditioning exercise on subsequent sprint performance.

Author

Rønnestad, Bent R and Ellefsen, Stian

Abstract

Rønnestad, BR and Ellefsen, S. The effects of adding different whole-body vibration frequencies to preconditioning exercise on subsequent sprint performance. J Strength Cond Res 25(12): 3306-3310, 2011-The phenomenon postactivation potentiation can possibly be used to acutely improve sprint performance. The purpose of this study was to investigate the effect of adding whole-body vibration (WBV) to body-loaded half-squats, performed as preconditioning activity to the 40-m sprint test. Nine male amateur soccer players performed 1 familiarization session and 6 separate test sessions. Each session included a standardized warm-up followed by 1 of the after preconditioning exercises: 30-seconds of half-squats with WBV at either 50 or 30 Hz or half-squats without WBV. The 40-m sprint was performed 1 minute after the preconditioning exercise. For each subject, each of the 3 protocols was repeated twice on separate days in a randomized order. Mean values were used in the statistical analysis. Performing the preconditioning exercise with WBV at a frequency of 50 Hz resulted in a superior 40-m sprint performance compared to preconditioning exercise without WBV (5.48 ± 0.19 vs. 5.52 ± 0.21 seconds, respectively, p < 0.05). There was no difference between preconditioning exercise with WBV at a frequency of 30 Hz and the no-WBV condition. In conclusion, preconditioning exercise performed with WBV at 50 Hz seems to enhance 40-m sprint performance in recreationally trained soccer players. The present findings suggest that coaches can incorporate such exercise into the warm-up to improve sprint performance or the quality of the sprint training. [ABSTRACT FROM AUTHOR]

Published
2011
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