Edward F. Coyle, Ph.D.

Professor, Kinesiology & Health Education
Coordinator of Sports Science & Nutrition

Bellmont Hall 822G
The University of Texas
Austin, TX 78712

Phone: 512-471-8596; Fax: 512-471-0946
E-mail: coyle@mail.utexas.edu
Mail Code: D - 3700

Laboratory: Human Performance Laboratory
Web Site: www.edb.utexas.edu/coyle/
Courses: See Below.

Education

• 1975 Queens College, CUNY, New York B.A. Physical Education
• 1976 Ball State University, Muncie, IN M.A. Exercise Physiology
• 1979 The University of Arizona Ph.D. Animal Physiology
• 1979-1982 Washington University Medical School NIH post-doc Applied Physiology

Professional Experience

• 1979-1982: Postdoctoral Research Fellow, Division of Applied Physiology, Department of Preventive Medicine, Washington University Medical School
• 1982-present Professor; Department of Kinesiology and Health Education, University of Texas at Austin

Honors (selected)

• Keynote Speaker: 5th International Olympic Committee World Congress on Sport Sciences (1999)
• Co-Editor-in-Chief, International Journal of Sports Medicine (1992-1994)
  Fellow (#378) of the American Academy of Kinesiology and Physical Education (1997)
• Environmental and Exercise Physiology Steering Committee Member of Amer. Physiol.. Society (1997-2000)

Recent Publications (data-based)

• COYLE EF. Cardiovascular drift during prolonged exercise.p.153-172. In: Exercise, Nutrition and Environmental Stress. Editors: H. Nose, L. Spriet and K. Imaizumi. Cooper Publishing Group. 2002.
• Mora-Rodriguez R, Hodgkinson BJ, Byerley LO and Coyle EF. Effects of ß-adrenergic receptor stimulation and blockade on substrate metabolism during submaximal exercise. American Journal of Physiology Physiology: Endocrinol. Metab. 280:E752-760, 2001.
• COYLE EF, JEUKENDRUP AE, OSETO MC, HODGKINSON BJ, AND ZDERIC TW. Low-fat diet alters intramusculat substrates and reduces lipolysis and fat oxidation during exercise. American Journal of Physiology Physiology: Endocrinol. Metab. 280(3): E391-398, 2001.
• Martin JC, Diedrich D, Coyle EF: Learning effects associated with maximal power testing: implications for validity. International Journal of Sports Medicine 21(7): 485-487, 2000.
• Romijn, J.A., Coyle EF, Sidossis LS, Rosenblatt J, Wolfe RR. Substrate metabolism during different exercise intensities in endurance-trained women. Journal of Applied Physiology Physiology 88:1707-1714, 2000.
• Mora-Rodriguez R, Coyle EF: Effects of plasma epinephrine on fat metabolism during exercise: interactions with exercise intensity. American Journal of Physiology Physiology: Endocrinol. Metab. 278: E669-676, 2000.
• Fritzsche RG, Coyle EF: Cutaneous blood flow during exercise is higher in endurance-trained humans Journal of Applied Physiology Physiology 88: 738-744, 2000.
• Fritzsche RG, Switzer TW, Hodgkinson BJ, Lee SH, Coyle EF: Water and carbohydrate ingestion during prolonged exercise increase maximal neuromuscular power Journal of Applied Physiology 88: 730-737, 2000.
• Gonzalez-Alonso J, Mora-Rodriguez R, Coyle EF: Stroke volume during exercise: influence of environment and hydration. American Journal of Physiology (Heart Circ. Physiol.) 278: H321-H330, 2000.
• Horowitz JF, Mora-Rodriguez R, Byerley LO, Coyle EF: Pre-exercise medium chain triglyceride ingestion does not reduce muscle glycogen utilization during high intensity exercise. Journal of Applied Physiology 88(1): 219-225, 2000.

Courses Taught

• KIN 352K - Sports Nutrition (undergraduate)
• KIN 395 - Sports Nutrition (graduate)
• KIN 395 - Conditioning for Competitive Athletics