Brisson G R, Audet A, Ledoux M, Matton P, Pellerin-Massicotte J, Péronnet F
Horm Res. 1986;23(4):200-6. doi: 10.1159/000180324.
Blood prolactin (PRL) variations have been linked to temperature and osmotic changes in several species. The latter factors are here explored to better understand blood PRL responses frequently induced during physical exercise. Since body heat generated by exercise can lead to marked body fluid shifts, it was postulated that PRL changes observed during exercise could be associated with variations in body temperature and/or blood osmolality (OSM). A wide range (38.5-40.5 degrees C) of rectal temperatures (Tr; used here to appreciate core temperatures) were theoretically selected and randomly assigned as targets to male runners. Measured by thermistor probe, target Tr were obtained by a combination of factors: (a) increases heat production by treadmill running, and (b) decreases heat losses by appropriate clothing (decreases evaporation) in warmed (decreases radiation) and hypoventilated (decreases convection) laboratory conditions. For each subject, target Tr was attained not prior to 30 min after initiation of running, and had to be maintained for at least 10 min, for a mean (+/- SD) running time of 52.6 +/- 10.0 min. In a first protocol, hypohydration was provoked in 26 runners (23.9 +/- 4.7 years) by total restriction of water intake. In a second protocol (10 different runners: 22.3 +/- 3.3 years), euhydration was maintained by water intake (20 ml/kg body weight). Venous blood was sampled at rest before and immediately after the run. PRL was assayed by RIA; OSM was measured by freezing point depression; sodium was analyzed by flame photometry. At rest, before the heat-producing exercise, mean PRL values were 9.4 +/- 3.4 ng/ml for both eu/hypohydrated groups.(ABSTRACT TRUNCATED AT 250 WORDS)
在一些物种中,血液催乳素(PRL)的变化与温度和渗透压变化有关。本文探究了后两个因素,以更好地理解体育锻炼期间经常出现的血液PRL反应。由于运动产生的身体热量会导致明显的体液转移,因此推测运动期间观察到的PRL变化可能与体温和/或血液渗透压(OSM)的变化有关。理论上选择了较宽范围(38.5 - 40.5摄氏度)的直肠温度(Tr;此处用于评估核心温度),并将其随机分配给男性跑步者作为目标。通过热敏电阻探头测量,目标Tr是由多种因素共同作用获得的:(a)通过跑步机跑步增加产热,以及(b)在温暖(减少辐射)和通气不足(减少对流)的实验室条件下,通过适当着装(减少蒸发)减少热量损失。对于每个受试者,目标Tr在跑步开始后30分钟内未达到,并且必须维持至少10分钟,平均(±标准差)跑步时间为52.6±10.0分钟。在第一个方案中,通过完全限制水摄入使26名跑步者(23.9±4.7岁)处于低水合状态。在第二个方案中(10名不同的跑步者:22.3±3.3岁),通过摄入水分(20毫升/千克体重)维持正常水合状态。在跑步前休息时和跑步后立即采集静脉血。通过放射免疫分析法测定PRL;通过冰点降低法测量OSM;通过火焰光度法分析钠。在进行产热运动前休息时,正常水合/低水合组的平均PRL值均为9.4±3.4纳克/毫升。(摘要截断于250字)
