中华航海医学与高气压医学杂志
中華航海醫學與高氣壓醫學雜誌
중화항해의학여고기압의학잡지
CHINESE JOURNAL OF NAUTICAL MEDICINE AND HYPERBARIC MEDICINE
2014年
3期
177-181
,共5页
模拟高海拔%潜水%α波衰减系数%主观评价
模擬高海拔%潛水%α波衰減繫數%主觀評價
모의고해발%잠수%α파쇠감계수%주관평개
Simulated high altitude%Diving%Alpha attenuation coefficient%Subjective evaluation
目的 应用脑电图中的α波衰减系数(alpha attenuation coefficient,AAC)、事件相关电位(event-related potential,ERP)和主观评价的方法,研究模拟高海拔缺氧和潜水对人脑功能的影响.方法 4名潜水员在高、低压舱内分别暴露于模拟海拔3 000、4 000、5200m,各停留2d,在此期间进行30 m和50 m摸拟氦氧潜水60 min.在脑电图上进行AAC、听觉ERP测试和分析,用视觉模拟评分法(visualanalogue scale,VAS)测试受试潜水员的疲劳和嗜睡感,并作为主观评价的指标.结果 在高海拔暴露时,AAC随海拔高度的升高逐渐减小,与海平面相比差异有统计学意义(P<0.05),各海拔高度之间的差异也有统计学意义(P<0.05).P300潜伏期有随海拔高度升高逐渐延长的趋势,在5 200 m时的差异有统计学意义(P<0.05);振幅有随海拔高度升高而逐渐下降的趋势,由于实验环境的限制,受试对象较少,并且个体差异较大,其平均值呈减少趋势,但差异无统计学意义(P>0.05).受试者主观评价结果表明,随着海拔高度的升高,缺氧程度的加重,人体的疲劳感和嗜睡感增加,表现为高海拔缺氧时人的脑功能、觉醒水平和认知功能下降.在高海拔处进行模拟潜水并进行高压、高氧暴露时AAC增大,主观感觉好转.结论 高海拔潜水时脑电图和主观感觉都有向正常水平转化的趋势.
目的 應用腦電圖中的α波衰減繫數(alpha attenuation coefficient,AAC)、事件相關電位(event-related potential,ERP)和主觀評價的方法,研究模擬高海拔缺氧和潛水對人腦功能的影響.方法 4名潛水員在高、低壓艙內分彆暴露于模擬海拔3 000、4 000、5200m,各停留2d,在此期間進行30 m和50 m摸擬氦氧潛水60 min.在腦電圖上進行AAC、聽覺ERP測試和分析,用視覺模擬評分法(visualanalogue scale,VAS)測試受試潛水員的疲勞和嗜睡感,併作為主觀評價的指標.結果 在高海拔暴露時,AAC隨海拔高度的升高逐漸減小,與海平麵相比差異有統計學意義(P<0.05),各海拔高度之間的差異也有統計學意義(P<0.05).P300潛伏期有隨海拔高度升高逐漸延長的趨勢,在5 200 m時的差異有統計學意義(P<0.05);振幅有隨海拔高度升高而逐漸下降的趨勢,由于實驗環境的限製,受試對象較少,併且箇體差異較大,其平均值呈減少趨勢,但差異無統計學意義(P>0.05).受試者主觀評價結果錶明,隨著海拔高度的升高,缺氧程度的加重,人體的疲勞感和嗜睡感增加,錶現為高海拔缺氧時人的腦功能、覺醒水平和認知功能下降.在高海拔處進行模擬潛水併進行高壓、高氧暴露時AAC增大,主觀感覺好轉.結論 高海拔潛水時腦電圖和主觀感覺都有嚮正常水平轉化的趨勢.
목적 응용뇌전도중적α파쇠감계수(alpha attenuation coefficient,AAC)、사건상관전위(event-related potential,ERP)화주관평개적방법,연구모의고해발결양화잠수대인뇌공능적영향.방법 4명잠수원재고、저압창내분별폭로우모의해발3 000、4 000、5200m,각정류2d,재차기간진행30 m화50 m모의양양잠수60 min.재뇌전도상진행AAC、은각ERP측시화분석,용시각모의평분법(visualanalogue scale,VAS)측시수시잠수원적피로화기수감,병작위주관평개적지표.결과 재고해발폭로시,AAC수해발고도적승고축점감소,여해평면상비차이유통계학의의(P<0.05),각해발고도지간적차이야유통계학의의(P<0.05).P300잠복기유수해발고도승고축점연장적추세,재5 200 m시적차이유통계학의의(P<0.05);진폭유수해발고도승고이축점하강적추세,유우실험배경적한제,수시대상교소,병차개체차이교대,기평균치정감소추세,단차이무통계학의의(P>0.05).수시자주관평개결과표명,수착해발고도적승고,결양정도적가중,인체적피로감화기수감증가,표현위고해발결양시인적뇌공능、각성수평화인지공능하강.재고해발처진행모의잠수병진행고압、고양폭로시AAC증대,주관감각호전.결론 고해발잠수시뇌전도화주관감각도유향정상수평전화적추세.
Objective To investigate the effects of simulated high altitude diving and hypoxia on human cerebral function by using alpha attenuation coefficient (AAC) of EEG,event-related potential P300 (ERP P300) and subjective evaluations.Methods Four divers as research subjects were exposed respectively to the altitudes of 3 000,4 000 and 5 200 meters in the hypobaric and hyperbaric chamber for 2 days,during which 30 m and 50 m simulated helium-oxygen mixture gas dives were made for a duration of 60 minutes.Detection and analysis of AAC and auditory-evoked event-related potentials were performed by using recorded EEG.Feelings of fatigue and drowsiness of the divers were detected with visual analogue scale (VAS) and were used as the criteria for subjective evaluation.Results At high altitude exposure,AAC decreased with the elevation of sea levels,and statistical differences could be noted,when it was compared with the data measured at the sea level (P < 0.05).Statistical significance could also be seen,when comparisons were made between different altitudes(P <0.05).P300 latency seemed to be prolonged with the elevation of sea level,with the difference at 5 200 m being statistically significant(P < 0.05).However,amplitude seemed to decrease with the elevation of sea levels.Due to limitations of experimental conditions,few research subjects and individual differences between the subjects,the average values tended to decrease,but without statistical significance.Analysis of subjective evaluation indicated that symptoms of hypoxia seemed to be worsened with the elevation of sea levels,and feelings of fatigue and drowsiness increased,which was manifested with the decreased cerebral function,awareness and cognition of the divers.In simulated high altitude diving,AAC tended to increase and subjective evaluation seemed to be better during hyperbaric and hyperoxia exposures.Conclusions When compared with hypoxic conditions,no difference could be noted in AAC during the dives,but there was significant increase in AAC during high altitude hypoxic exposure,indicating that EEG and subjective evaluation tended to return to the baseline level.