| Summary: | The purpose of this study was to describe the physiological responses to daily repeated acute but non-competitive prolonged exercise during a 4-day march and a 2-day cross-country ski event to the cardiorespiratory, autonomic nervous, musculoskeletal and endocrine systems. Mood states were also evaluated after these repeated exercises. The data of these short-term follow-up (reversal) field trials was collected from healthy, 23 to 48 year old Finnish male soldiers in 1993 (n=6) and 1994 (n=15) during the "International Four-Day Long-Distance March" in Nijmegen, The Netherlands, and from ten healthy, 22 to 48 year old Finnish male participants in 1995 during a 2-day Finlandia Ski Race in Lahti, Finland. Acute cardiovascular responses were estimated by measuring the heart rate during exercise. The responses of the autonomic nervous system were estimated by measuring the heart rates during the orthostatic test. The musculoskeletal responses were estimated by measuring the perceived pains, flexibility, functional strength, use of elastic energy and oedemic changes of the lower extremities. Hormonal responses were estimated from the urinary excretion of catecholamines, and the concentrations of serum cortisol, testosterone, luteinizing (LH) and follicle stimulating hormone (FSH). Mood states were assessed with the Profile of Mood States (POMS) questionnaire. Daily walking time was 7-10 hours while the skiing time was 3 hours. Average heart rate during walking was 59% and skiing 87% of maximum heart rate. Morning heart rate in the supine position increased progressively through the marching period but not through the skiing experiment. After the first day, perceived pain increased significantly and remained at a similarly increased level until the end of the exercise period. Leg measurements showed no signs of oedema, decreases in flexibility, or functional strength. Catecholamine excretion rates during marches indicated cumulatively increased sympathoadrenal stress. The acute increasing effect of a single walking session on cortisol was seen only after the first day when there was a 60% increase. Responses after skiing were greater (2.2- and 2.6-fold). The acute reductions in testosterone concentrations were seen after the first two marching sessions, when they were decreased by 18-22%. LH concentration was decreased by 31-44% after the second and third day. For FSH concentrations suppression was consistently seen after the second march, but not after skiing. The total mood disturbance score remained unchanged during the events. The Fatigue-Inertia affective state was higher after exercise than before the events. This study demonstrates that the pituitary-gonadal axis, excluding the secretion of FSH and the adrenal cortex, adapted to four days of repeated moderate 8 h walking, but not to two days of repeated strenuous 3 h skiing. However, when using the sensitive IFMA, which can detect low concentrations of gonadotropins, secretion of FSH was seen to remain reduced and no adaptation was seen in walking. This study indicated that daily repeated long lasting acute but non-competitive walk and skiing of intensity at approximately 60-90% of the maximum heart rate is well within the physiological capabilities of individuals with good aerobic capacity.
|
|---|
