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School: Joint Health Sciences Department: Graduate Biomedical Sciences | |||||||||
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CRN | Subj | Num | Title | Level | Min CR | Max CR | Schedule Type | Status | GMOD * Default |
36297 | GBS | 746J | JC- Exercise Medicine | Graduate Non-Degree Graduate |
1 |
|
Lecture |
Active | Pass-Fail* Standard Letter |
No comments found |
Section Comments | |||||||||||
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Exercise training in various forms induces a complex array of coordinated cellular and molecular processes that improve symptoms and co-morbidities associated with numerous chronic conditions including musculoskeletal, cardiorespiratory, metabolic, immunologic, and neurologic disorders—and disease risks associated with chronic physical inactivity are widespread. Understanding the biological mechanisms underlying exercise-induced adaptations and their clinical utility in disease treatment and prevention is therefore a truly interdisciplinary effort. Students will interact with scientists and clinicians from several disciplines, and will present and discuss the latest and most impactful exercise-based research in both human and animal model systems. |
No prerequisite found |
Description | |||||||||||
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Exercise training in various forms induces a complex array of coordinated cellular and molecular processes that improve symptoms and co-morbidities associated with numerous chronic conditions including musculoskeletal, cardiorespiratory, metabolic, immunologic, and neurologic disorders—and disease risks associated with chronic physical inactivity are widespread. Understanding the biological mechanisms underlying exercise-induced adaptations and their clinical utility in disease treatment and prevention is therefore a truly interdisciplinary effort. Students will interact with scientists and clinicians from several disciplines, and will present and discuss the latest and most impactful exercise-based research in both human and animal model systems. |