Skeletal muscle response to short endurance training in heart transplant recipients

Objectives. We sought to examine the effects of endurance training on the ultrastructural characteristics of skeletal muscle in heart transplant recipients (HTRs) and age-matched control subjects (C). Background. Deconditioning is one of the factors involved in the peripheral limitation of exercise...

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Published in	Journal of the American College of Cardiology Vol. 32; no. 2; pp. 420 - 426
Main Authors	Lampert, Eliane, Mettauer, Bertrand, Hoppeler, Hans, Charloux, Anne, Charpentier, Arnaud, Lonsdorfer, Jean
Format	Journal Article
Language	English
Published	New York, NY Elsevier Inc 01.08.1998 Elsevier Science
Subjects	Adult Anaerobic Threshold - physiology Anatomy, Cross-Sectional Biological and medical sciences Biopsy Capillaries - ultrastructure Case-Control Studies Exercise Test Exercise Therapy Exercise Tolerance Female Heart Transplantation - physiology Heart Transplantation - rehabilitation Humans Immunosuppressive Agents - therapeutic use Male Medical sciences Middle Aged Mitochondria, Muscle - ultrastructure Muscle Fibers, Skeletal - ultrastructure Muscle, Skeletal - anatomy & histology Muscle, Skeletal - diagnostic imaging Muscle, Skeletal - physiology Muscle, Skeletal - ultrastructure Oxygen Consumption - physiology Physical Endurance - physiology Respiration - physiology Surgery (general aspects). Transplantations, organ and tissue grafts. Graft diseases Surgery of the heart Tomography, X-Ray Computed Work Capacity Evaluation CT TGF-β C VEGF V̇O2 HTRs Heart Human Physical training Cardiovascular disease Exploration Transplantation Electron microscopy Homotransplantation Striated muscle Coronary heart disease Treatment Biopsy Ultrastructure Surgery Endurance Rehabilitation Morphometry
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Abstract	Objectives. We sought to examine the effects of endurance training on the ultrastructural characteristics of skeletal muscle in heart transplant recipients (HTRs) and age-matched control subjects (C). Background. Deconditioning is one of the factors involved in the peripheral limitation of exercise capacity of HTRs, and training has proven to be beneficial. Methods. Biopsies of the vastus lateralis muscle, analyzed by ultrastructural morphometry, and quadriceps muscle cross-sectional area, assessed by computed tomography (CT), were performed in 12 HTRs and 7 age-matched C before and 6 weeks after an endurance training program. Maximal oxygen uptake (peak V̇O2) was determined by an incremental exercise test. Additionally muscle biopsies were performed before and after a 6-week control period in four HTRs to check for spontaneous improvement. Results. Training resulted in similar increases in peak V̇O2(11% in HTRs, 8.5% in C), ventilatory threshold (23% in HTRs, 32% in C) and total endurance work (54% in HTRs, 31% in C). Volume density of total mitochondria increased significantly (26% in HTRs, 33% in C) with a predominant increase of subsarcolemmal mitochondrial volume density (74% in HTRs, 70% in C). The capillary/fiber ratio increased by 19% in C only. In the nontrained group, none of the structural markers was spontaneously modified. Conclusions. Six weeks of endurance training in HTRs and C led to similar improvements of aerobic work capacity. However, the decreased muscular capillary network in HTRs remained unchanged with training. Immunosuppressive therapy might be responsible for the discrepancy between the normal mitochondrial content and the reduced capillary supply of these patients.
AbstractList	Objectives. We sought to examine the effects of endurance training on the ultrastructural characteristics of skeletal muscle in heart transplant recipients (HTRs) and age-matched control subjects (C). Background. Deconditioning is one of the factors involved in the peripheral limitation of exercise capacity of HTRs, and training has proven to be beneficial. Methods. Biopsies of the vastus lateralis muscle, analyzed by ultrastructural morphometry, and quadriceps muscle cross-sectional area, assessed by computed tomography (CT), were performed in 12 HTRs and 7 age-matched C before and 6 weeks after an endurance training program. Maximal oxygen uptake (peak V̇O2) was determined by an incremental exercise test. Additionally muscle biopsies were performed before and after a 6-week control period in four HTRs to check for spontaneous improvement. Results. Training resulted in similar increases in peak V̇O2(11% in HTRs, 8.5% in C), ventilatory threshold (23% in HTRs, 32% in C) and total endurance work (54% in HTRs, 31% in C). Volume density of total mitochondria increased significantly (26% in HTRs, 33% in C) with a predominant increase of subsarcolemmal mitochondrial volume density (74% in HTRs, 70% in C). The capillary/fiber ratio increased by 19% in C only. In the nontrained group, none of the structural markers was spontaneously modified. Conclusions. Six weeks of endurance training in HTRs and C led to similar improvements of aerobic work capacity. However, the decreased muscular capillary network in HTRs remained unchanged with training. Immunosuppressive therapy might be responsible for the discrepancy between the normal mitochondrial content and the reduced capillary supply of these patients. We sought to examine the effects of endurance training on the ultrastructural characteristics of skeletal muscle in heart transplant recipients (HTRs) and age-matched control subjects (C). Deconditioning is one of the factors involved in the peripheral limitation of exercise capacity of HTRs, and training has proven to be beneficial. Biopsies of the vastus lateralis muscle, analyzed by ultrastructural morphometry, and quadriceps muscle cross-sectional area, assessed by computed tomography (CT), were performed in 12 HTRs and 7 age-matched C before and 6 weeks after an endurance training program. Maximal oxygen uptake (peak VO2) was determined by an incremental exercise test. Additionally muscle biopsies were performed before and after a 6-week control period in four HTRs to check for spontaneous improvement. Training resulted in similar increases in peak VO2 (11% in HTRs, 8.5% in C), ventilatory threshold (23% in HTRs, 32% in C) and total endurance work (54% in HTRs, 31% in C). Volume density of total mitochondria increased significantly (26% in HTRs, 33% in C) with a predominant increase of subsarcolemmal mitochondrial volume density (74% in HTRs, 70% in C). The capillary/fiber ratio increased by 19% in C only. In the nontrained group, none of the structural markers was spontaneously modified. Six weeks of endurance training in HTRs and C led to similar improvements of aerobic work capacity. However, the decreased muscular capillary network in HTRs remained unchanged with training. Immunosuppressive therapy might be responsible for the discrepancy between the normal mitochondrial content and the reduced capillary supply of these patients. We sought to examine the effects of endurance training on the ultrastructural characteristics of skeletal muscle in heart transplant recipients (HTRs) and age-matched control subjects (C).OBJECTIVESWe sought to examine the effects of endurance training on the ultrastructural characteristics of skeletal muscle in heart transplant recipients (HTRs) and age-matched control subjects (C).Deconditioning is one of the factors involved in the peripheral limitation of exercise capacity of HTRs, and training has proven to be beneficial.BACKGROUNDDeconditioning is one of the factors involved in the peripheral limitation of exercise capacity of HTRs, and training has proven to be beneficial.Biopsies of the vastus lateralis muscle, analyzed by ultrastructural morphometry, and quadriceps muscle cross-sectional area, assessed by computed tomography (CT), were performed in 12 HTRs and 7 age-matched C before and 6 weeks after an endurance training program. Maximal oxygen uptake (peak VO2) was determined by an incremental exercise test. Additionally muscle biopsies were performed before and after a 6-week control period in four HTRs to check for spontaneous improvement.METHODSBiopsies of the vastus lateralis muscle, analyzed by ultrastructural morphometry, and quadriceps muscle cross-sectional area, assessed by computed tomography (CT), were performed in 12 HTRs and 7 age-matched C before and 6 weeks after an endurance training program. Maximal oxygen uptake (peak VO2) was determined by an incremental exercise test. Additionally muscle biopsies were performed before and after a 6-week control period in four HTRs to check for spontaneous improvement.Training resulted in similar increases in peak VO2 (11% in HTRs, 8.5% in C), ventilatory threshold (23% in HTRs, 32% in C) and total endurance work (54% in HTRs, 31% in C). Volume density of total mitochondria increased significantly (26% in HTRs, 33% in C) with a predominant increase of subsarcolemmal mitochondrial volume density (74% in HTRs, 70% in C). The capillary/fiber ratio increased by 19% in C only. In the nontrained group, none of the structural markers was spontaneously modified.RESULTSTraining resulted in similar increases in peak VO2 (11% in HTRs, 8.5% in C), ventilatory threshold (23% in HTRs, 32% in C) and total endurance work (54% in HTRs, 31% in C). Volume density of total mitochondria increased significantly (26% in HTRs, 33% in C) with a predominant increase of subsarcolemmal mitochondrial volume density (74% in HTRs, 70% in C). The capillary/fiber ratio increased by 19% in C only. In the nontrained group, none of the structural markers was spontaneously modified.Six weeks of endurance training in HTRs and C led to similar improvements of aerobic work capacity. However, the decreased muscular capillary network in HTRs remained unchanged with training. Immunosuppressive therapy might be responsible for the discrepancy between the normal mitochondrial content and the reduced capillary supply of these patients.CONCLUSIONSSix weeks of endurance training in HTRs and C led to similar improvements of aerobic work capacity. However, the decreased muscular capillary network in HTRs remained unchanged with training. Immunosuppressive therapy might be responsible for the discrepancy between the normal mitochondrial content and the reduced capillary supply of these patients.
Author	Lonsdorfer, Jean Hoppeler, Hans Mettauer, Bertrand Charpentier, Arnaud Lampert, Eliane Charloux, Anne
Author_xml	– sequence: 1 givenname: Eliane surname: Lampert fullname: Lampert, Eliane email: Eliane.Lampert@chru.strasbourg.fr organization: Service des Explorations Fonctionnelles Respiratoires et de l’Exercice, Hôpitaux Universitaires de Strasbourg, Strasbourg, France – sequence: 2 givenname: Bertrand surname: Mettauer fullname: Mettauer, Bertrand organization: Service des Explorations Fonctionnelles Cardiovasculaires et Service de Chirurgie Cardiovasculaire, Hôpitaux Universitaires de Strasbourg, Strasbourg, France – sequence: 3 givenname: Hans surname: Hoppeler fullname: Hoppeler, Hans organization: Department of Anatomy, University of Bern, Bern, Switzerland – sequence: 4 givenname: Anne surname: Charloux fullname: Charloux, Anne organization: Service des Explorations Fonctionnelles Respiratoires et de l’Exercice, Hôpitaux Universitaires de Strasbourg, Strasbourg, France – sequence: 5 givenname: Arnaud surname: Charpentier fullname: Charpentier, Arnaud organization: Service des Explorations Fonctionnelles Cardiovasculaires et Service de Chirurgie Cardiovasculaire, Hôpitaux Universitaires de Strasbourg, Strasbourg, France – sequence: 6 givenname: Jean surname: Lonsdorfer fullname: Lonsdorfer, Jean organization: Service des Explorations Fonctionnelles Respiratoires et de l’Exercice, Hôpitaux Universitaires de Strasbourg, Strasbourg, France
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Copyright	1998 American College of Cardiology 1998 INIST-CNRS
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Keywords	CT TGF-β C VEGF V̇O2 HTRs Heart Human Physical training Cardiovascular disease Exploration Transplantation Electron microscopy Homotransplantation Striated muscle Coronary heart disease Treatment Biopsy Ultrastructure Surgery Endurance Rehabilitation Morphometry
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Snippet	Objectives. We sought to examine the effects of endurance training on the ultrastructural characteristics of skeletal muscle in heart transplant recipients... We sought to examine the effects of endurance training on the ultrastructural characteristics of skeletal muscle in heart transplant recipients (HTRs) and...
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SubjectTerms	Adult Anaerobic Threshold - physiology Anatomy, Cross-Sectional Biological and medical sciences Biopsy Capillaries - ultrastructure Case-Control Studies Exercise Test Exercise Therapy Exercise Tolerance Female Heart Transplantation - physiology Heart Transplantation - rehabilitation Humans Immunosuppressive Agents - therapeutic use Male Medical sciences Middle Aged Mitochondria, Muscle - ultrastructure Muscle Fibers, Skeletal - ultrastructure Muscle, Skeletal - anatomy & histology Muscle, Skeletal - diagnostic imaging Muscle, Skeletal - physiology Muscle, Skeletal - ultrastructure Oxygen Consumption - physiology Physical Endurance - physiology Respiration - physiology Surgery (general aspects). Transplantations, organ and tissue grafts. Graft diseases Surgery of the heart Tomography, X-Ray Computed Work Capacity Evaluation
Title	Skeletal muscle response to short endurance training in heart transplant recipients
URI	https://dx.doi.org/10.1016/S0735-1097(98)00227-7 https://www.ncbi.nlm.nih.gov/pubmed/9708470 https://www.proquest.com/docview/73828709
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