Areas of Study
The Athletic Training Research Laboratory (ATRL) agenda focuses upon investigating the delivery of clinical health services to physically active individuals including the pathoetiology, prevention, assessment, and treatment of athletic, and orthopaedic health conditions. Specific themes of research include: the mechanical and functional instabilities of joints, clinical therapeutic modalities, health-related quality of life outcomes, athletic training education and sports injury epidemiology. Didactic coursework in athletic training and sports medicine is complemented by courses in biomechanics and locomotion studies, motor control, exercise physiology, and statistics and research design.
Biomechanics is the study of the structure and function of biological systems by means of the methods of mechanics. Therefore biomechanics uses expertise from disciplines such as engineering, anatomy, aerospace, rehabilitation, medicine, orthopaedics, sport science, and many others. It studies animal, human, and plant structure and motion.
Major research thrusts include the application of biomechanical principles to motor control and neurological problems, understanding how muscle properties dictate the coordination of movement, exploring the mechanical behavior of musculoskeletal structures at the tissue level, and exploring innovative solutions to orthopaedic problems.
Exercise physiology is the study of the body's systems during acute and chronic exercise .Faculty study function and adaptation to acute and chronic exercise and environmental stresses across the lifespan. Research areas include aging, cardiovascular disease, muscle growth and atrophy, bone health and reproductive function. Our multidisciplinary approach to health and the biology of physical activity utilizes methods ranging from molecular and cellular to human integrative biology.
Current research focuses include role of sport in the creation of modern societies, the ethics of fair play, the mind-body problem, and the nature of play.
Motor Control faculty examine the cognitive, neurophysiological, and biomechanical foundations of voluntary movements and postural control. Patients with neurological disorders, including stroke, Parkinson’s Disease, and specific neuropathies are also examined in order to better understand the neural foundations of basic motor control mechanisms, and in order to understand motor dysfunction and recovery of function. Intervention research addresses the facilitation of motor recovery following nervous system injury. Experimental methods include but are not limited to movement tracking and kinematic analysis, biomechanical analyses, electromyography, brain electrophysiology and imaging, movement and control based simulations.
Research themes include: developing, evaluating, and optimizing physical activity interventions; psychobehavioral determinants and outcomes; physical activity, public health and health disparities; group dynamics; and neuropsychological aspects of traumatic brain injury in sport. We often leave the lab to study personal and community environments, with innovative research employing personal devices to study health behavior.