第四军医大学学报
第四軍醫大學學報
제사군의대학학보
JOURNAL OF THE FOURTH MILITARY MEDICAL UNIVERSITY
2001年
12期
1133-1135
,共3页
陈群涛%王新增%姚永杰%杨长斌%周清%李庆峰%刘仲昌%陈炳全%蒋昌林
陳群濤%王新增%姚永傑%楊長斌%週清%李慶峰%劉仲昌%陳炳全%蔣昌林
진군도%왕신증%요영걸%양장빈%주청%리경봉%류중창%진병전%장창림
模拟失重%套带%下体负压%心脏形态%X线%拮抗作用
模擬失重%套帶%下體負壓%心髒形態%X線%拮抗作用
모의실중%투대%하체부압%심장형태%X선%길항작용
目的研究模拟失重对心脏形态的影响及其用四肢加压套带和下体负压的拮抗作用. 方法自愿接受试验的健康男性青年18名,年龄19~25(平均22.6)岁,随机分为对照组,套带组和下体负压组,进行21 d 6°头低位卧床试验. 对照组卧床中不用任何对抗措施;套带组卧床期间每日08∶30~20∶30,四肢戴加压套带,压力维持在5.3 kPa;下体负压组卧床期间第1 wk和最后1 wk每日15:00使用1 h下体负压裤,压力维持在-4 kPa. 所有组均分别于卧床前1 d和卧床结束后1 d摄取X线胸片各1张,测量胸廊横径、心脏横径、长径和宽径,并计算反映心脏形态大小的心胸比和心脏面积. 结果对照组心脏横径减少0.54 cm, 心胸比减少0.024,心脏面积减少9 cm2,前后比较均有明显差异(P<0.05);套带组分别减少0.50 cm, 0.021和1.9 cm2,前后比较无显著性差异(P>0.05);下体负压组各指标变化不明显(P>0.05). 结论头低位卧床模拟失重对心脏形态有明显的影响,而四肢加压套带和下体负压均可拮抗失重对心脏形态的作用.
目的研究模擬失重對心髒形態的影響及其用四肢加壓套帶和下體負壓的拮抗作用. 方法自願接受試驗的健康男性青年18名,年齡19~25(平均22.6)歲,隨機分為對照組,套帶組和下體負壓組,進行21 d 6°頭低位臥床試驗. 對照組臥床中不用任何對抗措施;套帶組臥床期間每日08∶30~20∶30,四肢戴加壓套帶,壓力維持在5.3 kPa;下體負壓組臥床期間第1 wk和最後1 wk每日15:00使用1 h下體負壓褲,壓力維持在-4 kPa. 所有組均分彆于臥床前1 d和臥床結束後1 d攝取X線胸片各1張,測量胸廊橫徑、心髒橫徑、長徑和寬徑,併計算反映心髒形態大小的心胸比和心髒麵積. 結果對照組心髒橫徑減少0.54 cm, 心胸比減少0.024,心髒麵積減少9 cm2,前後比較均有明顯差異(P<0.05);套帶組分彆減少0.50 cm, 0.021和1.9 cm2,前後比較無顯著性差異(P>0.05);下體負壓組各指標變化不明顯(P>0.05). 結論頭低位臥床模擬失重對心髒形態有明顯的影響,而四肢加壓套帶和下體負壓均可拮抗失重對心髒形態的作用.
목적연구모의실중대심장형태적영향급기용사지가압투대화하체부압적길항작용. 방법자원접수시험적건강남성청년18명,년령19~25(평균22.6)세,수궤분위대조조,투대조화하체부압조,진행21 d 6°두저위와상시험. 대조조와상중불용임하대항조시;투대조와상기간매일08∶30~20∶30,사지대가압투대,압력유지재5.3 kPa;하체부압조와상기간제1 wk화최후1 wk매일15:00사용1 h하체부압고,압력유지재-4 kPa. 소유조균분별우와상전1 d화와상결속후1 d섭취X선흉편각1장,측량흉랑횡경、심장횡경、장경화관경,병계산반영심장형태대소적심흉비화심장면적. 결과대조조심장횡경감소0.54 cm, 심흉비감소0.024,심장면적감소9 cm2,전후비교균유명현차이(P<0.05);투대조분별감소0.50 cm, 0.021화1.9 cm2,전후비교무현저성차이(P>0.05);하체부압조각지표변화불명현(P>0.05). 결론두저위와상모의실중대심장형태유명현적영향,이사지가압투대화하체부압균가길항실중대심장형태적작용.
AIM To investigated the effects of simulated weightlessness on cardiac morphology and counteracting effects of cuffs and low body negative pressure (LBNP) on them. METHODS The 21d -6° head down bed rest was used to simulate weightlessness. Eighteen young healthy volunteers were divided into 3 groups randomizedly: cuffs group, LBNP group and control group. In cuffs group, cuffs on the upper part of thighs and arms were inflated from 8:30 am to 20:30 pm during bed rest with pressure 5.3 kPa. In LBNP group, low body pressure was maintained at -4 kPa for one hour from 15:00 pm to 16:00 pm during the first and last week of bed rest. X-ray examination was used to study the cardiac morphology changes during simulated weightlessness. All groups were taken X-ray examination one day before and after bed rest and the alongside of thoracic cage and cardiac transverse diameter were measured. Also, the cardiac-thoracic ratio and area of heart were calculated. RESULTS The alongside of thoracic cage, cardiac-thoracic ratio and area of heart were significantly decreased after bed rest in control group. However, there were no significant differences in cuffs and LBNP groups after bed rest. CONCLUSION It is suggested that simulated weightlessness, conducted by head down bed rest has great influences on cardiac morphology and cuffs and LBNP can counteract the effects of simulated weightlessness.
