Mark A Sarzynski1, Jeffrey Burton2, Tuomo Rankinen2, Steven N Blair3, Timothy S Church2, Jean-Pierre Després4, James M Hagberg5, Rian Landers-Ramos5, Arthur S Leon6, Catherine R Mikus7, D C Rao8, Richard L Seip9, James S Skinner10, Cris A Slentz7, Paul D Thompson9, Kenneth R Wilund11, William E Kraus7, Claude Bouchard2. 1. Pennington Biomedical Research Center, Baton Rouge, LA, USA. Electronic address: sarz@mailbox.sc.edu. 2. Pennington Biomedical Research Center, Baton Rouge, LA, USA. 3. Department of Exercise Science, University of South Carolina, Columbia, SC, USA. 4. Centre de Recherche de l'Institut Universitaire de Cardiologie et de Pneumologie de Québec, Québec, Canada. 5. Department of Kinesiology, University of Maryland, College Park, MD, USA. 6. School of Kinesiology, University of Minnesota, Minneapolis, MN, USA. 7. Duke Molecular Physiology Institute, Duke University School of Medicine, Durham, NC, USA. 8. Division of Biostatistics, Washington University School of Medicine, St. Louis, MO, USA. 9. Cardiology Division, Hartford Hospital, Hartford, CT, USA. 10. Indiana University, Bloomington, IN, USA. 11. Department of Kinesiology and Community Health, University of Illinois, Urbana-Champaign, IL, USA.
Abstract
OBJECTIVE: The goal was to examine lipoprotein subclass responses to regular exercise as measured in 10 exercise interventions derived from six cohorts. METHODS: Nuclear magnetic resonance spectroscopy was used to quantify average particle size, total and subclass concentrations of very low-density lipoprotein, low-density lipoprotein, and high-density lipoprotein particles (VLDL-P, LDL-P, and HDL-P, respectively) before and after an exercise intervention in 1555 adults from six studies, encompassing 10 distinct exercise programs: APOE (N = 106), DREW (N = 385), GERS (N = 79), HERITAGE (N = 715), STRRIDE I (N = 168) and II (N = 102). Random-effects meta-analyses were performed to evaluate the overall estimate of mean change across the unadjusted and adjusted mean change values from each exercise group. RESULTS: Meta-analysis of unadjusted data showed that regular exercise induced significant decreases in the concentration of large VLDL-P, small LDL-P, and medium HDL-P and mean VLDL-P size, with significant increases in the concentration of large LDL-P and large HDL-P and mean LDL-P size. These changes remained significant in meta-analysis with adjustment for age, sex, race, baseline body mass index, and baseline trait value. CONCLUSIONS: Despite differences in exercise programs and study populations, regular exercise produced putatively beneficial changes in the lipoprotein subclass profile across 10 exercise interventions. Further research is needed to examine how exercise-induced changes in lipoprotein subclasses may be associated with (concomitant changes in) cardiovascular disease risk.
OBJECTIVE: The goal was to examine lipoprotein subclass responses to regular exercise as measured in 10 exercise interventions derived from six cohorts. METHODS: Nuclear magnetic resonance spectroscopy was used to quantify average particle size, total and subclass concentrations of very low-density lipoprotein, low-density lipoprotein, and high-density lipoprotein particles (VLDL-P, LDL-P, and HDL-P, respectively) before and after an exercise intervention in 1555 adults from six studies, encompassing 10 distinct exercise programs: APOE (N = 106), DREW (N = 385), GERS (N = 79), HERITAGE (N = 715), STRRIDE I (N = 168) and II (N = 102). Random-effects meta-analyses were performed to evaluate the overall estimate of mean change across the unadjusted and adjusted mean change values from each exercise group. RESULTS: Meta-analysis of unadjusted data showed that regular exercise induced significant decreases in the concentration of large VLDL-P, small LDL-P, and medium HDL-P and mean VLDL-P size, with significant increases in the concentration of large LDL-P and large HDL-P and mean LDL-P size. These changes remained significant in meta-analysis with adjustment for age, sex, race, baseline body mass index, and baseline trait value. CONCLUSIONS: Despite differences in exercise programs and study populations, regular exercise produced putatively beneficial changes in the lipoprotein subclass profile across 10 exercise interventions. Further research is needed to examine how exercise-induced changes in lipoprotein subclasses may be associated with (concomitant changes in) cardiovascular disease risk.
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