men metabolism and acute resistance exercise in trained

You might find this additional information useful... This article cites 35 articles, 8 of which you can access free at: http://jap.physiology.org/cgi/content/full/102/5/1767#BIBL Updated information and services including high-resolution figures, can be found at: http://jap.physiology.org/cgi/content/full/102/5/1767 Additional material and information about Journal of Applied Physiology can be found at: http://www.the-aps.org/publications/jappl This information is current as of May 10, 2007 . € ISSN: 8750-7587, ESSN: 1522-1601. Visit our website at http://www.the-aps.org/.

[1]  M. Manore,et al.  Postexercise oxygen consumption and substrate use after resistance exercise in women. , 2001, Medicine and science in sports and exercise.

[2]  U. Ungerstedt,et al.  Muscle blood flow in cats: comparison of microdialysis ethanol technique with direct measurement. , 1995, Journal of applied physiology.

[3]  C. Melby,et al.  Postexercise energy expenditure in response to acute aerobic or resistive exercise. , 1994, International journal of sport nutrition.

[4]  R. Hickner Applications of Microdialysis in Studies of Exercise , 2000, Exercise and sport sciences reviews.

[5]  Carol Ewing Garber,et al.  ACSM Position Stand: The Recommended Quantity and Quality of Exercise for Developing and Maintaining Cardiorespiratory and Muscular Fitness, and Flexibility in Healthy Adults , 1998 .

[6]  U. Ungerstedt,et al.  Ethanol may be used with the microdialysis technique to monitor blood flow changes in skeletal muscle: dialysate glucose concentration is blood-flow-dependent. , 1991, Acta physiologica Scandinavica.

[7]  T. Kizuka,et al.  The impact of metabolic stress on hormonal responses and muscular adaptations. , 2005, Medicine and science in sports and exercise.

[8]  K. Osterberg,et al.  Effect of acute resistance exercise on postexercise oxygen consumption and resting metabolic rate in young women. , 2000, International journal of sport nutrition and exercise metabolism.

[9]  J. Polák,et al.  Dynamic strength training improves insulin sensitivity and functional balance between adrenergic alpha 2A and beta pathways in subcutaneous adipose tissue of obese subjects , 2005, Diabetologia.

[10]  P. Tesch,et al.  Glycogen and triglyceride utilization in relation to muscle metabolic characteristics in men performing heavy-resistance exercise , 2004, European Journal of Applied Physiology and Occupational Physiology.

[11]  K. Häkkinen,et al.  Enzymatic adaptations consequent to long-term strength training. , 1987, International journal of sports medicine.

[12]  P. Tesch,et al.  Creatine phosphate in fiber types of skeletal muscle before and after exhaustive exercise. , 1989, Journal of applied physiology.

[13]  F. Crampes,et al.  Aerobic training improves exercise-induced lipolysis in SCAT and lipid utilization in overweight men. , 2003, American journal of physiology. Endocrinology and metabolism.

[14]  M. Hulver,et al.  EFFECTS OF LIQUID CARBOHYDRATE INGESTION ON MARKERS OF ANABOLISM FOLLOWING HIGH‐INTENSITY RESISTANCE EXERCISE , 2004, Journal of strength and conditioning research.

[15]  W J Kraemer,et al.  Physiologic Responses to Heavy-Resistance Exercise with Very Short Rest Periods* , 1987, International journal of sports medicine.

[16]  J. P. Miller,et al.  Effects of strength training on total and regional body composition in older men. , 1994, Journal of applied physiology.

[17]  U. Ungerstedt,et al.  The ethanol technique of monitoring local blood flow changes in rat skeletal muscle: implications for microdialysis. , 1992, Acta physiologica Scandinavica.

[18]  T. Stellingwerff,et al.  Decreased PDH activation and glycogenolysis during exercise following fat adaptation with carbohydrate restoration. , 2006, American journal of physiology. Endocrinology and metabolism.

[19]  J. Helge,et al.  Are blood flow and lipolysis in subcutaneous adipose tissue influenced by contractions in adjacent muscles in humans? , 2007, American journal of physiology. Endocrinology and metabolism.

[20]  H. Kuipers,et al.  Intramyocellular lipid and glycogen content are reduced following resistance exercise in untrained healthy males , 2005, European Journal of Applied Physiology.

[21]  G. Dalsky,et al.  Effects of high-intensity strength training on cardiovascular function. , 1984, Medicine and science in sports and exercise.

[22]  J. P. Miller,et al.  Strength training increases resting metabolic rate and norepinephrine levels in healthy 50- to 65-yr-old men. , 1994, Journal of applied physiology.

[23]  U. Ungerstedt,et al.  Muscle blood flow during intermittent exercise: comparison of the microdialysis ethanol technique and 133Xe clearance. , 1994, Clinical science.

[24]  M. Tarnopolsky,et al.  Influence of differing macronutrient intakes on muscle glycogen resynthesis after resistance exercise. , 1998, Journal of applied physiology.

[25]  W J Kraemer,et al.  Endogenous Anabolic Hormonal and Growth Factor Responses to Heavy Resistance Exercise in Males and Females , 1991, International journal of sports medicine.

[26]  G. Grunwald,et al.  Resistance and aerobic exercise have similar effects on 24-h nutrient oxidation. , 2002, Medicine and science in sports and exercise.

[27]  I. Piña,et al.  Resistance Exercise in Individuals With and Without Cardiovascular Disease , 2000 .

[28]  J. Flatt Glycogen levels and obesity. , 1996, International journal of obesity and related metabolic disorders : journal of the International Association for the Study of Obesity.

[29]  R. Mikat,et al.  Effect of an acute period of resistance exercise on excess post-exercise oxygen consumption: implications for body mass management , 2002, European Journal of Applied Physiology.

[30]  W. Siri Body composition from fluid spaces and density: analysis of methods. 1961. , 1993, Nutrition.

[31]  E. Poehlman,et al.  Resistance training and energy balance. , 1998, International journal of sport nutrition.

[32]  C. Melby,et al.  Effect of acute resistance exercise on postexercise energy expenditure and resting metabolic rate. , 1993, Journal of applied physiology.