摘要
目的探讨不同时间的吸氧排氮方案对高空减压病的预防效果。方法 2 4只家兔随机分为对照组、吸氧排氮 30、60和 1 2 0min组 4组。麻醉后行机械通气 ,分别吸氧排氮 0、30、60和 1 2 0min后上升至 1 10 0 0m停留 30min ,用超声多普勒技术检测气泡产生情况。结果高空减压时气泡首次检出时间随着吸氧排氮时间的增加而延长 ,吸氧排氮 60min和 1 2 0min组家兔气泡首次检出时间较对照组显著延长 (P<0 .0 1 ) ,气泡首次检出时间与吸氧排氮时间呈正相关关系 (P <0 .0 1 ) ;累积气泡数随着吸氧排氮时间的增加而减少 ,吸氧排氮 60min和 1 2 0min组家兔累积气泡数较对照组显著减少 (P <0 .0 1 ) ,累积气泡数与吸氧排氮时间呈负相关关系 (P <0 .0 1 )。结论吸氧排氮 60min和 1 2 0min两种方案可以显著减少兔由地面上升到 1 1 0 0 0m高空减压时气泡的产生。
Objective To explore the effect of different degrees of denitrogenation on decompression sickness. Method Twenty-four rabbits were randomly divided into control group, 100% oxygen inhalation 30 min group, 60 min group and 120 min group. The rabbits were anesthetized and ventilated by mechanical ventilator. After 0, 30, 60 and 120 min of denitrogenation by inhalation of 100% oxygen, the rabbits were exposed to 11 000 m for 30 min. The gas bubbles generated in the body of rabbits were detected and monitored by a Doppler ultrasound detector over the precordium. Result Time to bubble appearance increased with time of 100% oxygen inhalation during altitude decompression. As compared with the control group, time to bubble appearance lengthened significantly in 100% oxygen inhalation 60 min and 120 min groups (P<0.01). Time to bubble appearance was positively correlated with time of 100% oxygen inhalation (P<0.01). Accumulative number of bubbles decreased with the time of 100% oxygen inhalation. As compared with the control group, accumulative number of bubbles decreased significantly in 100% oxygen inhalation 60 min and 120 min groups (P<0.01). Accumulative number of bubbles was negatively correlated with time of 100% oxygen inhalation (P<0.01). Conclusion Denitrogenation by inhalation of 100% oxygen for 60 min and 120 min may reduce the generation of gas bubbles in rabbits when decompressed to an altitude of 11 000 m.
出处
《航天医学与医学工程》
CAS
CSCD
北大核心
2004年第2期89-92,共4页
Space Medicine & Medical Engineering
基金
NationalFoundationofMannedSpaceProgram ( 0 11993 0 8)
关键词
吸氧排氮
低压暴露
气泡
减压病
预吸氧
denitrogenation
altitude exposure
gas bubble
decompression sickness
prebreathe