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1. Esophageal pressure as estimation of pleural pressure: a study in a model of eviscerated chest

Author

Gaetano Florio, Eleonora Carlesso, Francesco Mojoli, Fabiana Madotto, Luigi Vivona, Chiara Minaudo, Michele Battistin, Sebastiano Maria Colombo, Stefano Gatti, Simone Sosio, Antonio Pesenti, Giacomo Grasselli, and Alberto Zanella

Subjects
Esophageal pressure, Intrathoracic pressure, Mechanical ventilation, Correction, Esophageal balloon, Transpulmonary pressure, Anesthesiology, RD78.3-87.3
Abstract

Abstract Background Transpulmonary pressure is the effective pressure across the lung parenchyma and has been proposed as a guide for mechanical ventilation. The pleural pressure is challenging to directly measure in clinical setting and esophageal manometry using esophageal balloon catheters was suggested for estimation. However, the accuracy of using esophageal pressure to estimate pleural pressure is debated due to variability in the mechanical properties of respiratory system, esophagus and esophageal catheter. Furthermore, while a vertical pleural pressure gradient exists across lung regions, esophageal pressure balloon provides a single value, representing, at most, the pressure surrounding the esophagus. Methods In a swine model with a preserved esophagus and a single homogenous, easily measurable intrathoracic pressure, we evaluated esophageal pressure’s agreement with intrathoracic pressure at different positive end-expiratory pressure (PEEP) levels (0, 5, 10, 15 cmH2O). We assessed the improvement of measurement accuracy by correcting absolute esophageal values using a previously described technique, that accounts for the pressure generated by the esophageal wall in response to esophageal balloon inflation. The study involved five swine, wherein two different esophageal catheters were used alongside the four distinct PEEP levels. Swings, uncorrected and corrected absolute esophageal pressures (end-inspiratory, end-expiratory) were compared with their respective intrathoracic pressures. The effect of correction technique was assessed with manual incremental step inflation procedure. Results We found that both catheters significantly overestimated absolute esophageal pressure compared to intrathoracic pressure (5.01 ± 3.32 and 6.06 ± 5.62 cmH2O at end-expiration and end-inspiration, respectively), with error increasing at higher positive end-expiratory pressure levels (end-expiration: 2.36 ± 2.03, 3.77 ± 1.37, 6.24 ± 2.51 and 7.69 ± 4.02 for each PEEP level, P

Published
2024
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2. Twelve-hour normothermic liver perfusion in a rat model: characterization of the changes in the ex-situ bio-molecular phenotype and metabolism

Author

Daniele Dondossola, Caterina Lonati, Michele Battistin, Luigi Vivona, Alberto Zanella, Marco Maggioni, Vaira Valentina, Laimdota Zizmare, Christoph Trautwein, Andrea Schlegel, and Stefano Gatti

Subjects
Medicine, Science
Abstract

Abstract The partial understanding of the biological events that occur during normothermic machine perfusion (NMP) and particularly during prolonged perfusion might hinder its deployment in clinical transplantation. The aim of our study was to implement a rat model of prolonged NMP to characterize the bio-molecular phenotype and metabolism of the perfused organs. Livers (n = 5/group) were procured and underwent 4 h (NMP4h) or 12 h (NMP12h) NMP, respectively, using a perfusion fluid supplemented with an acellular oxygen carrier. Organs that were not exposed to any procedure served as controls (Native). All perfused organs met clinically derived viability criteria at the end of NMP. Factors related to stress-response and survival were increased after prolonged perfusion. No signs of oxidative damage were detected in both NMP groups. Evaluation of metabolite profiles showed preserved mitochondrial function, activation of Cori cycle, induction of lipolysis, acetogenesis and ketogenesis in livers exposed to 12 h-NMP. Increased concentrations of metabolites involved in glycogen synthesis, glucuronidation, bile acid conjugation, and antioxidant response were likewise observed. In conclusion, our NMP12h model was able to sustain liver viability and function, thereby deeply changing cell homeostasis to maintain a newly developed equilibrium. Our findings provide valuable information for the implementation of optimized protocols for prolonged NMP.

Published
2024
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3. Pathophysiological profile of non-ventilated lung injury in healthy female pigs undergoing mechanical ventilation

Author

Elena Spinelli, Anna Damia, Francesco Damarco, Beatrice Gregori, Federica Occhipinti, Zara Busani, Marco Leali, Michele Battistin, Caterina Lonati, Zhanqi Zhao, Alessandra Maria Storaci, Gianluca Lopez, Valentina Vaira, Stefano Ferrero, Lorenzo Rosso, Stefano Gatti, and Tommaso Mauri

Subjects
Medicine
Abstract

Abstract Background Lung regions excluded from mechanical insufflation are traditionally assumed to be spared from ventilation-associated lung injury. However, preliminary data showed activation of potential mechanisms of injury within these non-ventilated regions (e.g., hypoperfusion, inflammation). Methods In the present study, we hypothesized that non-ventilated lung injury (NVLI) may develop within 24 h of unilateral mechanical ventilation in previously healthy pigs, and we performed extended pathophysiological measures to profile NVLI. We included two experimental groups undergoing exclusion of the left lung from the ventilation with two different tidal volumes (15 vs 7.5 ml/kg) and a control group on bilateral ventilation. Pathophysiological alteration including lung collapse, changes in lung perfusion, lung stress and inflammation were measured. Lung injury was quantified by histological score. Results Histological injury score of the non-ventilated lung is significantly higher than normally expanded lung from control animals. The histological score showed lower intermediate values (but still higher than controls) when the tidal volume distending the ventilated lung was reduced by 50%. Main pathophysiological alterations associated with NVLI were: extensive lung collapse; very low pulmonary perfusion; high inspiratory airways pressure; and higher concentrations of acute-phase inflammatory cytokines IL-6, IL-1β and TNF-α and of Angiopoietin-2 (a marker of endothelial activation) in the broncho-alveolar lavage. Only the last two alterations were mitigated by reducing tidal volume, potentially explaining partial protection. Conclusions Non-ventilated lung injury develops within 24 h of controlled mechanical ventilation due to multiple pathophysiological alterations, which are only partially prevented by low tidal volume.

Published
2024
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5. Assessment of hepatic fibrosis with non-invasive indices in subjects with diabetes before and after liver transplantation

Author

Valeria Grancini, Irene Cogliati, Gianfranco Alicandro, Alessia Gaglio, Stefano Gatti, Maria Francesca Donato, Emanuela Orsi, and Veronica Resi

Subjects
diabetes mellitus, liver transplantation, fibrosis, APRI score, FIB-4, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

IntroductionOne of the most common complications of cirrhosis is diabetes, which prevalence is strictly related to severity of hepatopathy. Actually, there are no data on the persistence of post-transplant glucose abnormalities and on a potential impact of diabetes on development of fibrosis in the transplanted liver. To this aim, we evaluated liver fibrosis in cirrhotic subjects before and after being transplanted.MethodsThe study included 111 individuals who had liver transplantation. The assessment was performed before and two years after surgery to investigate a potential impact of the persistence of diabetes on developing de novo fibrosis in the transplanted liver. The degree of fibrosis was assessed using the Fibrosis Index Based on 4 Factors (FIB-4) and the Aspartate to Platelet Ratio Index (APRI).ResultsAt pre-transplant evaluation, 63 out of 111 (56.8%) subjects were diabetic. Diabetic subjects had higher FIB-4 (Geometric mean, 95% confidence interval: 9.74, 8.32-11.41 vs 5.93, 4.71-7.46, P

Published
2024
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6. Microbiota dysbiosis influences immune system and muscle pathophysiology of dystrophin‐deficient mice

Author

Andrea Farini, Luana Tripodi, Chiara Villa, Francesco Strati, Amanda Facoetti, Guido Baselli, Jacopo Troisi, Annamaria Landolfi, Caterina Lonati, Davide Molinaro, Michelle Wintzinger, Stefano Gatti, Barbara Cassani, Flavio Caprioli, Federica Facciotti, Mattia Quattrocelli, and Yvan Torrente

Subjects
Duchenne muscular dystrophy, gut microbiota, immunity, skeletal muscle metabolism, T‐lymphocytes, Medicine (General), R5-920, Genetics, QH426-470
Abstract

Abstract Duchenne muscular dystrophy (DMD) is a progressive severe muscle‐wasting disease caused by mutations in DMD, encoding dystrophin, that leads to loss of muscle function with cardiac/respiratory failure and premature death. Since dystrophic muscles are sensed by infiltrating inflammatory cells and gut microbial communities can cause immune dysregulation and metabolic syndrome, we sought to investigate whether intestinal bacteria support the muscle immune response in mdx dystrophic murine model. We highlighted a strong correlation between DMD disease features and the relative abundance of Prevotella. Furthermore, the absence of gut microbes through the generation of mdx germ‐free animal model, as well as modulation of the microbial community structure by antibiotic treatment, influenced muscle immunity and fibrosis. Intestinal colonization of mdx mice with eubiotic microbiota was sufficient to reduce inflammation and improve muscle pathology and function. This work identifies a potential role for the gut microbiota in the pathogenesis of DMD.

Published
2022
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7. Defective dystrophic thymus determines degenerative changes in skeletal muscle

Author

Andrea Farini, Clementina Sitzia, Chiara Villa, Barbara Cassani, Luana Tripodi, Mariella Legato, Marzia Belicchi, Pamela Bella, Caterina Lonati, Stefano Gatti, Massimiliano Cerletti, and Yvan Torrente

Subjects
Science
Abstract

Immune cells are known to aggravate the inflammatory impact of Duchene muscular dystrophy. Here, the authors describe impaired thymic development and suggest thymic involution in this model of disease is linked to disease acceleration due to impaired immunological tolerance.

Published
2021
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8. Inhaled CO2 vs. Hypercapnia Obtained by Low Tidal Volume or Instrumental Dead Space in Unilateral Pulmonary Artery Ligation: Any Difference for Lung Protection?

Author

Elena Spinelli, Antonio Pesenti, Gianluca Lopez, Anna Damia, Francesco Damarco, Erica Garbelli, Gaia Dal Santo, Alessio Caccioppola, Giorgio Giudici, Virginia Figgiaconi, Osvaldo Biancolilli, Michele Battistin, Caterina Lonati, Valentina Vaira, Lorenzo Rosso, Stefano Ferrero, Stefano Gatti, and Tommaso Mauri

Subjects
ventilator-induced lung injury, pulmonary perfusion, inhaled CO2, therapeutic hypercapnia, mechanical ventilation, Medicine (General), R5-920
Abstract

BackgroundUnilateral ligation of the pulmonary artery (UPAL) induces bilateral lung injury in pigs undergoing controlled mechanical ventilation. Possible mechanisms include redistribution of ventilation toward the non-ligated lung and hypoperfusion of the ligated lung. The addition of 5% CO2 to the inspiratory gas (FiCO2) prevents the injury, but it is not clear whether lung protection is a direct effect of CO2 inhalation or it is mediated by plasmatic hypercapnia. This study aims to compare the effects and mechanisms of FiCO2vs. hypercapnia induced by low tidal volume ventilation or instrumental dead space.MethodsHealthy pigs underwent left UPAL and were allocated for 48 h to the following: Volume-controlled ventilation (VCV) with VT 10 ml/kg (injury, n = 6); VCV plus 5% FiCO2 (FiCO2, n = 7); VCV with VT 6 ml/kg (low VT, n = 6); VCV plus additional circuit dead space (instrumental VD, n = 6). Histological score, regional compliance, wet-to-dry ratio, and inflammatory infiltrate were assessed to evaluate lung injury at the end of the study. To investigate the mechanisms of protection, we quantified the redistribution of ventilation to the non-ligated lung, as the ratio between the percentage of tidal volume to the right and to the left lung (VTRIGHT/LEFT), and the hypoperfusion of the ligated lung as the percentage of blood flow reaching the left lung (PerfusionLEFT).ResultsIn the left ligated lung, injury was prevented only in the FiCO2 group, as indicated by lower histological score, higher regional compliance, lower wet-to-dry ratio and lower density of inflammatory cells compared to other groups. For the right lung, the histological score was lower both in the FiCO2 and in the low VT groups, but the other measures of injury showed lower intensity only in the FiCO2 group. VTRIGHT/LEFT was lower and PerfusionLEFT was higher in the FiCO2 group compared to other groups.ConclusionIn a model of UPAL, inhaled CO2 but not hypercapnia grants bilateral lung protection. Mechanisms of protection include reduced overdistension of the non-ligated and increased perfusion of the ligated lung.

Published
2022
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9. Sculpting the surface: Structural patterning of plant epidermis

Author

Lucie Riglet, Stefano Gatti, and Edwige Moyroud

Subjects
Biological sciences, Bioengineering, Biologically inspired engineering, Biotechnology, Plant biotechnology, Biophysics, Science
Abstract

Summary: Plant epidermis are multifunctional surfaces that directly affect how plants interact with animals or microorganisms and influence their ability to harvest or protect from abiotic factors. To do this, plants rely on minuscule structures that confer remarkable properties to their outer layer. These microscopic features emerge from the hierarchical organization of epidermal cells with various shapes and dimensions combined with different elaborations of the cuticle, a protective film that covers plant surfaces. Understanding the properties and functions of those tridimensional elements as well as disentangling the mechanisms that control their formation and spatial distribution warrant a multidisciplinary approach. Here we show how interdisciplinary efforts of coupling modern tools of experimental biology, physics, and chemistry with advanced computational modeling and state-of-the art microscopy are yielding broad new insights into the seemingly arcane patterning processes that sculpt the outer layer of plants.

Published
2021
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10. Ultrasound Versus Computed Tomography for Diaphragmatic Thickness and Skeletal Muscle Index during Mechanical Ventilation

Author

Stefano Gatti, Chiara Abbruzzese, Davide Ippolito, Sophie Lombardi, Andrea De Vito, Davide Gandola, Veronica Meroni, Vittoria Ludovica Sala, Sandro Sironi, Antonio Pesenti, Giuseppe Foti, Emanuele Rezoagli, and Giacomo Bellani

Subjects
ultrasound, mechanical ventilation, computed tomography, diaphragm, skeletal muscle index, critical care, Medicine (General), R5-920
Abstract

Background: Diaphragmatic alterations occurring during mechanical ventilation (MV) can be monitored using ultrasound (US). The performance of computed tomography (CT) to evaluate diaphragmatic thickness is limited. Further, the association between muscle mass and outcome is increasingly recognized. However, no data are available on its correlation with diaphragmatic thickness. We aimed to determine correlation and agreement of diaphragmatic thickness between CT and US; and its association with muscle mass and MV parameters. Methods: Prospective observational study. US measurements of the diaphragmatic thickness were collected in patients undergoing MV within 12 h before or after performing a CT scan of the thorax and/or upper abdomen. Data on skeletal muscle index (SMI), baseline, and ventilatory data were recorded and correlated with US and CT measures of diaphragmatic thickness. Agreement was explored between US and CT data. Results: Twenty-nine patients were enrolled and the diaphragm measured by CT resulted overall thicker than US-based measurement of the right hemidiaphragm. The US thickness showed the strongest correlation with the left posterior pillar at CT (r = 0.49, p = 0.008). The duration of the controlled MV was negatively correlated with US thickness (r = −0.45, p = 0.017), the thickness of the right anterior pillar (r = −0.41, p = 0.029), and splenic dome by CT (r = −0.43, p = 0.023). SMI was positively correlated with US diaphragmatic thickness (r = 0.50, p = 0.007) and inversely correlated with the duration of MV before enrollment (r = −0.426, p = 0.027). Conclusions: CT scan of the left posterior pillar can estimate diaphragmatic thickness and is moderately correlated with US measurements. Both techniques show that diaphragm thickness decreases with MV duration. The diaphragmatic thickness by US showed a good correlation with SMI.

Published
2022
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11. Atelectasis, Shunt, and Worsening Oxygenation Following Reduction of Respiratory Rate in Healthy Pigs Undergoing ECMO: An Experimental Lung Imaging Study

Author

Elena Spinelli, Giulia Colussi, Gaia Dal Santo, Eleonora Scotti, Ines Marongiu, Erica Garbelli, Alessandra Mazzucco, Daniele Dondossola, Raquel Maia, Michele Battistin, Osvaldo Biancolilli, Lorenzo Rosso, Stefano Gatti, and Tommaso Mauri

Subjects
extracorporeal membrane oxygenation, respiratory rate, atelectasis, shunt, expiratory time, Physiology, QP1-981
Abstract

Rationale: Reducing the respiratory rate during extracorporeal membrane oxygenation (ECMO) decreases the mechanical power, but it might induce alveolar de-recruitment. Dissecting de-recruitment due to lung edema vs. the fraction due to hypoventilation may be challenging in injured lungs.Objectives: We characterized changes in lung physiology (primary endpoint: development of atelectasis) associated with progressive reduction of the respiratory rate in healthy animals on ECMO.Methods: Six female pigs underwent general anesthesia and volume control ventilation (Baseline: PEEP 5 cmH2O, Vt 10 ml/kg, I:E = 1:2, FiO2 0.5, rate 24 bpm). Veno-venous ECMO was started and respiratory rate was progressively reduced to 18, 12, and 6 breaths per minute (6-h steps), while all other settings remained unchanged. ECMO blood flow was kept constant while gas flow was increased to maintain stable PaCO2.Measurements and Main Results: At Baseline (without ECMO) and toward the end of each step, data from quantitative CT scan, electrical impedance tomography, and gas exchange were collected. Increasing ECMO gas flow while lowering the respiratory rate was associated with an increase in the fraction of non-aerated tissue (i.e., atelectasis) and with a decrease of tidal ventilation reaching the gravitationally dependent lung regions (p = 0.009 and p = 0.018). Intrapulmonary shunt increased (p < 0.001) and arterial PaO2 decreased (p < 0.001) at lower rates. The fraction of non-aerated lung was correlated with longer expiratory time spent at zero flow (r = 0.555, p = 0.011).Conclusions: Progressive decrease of respiratory rate coupled with increasing CO2 removal in mechanically ventilated healthy pigs is associated with development of lung atelectasis, higher shunt, and poorer oxygenation.

Published
2021
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12. Activation of Melanocortin Receptors as a Potential Strategy to Reduce Local and Systemic Reactions Induced by Respiratory Viruses

Author

Caterina Lonati, Stefano Gatti, and Anna Catania

Subjects
respiratory viruses, SARS-CoV-2, acute lung injury, cytokine storm, endothelial dysfunction, melanocortin receptors, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

The clinical hallmarks of infections caused by critical respiratory viruses consist of pneumonia, which can progress to acute lung injury (ALI), and systemic manifestations including hypercoagulopathy, vascular dysfunction, and endotheliitis. The disease outcome largely depends on the immune response produced by the host. The bio-molecular mechanisms underlying certain dire consequences of the infection partly arise from an aberrant production of inflammatory molecules, an event denoted as “cytokine storm”. Therefore, in addition to antiviral therapies, molecules able to prevent the injury caused by cytokine excess are under investigation. In this perspective, taking advantage of melanocortin peptides and their receptors, components of an endogenous modulatory system that exerts marked anti-inflammatory and immunomodulatory influences, could be an effective therapeutic strategy to control disease evolution. Exploiting the melanocortin system using natural or synthetic ligands can form a realistic basis to counteract certain deleterious effects of respiratory virus infections. The central and peripheral protective actions exerted following melanocortin receptor activation could allow dampening the harmful events that trigger the cytokine storm and endothelial dysfunction while sustaining the beneficial signals required to elicit repair mechanisms. The long standing evidence for melanocortin safety encourages this approach.

Published
2020
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13. PTX3 Predicts Myocardial Damage and Fibrosis in Duchenne Muscular Dystrophy

Author

Andrea Farini, Chiara Villa, Dario Di Silvestre, Pamela Bella, Luana Tripodi, Rossana Rossi, Clementina Sitzia, Stefano Gatti, Pierluigi Mauri, and Yvan Torrente

Subjects
Duchenne muscular dystrophy (DMD), muscular dystrophy, cardiomyopathy, pentraxin 3 (PTX3), alarmins, Physiology, QP1-981
Abstract

Pentraxin 3 (PTX3) is a main component of the innate immune system by inducing complement pathway activation, acting as an inflammatory mediator, coordinating the functions of macrophages/dendritic cells and promoting apoptosis/necrosis. Additionally, it has been found in fibrotic regions co-localizing with collagen. In this work, we wanted to investigate the predictive role of PTX3 in myocardial damage and fibrosis of Duchenne muscular dystrophy (DMD). DMD is an X-linked recessive disease caused by mutations of the dystrophin gene that affects muscular functions and strength and accompanying dilated cardiomyopathy. Here, we expound the correlation of PTX3 cardiac expression with age and Toll-like receptors (TLRs)/interleukin-1 receptor (IL-1R)-MyD88 inflammatory markers and its modulation by the so-called alarmins IL-33, high-mobility group box 1 (HMGB1), and S100β. These findings suggest that cardiac levels of PTX3 might have prognostic value and potential in guiding therapy for DMD cardiomyopathy.

Published
2020
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14. Mboat7 down-regulation by hyper-insulinemia induces fat accumulation in hepatocytes

Author

Marica Meroni, Paola Dongiovanni, Miriam Longo, Fabrizia Carli, Guido Baselli, Raffaela Rametta, Serena Pelusi, Sara Badiali, Marco Maggioni, Melania Gaggini, Anna Ludovica Fracanzani, Stefano Romeo, Stefano Gatti, Nicholas O. Davidson, Amalia Gastaldelli, and Luca Valenti

Subjects
Medicine, Medicine (General), R5-920
Abstract

Background: Naturally occurring variation in Membrane-bound O-acyltransferase domain-containing 7 (MBOAT7), encoding for an enzyme involved in phosphatidylinositol acyl-chain remodelling, has been associated with fatty liver and hepatic disorders. Here, we examined the relationship between hepatic Mboat7 down-regulation and fat accumulation. Methods: Hepatic MBOAT7 expression was surveyed in 119 obese individuals and in experimental models. MBOAT7 was acutely silenced by antisense oligonucleotides in C57Bl/6 mice, and by CRISPR/Cas9 in HepG2 hepatocytes. Findings: In obese individuals, hepatic MBOAT7 mRNA decreased from normal liver to steatohepatitis, independently of diabetes, inflammation and MBOAT7 genotype. Hepatic MBOAT7 levels were reduced in murine models of fatty liver, and by hyper-insulinemia. In wild-type mice, Mboat7 was down-regulated by refeeding and insulin, concomitantly with insulin signalling activation. Acute hepatic Mboat7 silencing promoted hepatic steatosis in vivo and enhanced expression of fatty acid transporter Fatp1. MBOAT7 deletion in hepatocytes reduced the incorporation of arachidonic acid into phosphatidylinositol, consistently with decreased enzymatic activity, determining the accumulation of saturated triglycerides, enhanced lipogenesis and FATP1 expression, while FATP1 deletion rescued the phenotype. Interpretation: MBOAT7 down-regulation by hyper-insulinemia contributes to hepatic fat accumulation, impairing phosphatidylinositol remodelling and up-regulating FATP1. Funding: LV was supported by MyFirst Grant AIRC n.16888, Ricerca Finalizzata Ministero della Salute RF-2016–02,364,358, Ricerca corrente Fondazione IRCCS Ca’ Granda Ospedale Maggiore Policlinico; LV and AG received funding from the European Union Programme Horizon 2020 (No. 777,377) for the project LITMUS-“Liver Investigation: Testing Marker Utility in Steatohepatitis”. MM was supported by Fondazione Italiana per lo Studio del Fegato (AISF) ‘Mario Coppo’ fellowship. Keywords: LPIAT1, NAFLD, Nash, Nonalcoholic fatty liver disease, Steatohepatitis, Phospholipid, Phosphatidylinositol

Published
2020
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15. Quantitative Metabolomics of Tissue, Perfusate, and Bile from Rat Livers Subjected to Normothermic Machine Perfusion

Author

Caterina Lonati, Daniele Dondossola, Laimdota Zizmare, Michele Battistin, Leonie Wüst, Luigi Vivona, Margherita Carbonaro, Alberto Zanella, Stefano Gatti, Andrea Schlegel, and Christoph Trautwein

Subjects
nuclear magnetic resonance (NMR) spectroscopy, liver machine perfusion (MP), ischemia/reperfusion (IR), mitochondrial metabolism, tricarboxylic acid (TCA) cycle, preclinical research, Biology (General), QH301-705.5
Abstract

Machine perfusion (MP) allows the maintenance of liver cells in a metabolically active state ex vivo and can potentially revert metabolic perturbations caused by donor warm ischemia, procurement, and static cold storage (SCS). The present preclinical research investigated the metabolic outcome of the MP procedure by analyzing rat liver tissue, bile, and perfusate samples by means of high-field (600 MHz) nuclear magnetic resonance (NMR) spectroscopy. An established rat model of normothermic MP (NMP) was used. Experiments were carried out with the addition of an oxygen carrier (OxC) to the perfusion fluid (OxC-NMP, n = 5) or without (h-NMP, n = 5). Bile and perfusate samples were collected throughout the procedure, while biopsies were only taken at the end of NMP. Two additional groups were: (1) Native, in which tissue or bile specimens were collected from rats in resting conditions; and (2) SCS, in which biopsies were taken from cold-stored livers. Generally, NMP groups showed a distinctive metabolomic signature in all the analyzed biological matrices. In particular, many of the differentially expressed metabolites were involved in mitochondrial biochemical pathways. Succinate, acetate, 3-hydroxybutyrate, creatine, and O-phosphocholine were deeply modulated in ex vivo perfused livers compared to both the Native and SCS groups. These novel results demonstrate a broad modulation of mitochondrial metabolism during NMP that exceeds energy production and redox balance maintenance.

Published
2022
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16. Alkaline Liquid Ventilation of the Membrane Lung for Extracorporeal Carbon Dioxide Removal (ECCO2R): In Vitro Study

Author

Luigi Vivona, Michele Battistin, Eleonora Carlesso, Thomas Langer, Carlo Valsecchi, Sebastiano Maria Colombo, Serena Todaro, Stefano Gatti, Gaetano Florio, Antonio Pesenti, Giacomo Grasselli, and Alberto Zanella

Subjects
extracorporeal CO2 removal, liquid ventilation, membrane lung, Chemical technology, TP1-1185, Chemical engineering, TP155-156
Abstract

Extracorporeal carbon dioxide removal (ECCO2R) is a promising strategy to manage acute respiratory failure. We hypothesized that ECCO2R could be enhanced by ventilating the membrane lung with a sodium hydroxide (NaOH) solution with high CO2 absorbing capacity. A computed mathematical model was implemented to assess NaOH–CO2 interactions. Subsequently, we compared NaOH infusion, named “alkaline liquid ventilation”, to conventional oxygen sweeping flows. We built an extracorporeal circuit with two polypropylene membrane lungs, one to remove CO2 and the other to maintain a constant PCO2 (60 ± 2 mmHg). The circuit was primed with swine blood. Blood flow was 500 mL × min−1. After testing the safety and feasibility of increasing concentrations of aqueous NaOH (up to 100 mmol × L−1), the CO2 removal capacity of sweeping oxygen was compared to that of 100 mmol × L−1 NaOH. We performed six experiments to randomly test four sweep flows (100, 250, 500, 1000 mL × min−1) for each fluid plus 10 L × min−1 oxygen. Alkaline liquid ventilation proved to be feasible and safe. No damages or hemolysis were detected. NaOH showed higher CO2 removal capacity compared to oxygen for flows up to 1 L × min−1. However, the highest CO2 extraction power exerted by NaOH was comparable to that of 10 L × min−1 oxygen. Further studies with dedicated devices are required to exploit potential clinical applications of alkaline liquid ventilation.

Published
2021
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17. Bedside selection of positive end-expiratory pressure by electrical impedance tomography in hypoxemic patients: a feasibility study

Author

Nilde Eronia, Tommaso Mauri, Elisabetta Maffezzini, Stefano Gatti, Alfio Bronco, Laura Alban, Filippo Binda, Tommaso Sasso, Cristina Marenghi, Giacomo Grasselli, Giuseppe Foti, Antonio Pesenti, and Giacomo Bellani

Subjects
EIT, PEEP, Overdistension, Recruitment, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9
Abstract

Abstract Background Positive end-expiratory pressure (PEEP) is a key element of mechanical ventilation. It should optimize recruitment, without causing excessive overdistension, but controversy exists on the best method to set it. The purpose of the study was to test the feasibility of setting PEEP with electrical impedance tomography in order to prevent lung de-recruitment following a recruitment maneuver. We enrolled 16 patients undergoing mechanical ventilation with PaO2/FiO2

Published
2017
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18. ABO blood types and major outcomes in patients with acute hypoxaemic respiratory failure: A multicenter retrospective cohort study.

Author

Emanuele Rezoagli, Stefano Gatti, Silvia Villa, Giulia Villa, Stefano Muttini, Fabio Rossi, Loredana Faraldi, Roberto Fumagalli, Giacomo Grasselli, Giuseppe Foti, and Giacomo Bellani

Subjects
Medicine, Science
Abstract

INTRODUCTION:ABO blood type A was reported to correlate with an increased risk of acute respiratory distress syndrome (ARDS) in white patients with severe sepsis and major trauma compared with patients with other blood types. Information regarding ABO phenotypes and major outcomes in patients with ARDS is unavailable. The primary aim was to determine the relationship between ABO blood type A and intensive care unit (ICU) mortality in patients with acute hypoxemic respiratory failure (AHRF). The secondary aim was to describe the association between ABO blood type A and ICU length of stay (LOS) in this study population. METHODS:In a multicenter, retrospective cohort study, we collected the clinical records of patients admitted from January 2012 to December 2014 in five ICUs of Northern Italy. We included adult white patients admitted to the ICU who were diagnosed with AHRF requiring mechanical ventilation. RESULTS:The electronic records of 1732 patients with AHRF were reviewed. The proportion of patients with ABO blood type A versus other blood types was 39.9% versus 60.1%. ICU mortality (25%) and ICU LOS (median [interquartile range], 5 [2-12] days) were not different when stratified by ABO blood type (ICU mortality, overall p value = 0.905; ICU LOS, overall p value = 0.609). SAPSII was a positive predictor of ICU mortality (odds ration [OR], 32.80; 95% confidence interval [CI], 18.80-57.24; p < 0.001) and ICU LOS (β coefficient, 0.55; 95% CI, 0.35-0.75; p < 0.001) at multivariate analyses, whereas ABO blood type did not predict ICU outcome when forced into the model. CONCLUSION:ABO blood type did not correlate with ICU mortality and ICU LOS in adult patients with AHRF who were mechanically ventilated.

Published
2018
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19. Anti-Differentiation Effect of Oncogenic Met Receptor in Terminally-Differentiated Myotubes

Author

Valentina Sala, Simona Gallo, Stefano Gatti, Elisa Vigna, Antonio Ponzetto, and Tiziana Crepaldi

Subjects
HGF, Met receptor, myogenic stem cells, skeletal muscle, differentiation, proteasome, Erk1,2 MAPK, Biology (General), QH301-705.5
Abstract

Activation of the hepatocyte growth factor/Met receptor is involved in muscle regeneration, through promotion of proliferation and inhibition of differentiation in myogenic stem cells (MSCs). We previously described that the specific expression of an oncogenic version of the Met receptor (Tpr–Met) in terminally-differentiated skeletal muscle causes muscle wasting in vivo. Here, we induced Tpr–Met in differentiated myotube cultures derived from the transgenic mouse. These cultures showed a reduced protein level of myosin heavy chain (MyHC), increased phosphorylation of Erk1,2 MAPK, the formation of giant sacs of myonuclei and the collapse of elongated myotubes. Treatment of the cultures with an inhibitor of the MAPK kinase pathway or with an inhibitor of the proteasome increased the expression levels of MyHC. In addition, the inhibition of the MAPK kinase pathway prevented the formation of myosacs and myotube collapse. Finally, we showed that induction of Tpr–Met in primary myotubes was unable to produce endoreplication in their nuclei. In conclusion, our data indicate that multinucleated, fused myotubes may be forced to disassemble their contractile apparatus by the Tpr–Met oncogenic factor, but they resist the stimulus toward the reactivation of the cell cycle.

Published
2015
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20. HGF/Met Axis in Heart Function and Cardioprotection

Author

Simona Gallo, Valentina Sala, Stefano Gatti, and Tiziana Crepaldi

Subjects
hepatocyte growth factor, Met tyrosine kinase receptor, heart development, cardiotoxicity, cardioprotection, myocardial infarction, angiogenesis, fibrosis, inflammation, cardiac regeneration, Biology (General), QH301-705.5
Abstract

Hepatocyte growth factor (HGF) and its tyrosine kinase receptor (Met) play important roles in myocardial function both in physiological and pathological situations. In the developing heart, HGF influences cardiomyocyte proliferation and differentiation. In the adult, HGF/Met signaling controls heart homeostasis and prevents oxidative stress in normal cardiomyocytes. Thus, the possible cardiotoxicity of current Met-targeted anti-cancer therapies has to be taken in consideration. In the injured heart, HGF plays important roles in cardioprotection by promoting: (1) prosurvival (anti-apoptotic and anti-autophagic) effects in cardiomyocytes, (2) angiogenesis, (3) inhibition of fibrosis, (4) anti-inflammatory and immunomodulatory signals, and (5) regeneration through activation of cardiac stem cells. Furthermore, we discuss the putative role of elevated HGF as prognostic marker of severity in patients with cardiac diseases. Finally, we examine the potential of HGF-based molecules as new therapeutic tools for the treatment of cardiac diseases.

Published
2014
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21. mir-101-3p Downregulation Promotes Fibrogenesis by Facilitating Hepatic Stellate Cell Transdifferentiation During Insulin Resistance

Author

Marica Meroni, Miriam Longo, Veronica Erconi, Luca Valenti, Stefano Gatti, Anna Ludovica Fracanzani, and Paola Dongiovanni

Subjects
nafld, fibrosis, hcc, hepatic stellate cells, mir-101-3p, Nutrition. Foods and food supply, TX341-641
Abstract

Insulin resistance (IR) and microRNAs (miRNAs), which regulate cell-to-cell communication between hepatocytes and hepatic stellate cells (HSCs), may intertwine in nonalcoholic fatty liver disease (NAFLD) pathogenesis. The aim of this study was to evaluate whether epigenetics and environmental factors interact to promote progressive NAFLD during IR. We examined the miRNA signature in insulin receptor haploinsufficient (InsR+/−) and wild-type (wt) HSCs by RNAseq (n = 4 per group). Then, we evaluated their impact in an IR-NASH (nonalcoholic steatohepatitis) model (InsR+/− mice fed standard or methionine choline deficient (MCD) diet, n = 10 per group) and in vitro. InsR+/− HSCs displayed 36 differentially expressed miRNAs (p < 0.05 vs. wt), whose expression was then analyzed in the liver of InsR+/− mice fed an MCD diet. We found that miR-101-3p negatively associated with both InsR+/− genotype and MCD (p < 0.05) and the histological spectrum of liver damage (p < 0.01). miR-101-3p was reduced in InsR+/− hepatocytes and HSCs and even more in InsR+/− cells exposed to insulin (0.33 µM) and fatty acids (0.25 mM), resembling the IR-NASH model. Conversely, insulin induced miR-101-3p expression in wt cells but not in InsR+/− ones (p < 0.05). In conclusion, IR combined with diet-induced liver injury favors miR-101-3p downregulation, which may promote progressive NAFLD through HSC and hepatocyte transdifferentiation and proliferation.

Published
2019
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22. Ex Vivo Lung Perfusion in the Rat: Detailed Procedure and Videos.

Author

Giulia Alessandra Bassani, Caterina Lonati, Daniela Brambilla, Francesca Rapido, Franco Valenza, and Stefano Gatti

Subjects
Medicine, Science
Abstract

Ex vivo lung perfusion (EVLP) is a promising procedure for evaluation, reconditioning, and treatment of marginal lungs before transplantation. Small animal models can contribute to improve clinical development of this technique and represent a substantial platform for bio-molecular investigations. However, to accomplish this purpose, EVLP models must sustain a prolonged reperfusion without pharmacological interventions. Currently available protocols only partly satisfy this need. The aim of the present research was accomplishment and optimization of a reproducible model for a protracted rat EVLP in the absence of anti-inflammatory treatment. A 180 min, uninjured and untreated perfusion was achieved through a stepwise implementation of the protocol. Flow rate, temperature, and tidal volume were gradually increased during the initial reperfusion phase to reduce hemodynamic and oxidative stress. Low flow rate combined with open atrium and protective ventilation strategy were applied to prevent lung damage. The videos enclosed show management of the most critical technical steps. The stability and reproducibility of the present procedure were confirmed by lung function evaluation and edema assessment. The meticulous description of the protocol provided in this paper can enable other laboratories to reproduce it effortlessly, supporting research in the EVLP field.

Published
2016
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23. Proteome Investigation of Rat Lungs Subjected to Ex Vivo Perfusion (EVLP)

Author

Valentina Roffia, Antonella De Palma, Caterina Lonati, Dario Di Silvestre, Rossana Rossi, Marco Mantero, Stefano Gatti, Daniele Dondossola, Franco Valenza, Pierluigi Mauri, and Francesco Blasi

Subjects
proteomics, Ex Vivo Lung Perfusion (EVLP), nanoLC-MS/MS, transplantation, Organic chemistry, QD241-441
Abstract

Ex vivo lung perfusion (EVLP) is an emerging procedure that allows organ preservation, assessment and reconditioning, increasing the number of marginal donor lungs for transplantation. However, physiological and airflow measurements are unable to unveil the molecular mechanisms responsible of EVLP beneficial effects on lung graft and monitor the proper course of the treatment. Thus, it is urgent to find specific biomarkers that possess these requirements but also accurate and reliable techniques that identify them. The purpose of this study is to give an overview on the potentiality of shotgun proteomic platforms in characterizing the status and the evolution of metabolic pathways during EVLP in order to find new potential EVLP-related biomarkers. A nanoLC-MS/MS system was applied to the proteome analysis of lung tissues from an optimized rat model in three experimental groups: native, pre- and post-EVLP. Technical and biological repeatability were evaluated and, together with clustering analysis, underlined the good quality of data produced. In-house software and bioinformatics tools allowed the label-free extraction of differentially expressed proteins among the three examined conditions and the network visualization of the pathways mainly involved. These promising findings encourage further proteomic investigations of the molecular mechanisms behind EVLP procedure.

Published
2018
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24. The Melanocortin System in Control of Inflammation

Author

Anna Catania, Caterina Lonati, Andrea Sordi, Andrea Carlin, Patrizia Leonardi, and Stefano Gatti

Subjects
Technology, Medicine, Science
Abstract

Melanocortin peptides, the collective term for α-, β-, and γ-melanocyte-stimulating hormone (α-, β-, γ-MSH) and adrenocorticotropic hormone (ACTH), are elements of an ancient modulatory system. Natural melanocortins derive from the common precursor pro-opiomelanocortin (POMC). Five receptor subtypes for melanocortins (MC1-MC5) are widely distributed in brain regions and in peripheral cells. Melanocortin receptor activation by natural or synthetic ligands exerts marked anti-inflammatory and immunomodulatory effects. The anticytokine action and the inhibitory influences on inflammatory cell migration make melanocortins potential new drugs for treatment of inflammatory disorders. Effectiveness in treatment of acute, chronic, and systemic inflammatory disorders is well documented in preclinical studies. Further, melanocortins are promising compounds in neuroprotection. This review examines the main signaling circuits in anti-inflammatory and immunomodulatory actions of melanocortins, and the potential therapeutic use of these molecules.

Published
2010
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25. Stem Cell Salvage of Injured Peripheral Nerve

Author

Nadia Grimoldi, Federica Colleoni, Francesca Tiberio, Ignazio G. Vetrano, Alberto Cappellari, Antonella Costa, Marzia Belicchi, Paola Razini, Rosaria Giordano, Diego Spagnoli, Mauro Pluderi, Stefano Gatti, Michela Morbin, Sergio M. Gaini, Paolo Rebulla, Nereo Bresolin, and Yvan Torrente

Subjects
Medicine
Abstract

We previously developed a collagen tube filled with autologous skin-derived stem cells (SDSCs) for bridging long rat sciatic nerve gaps. Here we present a case report describing a compassionate use of this graft for repairing the polyinjured motor and sensory nerves of the upper arms of a patient. Preclinical assessment was performed with collagen/SDSC implantation in rats after sectioning the sciatic nerve. For the patient, during the 3-year follow-up period, functional recovery of injured median and ulnar nerves was assessed by pinch gauge test and static two-point discrimination and touch test with monofilaments, along with electophysiological and MRI examinations. Preclinical experiments in rats revealed rescue of sciatic nerve and no side effects of patient-derived SDSC transplantation (30 and 180 days of treatment). In the patient treatment, motor and sensory functions of the median nerve demonstrated ongoing recovery postimplantation during the follow-up period. The results indicate that the collagen/SDSC artificial nerve graft could be used for surgical repair of larger defects in major lesions of peripheral nerves, increasing patient quality of life by saving the upper arms from amputation.

Published
2015
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26. High fat diet subverts hepatocellular iron uptake determining dysmetabolic iron overload.

Author

Paola Dongiovanni, Claudia Lanti, Stefano Gatti, Raffaela Rametta, Stefania Recalcati, Marco Maggioni, Anna Ludovica Fracanzani, Patrizia Riso, Gaetano Cairo, Silvia Fargion, and Luca Valenti

Subjects
Medicine, Science
Abstract

Increased serum ferritin associated with mild hepatic iron accumulation, despite preserved upregulation of the iron hormone hepcidin, is frequently observed in patients with dysmetabolic overload syndrome (DIOS). Genetic factors and Western diet represent predisposing conditions, but the mechanisms favoring iron accumulation in DIOS are still unclear. Aims of this study were to assess the effect a high-fat diet (HFD) on hepatic iron metabolism in an experimental model in rats, to further characterize the effect of free fatty acids on iron metabolism in HepG2 hepatocytes in vitro, and to assess the translational relevance in patients with fatty liver with and without iron accumulation. Despite decreased uptake of dietary iron, rats fed HFD accumulated more hepatic iron than those fed regular diet, which was associated with steatosis development. Hepatic iron accumulation was paralleled by induction of ferritin, in the presence of preserved upregulation of hepcidin, recapitulating the features of DIOS. HFD was associated with increased expression of the major iron uptake protein Transferrin receptor-1 (TfR-1), consistently with upregulation of the intracellular iron sensor Iron regulated protein-1 (IRP1). Supplementation with fatty acids induced TfR-1 and IRP1 in HepG2 hepatocytes, favoring intracellular iron accumulation following exposure to iron salts. IRP1 silencing completely abrogated TfR-1 induction and the facilitation of intracellular iron accumulation induced by fatty acids. Hepatic TfR-1 mRNA levels were upregulated in patients with fatty liver and DIOS, whereas they were not associated with liver fat nor with inflammation. In conclusion, increased exposure to fatty acids subverts hepatic iron metabolism, favoring the induction of an iron uptake program despite hepatocellular iron accumulation.

Published
2015
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27. Novel α-MSH peptide analogues with broad spectrum antimicrobial activity.

Author

Paolo Grieco, Alfonso Carotenuto, Luigia Auriemma, Antonio Limatola, Salvatore Di Maro, Francesco Merlino, Maria Luisa Mangoni, Vincenzo Luca, Antonio Di Grazia, Stefano Gatti, Pietro Campiglia, Isabel Gomez-Monterrey, Ettore Novellino, and Anna Catania

Subjects
Medicine, Science
Abstract

Previous investigations indicate that α-melanocyte-stimulating hormone (α-MSH) and certain synthetic analogues of it exert antimicrobial effects against bacteria and yeasts. However, these molecules have weak activity in standard microbiology conditions and this hampers a realistic clinical use. The aim in the present study was to identify novel peptides with broad-spectrum antimicrobial activity in growth medium. To this purpose, the Gly10 residue in the [DNal(2')-7, Phe-12]-MSH(6-13) sequence was replaced with conventional and unconventional amino acids with different degrees of conformational rigidity. Two derivatives in which Gly10 was replaced by the residues Aic and Cha, respectively, had substantial activity against Candida strains, including C. albicans, C. glabrata, and C. krusei and against gram-positive and gram-negative bacteria. Conformational analysis indicated that the helical structure along residues 8-13 is a key factor in antimicrobial activity. Synthetic analogues of α-MSH can be valuable agents to treat infections in humans. The structural preferences associated with antimicrobial activity identified in this research can help further development of synthetic melanocortins with enhanced biological activity.

Published
2013
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28. Early and late de novo tumors after liver transplantation in adults: the late onset of bladder tumors in men.

Author

Umberto Maggi, Dario Consonni, Matteo Angelo Manini, Stefano Gatti, Francesco Cuccaro, Francesca Donato, Grazia Conte, Pier Alberto Bertazzi, and Giorgio Rossi

Subjects
Medicine, Science
Abstract

BACKGROUND: De novo tumors (DNT) after liver transplantation (LT) represent a growing concern. PATIENTS AND METHODS: We analyzed the incidence of DNT, type, time of onset, risk factors and mortality (as of 2010) in 494 adult patients transplanted in the last 26 years (1983-2009). RESULTS: DNT occurred in 41 (8.3%) of the patients. The Standardized Incidence Ratio (SIR) compared with the Italian population was 1.8. There was a higher incidence in males (SIR 2.0), an expected extremely high rate of Kaposi's sarcoma (SIR 127.95) and unexpected higher rates of tumors of the bladder in males (SIR 3.3). The incidence of DNT was higher within the first two years of LT (SIR 2.7) for Kaposi's sarcoma (SIR 393.3) and after 10 years (SIR 1.7) for bladder tumors (SIR 10.6). Multivariate analysis identified alcoholic cirrhosis (HR = 3.0, 95% CI = 1.2-7.8) and sclerosing cholangitis (HR = 3.5, 95% CI = 1.1-11.3) in the recipient as main risk factors for the occurrence of DNT. CONCLUSIONS: Surveillance protocols for DNT must be specifically oriented to patients transplanted for alcoholic cirrhosis and sclerosing cholangitis. They should focus on early detection of Kaposi's sarcomas, and more remarkably, on late development bladder tumors in men after LT.

Published
2013
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29. Sodium bicarbonate treatment during transient or sustained lactic acidemia in normoxic and normotensive rats.

Author

Franco Valenza, Marta Pizzocri, Valentina Salice, Giorgio Chevallard, Tommaso Fossali, Silvia Coppola, Sara Froio, Federico Polli, Stefano Gatti, Francesco Fortunato, Giacomo P Comi, and Luciano Gattinoni

Subjects
Medicine, Science
Abstract

INTRODUCTION: Lactic acidosis is a frequent cause of poor outcome in the intensive care settings. We set up an experimental model of lactic acid infusion in normoxic and normotensive rats to investigate the systemic effects of lactic acidemia per se without the confounding factor of an underlying organic cause of acidosis. METHODOLOGY: Sprague Dawley rats underwent a primed endovenous infusion of L(+) lactic acid during general anesthesia. Normoxic and normotensive animals were then randomized to the following study groups (n = 8 per group): S) sustained infusion of lactic acid, S+B) sustained infusion+sodium bicarbonate, T) transient infusion, T+B transient infusion+sodium bicarbonate. Hemodynamic, respiratory and acid-base parameters were measured over time. Lactate pharmacokinetics and muscle phosphofructokinase enzyme's activity were also measured. PRINCIPAL FINDINGS: Following lactic acid infusion blood lactate rose (P

Published
2012
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30. Visceral artery aneurysms in liver transplant candidates and in patients after liver transplantation.

Author

Umberto Maggi, Daniele Dondossola, Dario Consonni, Stefano Gatti, Rossella Arnoldi, Manuela Bossi, and Giorgio Rossi

Subjects
Medicine, Science
Abstract

There are only few reviews concerning visceral aneurysms in cirrhotics, and a small number of papers on visceral aneurysms in liver transplant patients. The present paper investigates this condition in both groups of patients in a 10-year-retrospective study.

Published
2011
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34. Murcia Solar Power Plant

Author

Stefano Gatti, Daniele Corbino, Alessandro Steffanoni, and Mattia Pianorsi

Published
2024

38. Credit Risk in Project Finance Transactions

Author

Stefano Gatti

Subjects
Finance, Credit history, business.industry, Project finance, Structured finance, Credit reference, Financial risk management, Basel II, Business, Credit enhancement, Credit risk
Abstract

The peculiar characteristics of Project finance compared to standard corporate loans pose relevant problems to credit risk managers in terms of methodologies and metrics for credit risk measurement. The issue is even more important as long as capital regulation and Basel II and III rules are concerned. Although theory and practice have clarified the main pillars of credit risk measurement and management for corporate loans, little is still known about the quantification of credit risk for structured transactions in project finance. After a review of the Basel Committee framework for credit risk in specialized lending (SL) and of the recent reforms triggered by the financial turmoil of the past few years, the chapter presents empirical data about default and recovery rates for project finance deals and shows that project finance is a very resilient asset class even in periods of severe financial distress. The chapter introduces also the concept of Value at Risk (VaR) and presents a specifically designed methodology for the quantification of the value at risk of project finance deals.

Published
2024

40. Italy Water System

Author

Stefano Gatti, Alessandro Steffanoni, and Daniele Corbino

Published
2024

42. Valuing the Project and Project Cash Flow Analysis

Author

STEFANO GATTI

Subjects
Finance, Corporate finance, Subordinated debt, Capital structure, business.industry, Debt, media_common.quotation_subject, Project finance, Cash flow, Business, Debt service coverage ratio, Valuation (finance), media_common
Abstract

Since project finance is based on loans with no or limited recourse on project sponsors, both lenders and SPV shareholders must carefully assess the ability of the venture to generate sufficient cash flows to repay operating costs, debt service, and dividends to sponsors. In turn, interest and principal payments on loans, together with dividends, are determined by the selected capital structure (i.e., the mix of debt, subordinated debt, and equity) agreed between banks and shareholders. In this chapter, we first focus on the estimation of project cash flows during the different life cycle phases of the initiative and analyze the set of inputs needed for the valuation. Then, in Section 2, we discuss how to identify a sustainable capital structure. Sustainability is based on a satisfactory level of profitability for shareholders and banks but also requires the assessment of financial sustainability by means of specially designed cover ratios (Section 3). Section 4 presents an introduction to the valuation of project risk and the use of simulation techniques, sensitivity, and scenario analysis.

Published
2024

45. Enhanced extracorporeal carbon dioxide removal by acidification and metabolic control

Author

Gaetano FLORIO, Carlo VALSECCHI, Luigi VIVONA, Michele BATTISTIN, Sebastiano M. COLOMBO, Emanuele CATTANEO, Ilaria PROTTI, Marianna DI FELICIANTONIO, Gloria CASTELLI, Daniele DONDOSSOLA, Osvaldo BIANCOLILLI, Andrea CARLIN, Stefano GATTI, Antonio M. PESENTI, Alberto ZANELLA, and Giacomo GRASSELLI

Subjects
Anesthesiology and Pain Medicine
Published
2023

46. Do shareholders really matter for firm performance? Evidence from the ownership characteristics of Italian listed companies

Author

Stefano Caselli, Stefano Gatti, Carlo Chiarella, Gimede Gigante, and Giulia Negri

Subjects
Economics and Econometrics, FIRM PERFORMANCE, CORPORATE GOVERNANCE, SHAREHOLDER CHARACTERISTICS, ITALIAN LISTED COMPANIES, FAMILY-CONTROLLED OWNERSHIP, FOREIGNER OWNERSHIP, CORPORATE GOVERNANCE, ITALIAN LISTED COMPANIES, FAMILY-CONTROLLED OWNERSHIP, SHAREHOLDER CHARACTERISTICS, Finance, FOREIGNER OWNERSHIP, FIRM PERFORMANCE
Published
2023

47. Does asset encumbrance affect bank risk? Evidence from covered bonds

Author

Stefano Gatti, Emilia Garcia-Appendini, Giacomo Nocera, University of Zurich, and Garcia-Appendini, Emilia

Subjects
Economics and Econometrics, Asset encumbrance, Debt priority, Instrumental variable, Sample (statistics), ASSET ENCUMBRANCE, COVERED BOND, MARKET DISCIPLINE, DEBT PRIORITY, BANK RISK, 2002 Economics and Econometrics, Monetary economics, Affect (psychology), Market discipline, Bank risk, 10003 Department of Banking and Finance, Market liquidity, 330 Economics, Covered bond, 2003 Finance, Encumbrance, Business, Asset (economics), Finance
Abstract

Theories suggest that asset encumbrance, the ring-fencing of certain assets for protected debtholders, can affect banks’ risk taking and lead to funding instability. We test these hypotheses using a unique, hand-collected dataset on outstanding covered bonds issued by a sample of listed European banks. Our results suggest that the effect of asset encumbrance on risk depends on the proportion of debtholders exerting market discipline and on the bank’s liquidity buffers. We deal with concerns regarding omitted variables and reverse causality using several fixed effects estimations and an instrumental variables approach.

Published
2023

48. Helmet and face mask for non-invasive respiratory support in patients with acute hypoxemic respiratory failure: A retrospective study

Author

Asia Borgo, Silvia Villa, Giuseppe Foti, Giacomo Bellani, Emanuele Rezoagli, Vincenzo Russotto, Alberto Lucchini, Stefano Gatti, Rezoagli, E, Villa, S, Gatti, S, Russotto, V, Borgo, A, Lucchini, A, Foti, G, and Bellani, G

Subjects
medicine.medical_specialty, medicine.medical_treatment, Respiratory physiology, Critical Care and Intensive Care Medicine, Helmet CPAP, 03 medical and health sciences, 0302 clinical medicine, Noninvasive respiratory support, medicine, Humans, Intubation, Prospective Studies, Prospective cohort study, Acute hypoxemic respiratory failure, Retrospective Studies, Noninvasive Ventilation, business.industry, Incidence (epidemiology), Confounding, Masks, 030208 emergency & critical care medicine, Retrospective cohort study, Length of Stay, Face mask ventilation, Respiratory Insufficiency, 030228 respiratory system, Emergency medicine, Observational study, business
Abstract

Purpose Non-invasive respiratory support could reduce the incidence of intubation in patients with Acute Hypoxemic Respiratory Failure (AHRF). The optimal interface or modality of non-invasive respiratory support is debated. We sought to evaluate the differences between patients who succeeded or failed non-invasive respiratory support, with a specific focus on the type of non-invasive respiratory support (i.e. helmet CPAP versus face mask NIV). Materials and methods In a single-center observational retrospective study, we investigated baseline, clinical characteristics and AHRF management by non-invasive respiratory support between January 2015 to December 2016. Data on gas exchange and respiratory mechanics, non-invasive respiratory support duration, ICU length of stay and mortality were collected. Results 110 patients with AHRF were included of which 41 patients (37%) were intubated. The use of helmet CPAP (p = 0.016) and a lower fluid balance (p = 0.038) were independently associated with a decreased rate of intubation after adjustment for confounders. Face mask NIV patients trended to a higher respiratory frequency at 1 h after treatment [28 (22–36) versus 24 (18–29) hours, p = 0.067], and showed a longer ICU stay (p = 0.009) compared to patients treated with helmet CPAP. Conclusions Helmet CPAP and a lower fluid balance were independent predictors of a lower intubation rate in AHRF patients in ICU. Prospective studies aimed at identifying the optimal interface and modality of non-invasive respiratory support in AHRF patients are needed.

Published
2021

49. Addition of 5% CO2 to Inspiratory Gas Prevents Lung Injury in an Experimental Model of Pulmonary Artery Ligation

Author

Gianluca Lopez, Eleonora Scotti, Stefano Ferrero, Valentina Vaira, Alessandra Mazzucco, Elena Spinelli, Tommaso Mauri, Ines Marongiu, Michele Battistin, Osvaldo Biancolilli, Thomas Langer, Francesca Roma, Giulia Colussi, Caterina Lonati, Stefano Gatti, Antonio Pesenti, Leonardo Manesso, Lorenzo Rosso, Yu Mei Wang, Alberto Zanella, Marongiu, I, Spinelli, E, Scotti, E, Mazzucco, A, Wang, Y, Manesso, L, Colussi, G, Biancolilli, O, Battistin, M, Langer, T, Roma, F, Lopez, G, Lonati, C, Vaira, V, Rosso, L, Ferrero, S, Gatti, S, Zanella, A, Pesenti, A, and Mauri, T

Subjects
Pulmonary and Respiratory Medicine, medicine.medical_specialty, Critical Care, VILI, Lung injury, Critical Care and Intensive Care Medicine, Ischemia, medicine.artery, Internal medicine, medicine, Humans, Lung, inhalation, CO2 inhalation, Experimental model, business.industry, Original Articles, Carbon Dioxide, pulmonary perfusion, CO, Reperfusion Injury, Pulmonary artery, Cardiology, Ligation, business, therapeutic hypercapnia
Abstract

Rationale: Unilateral ligation of the pulmonary artery may induce lung injury through multiple mechanisms, which might be dampened by inhaled CO2. Objectives: This study aims to characterize bilateral lung injury owing to unilateral ligation of the pulmonary artery in healthy swine undergoing controlled mechanical ventilation and its prevention by 5% CO2 inhalation and to investigate relevant pathophysiological mechanisms. Methods: Sixteen healthy pigs were allocated to surgical ligation of the left pulmonary artery (ligation group), seven to surgical ligation of the left pulmonary artery and inhalation of 5% CO2 (ligation + FiCO2 5%), and six to no intervention (no ligation). Then, all animals received mechanical ventilation with Vt 10 ml/kg, positive end-expiratory pressure 5 cm H2O, respiratory rate 25 breaths/min, and FiO2 50% (±FiCO2 5%) for 48 hours or until development of severe lung injury. Measurements and Main Results: Histological, physiological, and quantitative computed tomography scan data were compared between groups to characterize lung injury. Electrical impedance tomography and immunohistochemistry analysis were performed in a subset of animals to explore mechanisms of injury. Animals from the ligation group developed bilateral lung injury as assessed by significantly higher histological score, larger increase in lung weight, poorer oxygenation, and worse respiratory mechanics compared with the ligation + FiCO2 5% group. In the ligation group, the right lung received a larger fraction of Vt and inflammation was more represented, whereas CO2 dampened both processes. Conclusions: Mechanical ventilation induces bilateral lung injury within 48 hours in healthy pigs undergoing left pulmonary artery ligation. Inhalation of 5% CO2 prevents injury, likely through decreased stress to the right lung and antiinflammatory effects.

Published
2021

50. Inhaled CO

Author

Elena, Spinelli, Antonio, Pesenti, Gianluca, Lopez, Anna, Damia, Francesco, Damarco, Erica, Garbelli, Gaia, Dal Santo, Alessio, Caccioppola, Giorgio, Giudici, Virginia, Figgiaconi, Osvaldo, Biancolilli, Michele, Battistin, Caterina, Lonati, Valentina, Vaira, Lorenzo, Rosso, Stefano, Ferrero, Stefano, Gatti, and Tommaso, Mauri

Abstract

Unilateral ligation of the pulmonary artery (UPAL) induces bilateral lung injury in pigs undergoing controlled mechanical ventilation. Possible mechanisms include redistribution of ventilation toward the non-ligated lung and hypoperfusion of the ligated lung. The addition of 5% COHealthy pigs underwent left UPAL and were allocated for 48 h to the following: Volume-controlled ventilation (VCV) with VIn the left ligated lung, injury was prevented only in the FiCOIn a model of UPAL, inhaled CO

Published
2022

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