机构地区:[1]上海交通大学海洋水下工程科学研究院,上海200231 [2]上海交通大学日本千叶大学联合研究中心,上海200231
出 处:《中华航海医学与高气压医学杂志》2013年第5期307-313,共7页Chinese Journal of Nautical Medicine and Hyperbaric Medicine
摘 要:目的在模拟不同海拔缺氧暴露及氦氧潜水条件下测定潜水员的相关生理指标,探讨不同海拔潜水及体力负荷对人体心、肺功能的影响。方法4名潜水员在高、低压两用舱内,连续9d分别暴露于模拟平原(海拔50m)和海拔3000.4000、5200m环境中,在平原和3000、4000m各逗留2d,5200m逗留3d。分别在3000、4000m模拟30m潜水,1次/d;在5200m的第1天模拟30m潜水,第2天模拟50m潜水,第3天无潜水活动;潜水时间均为60min。每天上午安静环境下,所有被试者静坐10min后测定心率和每搏输出量。测试结束进行体力负荷运动,被试者静坐在自行车功量计上1min后测安静状态下的心率、动脉血氧饱和度(SaO2)、呼出气末端CO2量;然后进行5min蹬车实验,负荷0.5kg,速度为60r/min,用节拍器控制蹬车节奏,测每分钟末心率、SaO2,连续测5min;蹬车结束后,被试者静坐在自行车上休息,测每分钟末心率、SaO:、呼出气末端CO2量,连续测3min。每天下午进行模拟潜水,在潜水停留期间进行心率测试(平原状态不潜水,但进行对比测试)。心率变化值=负荷第5分钟心率一恢复第3分钟心率;根据心率i利用Astrand.P.0列线图,推算出人体的最大摄氧量(VO2max)。结果(1)在3000、4000m模拟30m潜水时的心率,比3000、4000m暴露安静状态时的心率分别下降了9.6%和6.9%。在5200m模拟30、50m潜水时的心率,比5200m暴露安静状态时的心率分别下降了7.6%和8.0%。各海拔潜水时的心率与在该海拔暴露时安静状态下的心率比均有下降趋势,但差异均无统计学意义(P〉0.05)。在3000m时每搏输出量[(68.1±15.8)m1]比50m安静时[(84.7±22.7)m1]明显下降,差异有统计学意义(P〈0.05)。(2)安静状态下、体力负荷后、恢复期,从平原到5200m,各海拔环境下的心率与平原比显著升高,差�Objective To monitor physiological indexes of divers in simulated different high altitude helium-oxygen (heliox) diving, and also to explore the effect of different high-altitude diving and physical load on the cardiopulmonary function of divers. Methods In the dual-purpose hyperbaric-hypobaric chambers, 4 divers were exposed to simulated altitudes of 50 (plain) , 3000, 4000 and 5200 m for a succession of 9 days.The divers stayed at 50, 3000 and 4000 m for 2 days respectively, but at 5200 m they stayed fl)r 3 days. At 3000 and 4000 m, the divers conducted 30 m simulated dives, once a day. On the first day at 5200 in, the divers carried out a 30 m simulated dive, and on the second day a 50 m dive, but on the third day no diving activity was conducted. The duration of diving was all 60 minutes. Heart rate and stroke volume of the divers were detected every morning, after they sat at ease for 10 minutes. Heart rate, arterial oxygen saturation (SaO2 ) and exhaled end CO2 volume were measured after the divers took 1 min rest on the treadmill. Then, the divers had 5-minute treadmill exercise with load of 0.5 kg and speed of 60r/rain. The pace of exercise was measured with a pacemeter, and heart rate and SaO2 at the end of each minute were detected for a succession of 5 minutes. After exercise, the divers sat at ease on the treadmill, and heart rate, SaO2 and exhaled end CO2 volume were recorded at the end of each minute for a succession of 3 minutes. Every afternoon, the divers carried out simulated dives, during which heart rate was monitored. (No diving at the plain, but the physiological indexes was measured, which was used as basic value). Change value of heart rate was the heart rate at the 5th minute subtracted by the recovery heart rate at the 3rd minute. The maximal oxygen uptake (VOz,,ax ) was thus calculated according to heart rate by using the Astrand P. O nomogram. Results (1) When the simulated 30 m dive was performed at the altitudes of 3 000 and 4 000 m, the heart rates of the d
分 类 号:R83[医药卫生—航空、航天与航海医学]
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