Physiological consequences of intermittent exercise during compensable and uncompensable heat stress

• Published in: Journal of applied physiology (1985) Vol. 71; no. 6; p. 2138
• Main Authors: Kraning, 2nd, K K, Gonzalez, R R
• Format: Journal Article
• Language: English
• Published: United States 01.12.1991
• Subjects: Adult; Body Temperature Regulation - physiology; Calorimetry; Exercise - physiology; Heart Rate - physiology; Hot Temperature - adverse effects; Humans; Male; Models, Biological; Physical Endurance - physiology; Skin - blood supply; Skin Temperature - physiology; Stress, Physiological - physiopathology
• ISSN: 8750-7587
• DOI: 10.1152/jappl.1991.71.6.2138

Time-weighted averaging is a traditional method used in heat stress analyses to approximate, in terms of a single continuous level of heat production, the rate of heat production from complex intermittent exercise patterns. Physiological responses during intermittent and continuous exercise were studied in four subjects exposed to heat stress in which evaporation was either free or severely restricted. Intermittent work consisted of repeated 10-min exercise-rest patterns. Continuous work was at the time-weighted average of intermittent exercise: 3.3 mets. When heat stress was uncompensable, intermittent work induced more physiological strain than continuous work: endurance time was 14 min less (P less than 0.05); core temperature at 60 min was 0.40 degrees C higher (P less than 0.05); and, after 30 min of exposure, the rate of core temperature rise was 33% greater. The difference in the rate of heat storage was not satisfactorily explained by a discrepancy in the average rate of heat production or in the calculated rate of surface heat loss. Alternatively, the results may be partially explained by interruptions in the usual rate of heat transport via the cutaneous circulation. These interruptions may be caused by nonthermal factors associated with postural and work load transitions. Although the mechanisms are not totally understood, it is clear that application of the time-weighted averaging method can lead to erroneous overprediction of endurance time and should be applied with discretion.