In this initial course of the Exercise Science undergraduate curriculum, students will be introduced to a broad array of topics within the field. Through an introductory review of body systems and physiological concepts students will gain an understanding and appreciation for the processes of response and adaptation which enhance and improve both health and fitness of people who exercise regularly. Career options will be reviewed and explored giving students an informed exposure to potential areas of future employment.

This course is designed for those who are interested in the science of exercise and fitness for individuals with diagnosed disease states, or high performance requirements. The theoretical and diagnostic value of exercise testing will be reviewed. This information will then be used to create exercise prescriptions and understand the therapeutic benefit that exercise will have on specific conditions such as rheumatoid arthritis, diabetes, hypertension, heart disease, and obesity. High performance individuals functioning in challenging environments such as, astronauts, high altitude climbers, and ultramarathoners will also be considered.

Even the very best athletes experience injury and being able to recognize and respond to those conditions is a crucial skill for those who will work with athletes. Students will learn the signs and symptoms of injury and the process of first response as well as how to support athletes through rehab. Successful students will learn how to incorporate injury reduction techniques into the training programs they develop for the athletes they serve.

Exercise elicits responses and adaptations from the body. In those living with chronic disease, exercise induced metabolic changes improve physiological function, enhancing health and functional capacity, while also reducing the risk of exacerbation or complications. Several chronic conditions will be explored with a culminating focus on the cardiovascular system. Come learn why the cardiovascular system benefits the most while presenting the greatest risk.

Exercise Physiology is the scientific basis for the field of exercise science. This course provides students with an opportunity to deepen their understanding of the body’s responses and adaptations to exercise. Neuromuscular physiology is reviewed along with energy systems and mechanisms of fatigue. The cardiorespiratory system is examined with a focus on control and regulation during activity and there is a look at the physiological components of exercise training. Environmental factors that impact sport activities as well as training techniques which optimize performance will be reviewed. The differences in performance and adaptation that exist between children, adolescents, and adults as well as between males and females will be compared and contrasted. Exercises influence on long term health and fitness will conclude the course. Laboratory experiences will allow students to integrate and apply the concepts of exercise physiology through investigative experiments.

This course provides the opportunity for independent investigation, under faculty supervision, on a subject matter either not included in existing courses or further investigation of a topic of interest presented in another course. A student-driven, faculty-mentored proposal is drafted that describes the plan of work, deliverables expected, evaluation criteria, and possible credit load.

Exercise Physiology is the scientific basis for the field of Exercise Science. This course provides students with an opportunity to deepen their understanding of the body’s responses and adaptations to exercise. Neuromuscular physiology is reviewed along with energy systems and mechanisms of fatigue. The cardiorespiratory system is examined with a focus on control and regulation during activity and there is a look at the physiological components of exercise training. Environmental factors that impact sport activities as well as training techniques which optimize performance will be reviewed. The differences in performance and adaptation that exist between children, adolescents, and adults as well as between males and females will be compared and contrasted. Exercise’s influence on long term health and fitness will conclude the course. Laboratory experiences will allow students to integrate and apply the concepts of exercise physiology through investigative experiments.

This course is an integrated approach to the structure and function of the nervous, endocrine, integumentary, muscular and skeletal systems. Laboratory exercises include histological examination, actual and simulated anatomical dissections, and physiology experiments with human subjects.

This course is an integrated approach to the structure and function of the gastrointestinal, cardiovascular, immunological, respiratory, excretory, and reproductive systems with an emphasis on the maintenance of homeostasis. Laboratory exercises include histological examinations, anatomical dissections and physiological experiments using human subjects.

This course exposes students to details of human anatomy through cadaver dissection. Lecture material stresses functional and clinical correlates corresponding to laboratory exercises.

This introductory course in the Pathophysiology of Disease course sequence will present the physician assistant student with normal and abnormal function of cells in general, illustrating how these cellular abnormalities affect function of specific organ systems. The respiratory, renal, and cardiovascular organ systems will be highlighted and mechanisms of neoplasia will be introduced. The endocrine, and gastrointestinal organ systems will be highlighted.