空军医学杂志
空軍醫學雜誌
공군의학잡지
MEDICAL JOURNAL OF AIR FORCE
2014年
1期
8-11
,共4页
王琦%李广%张载清%虞攀峰%刘斯瑶%王建昌
王琦%李廣%張載清%虞攀峰%劉斯瑤%王建昌
왕기%리엄%장재청%우반봉%류사요%왕건창
可控轴向加压装置%正加速度%椎间盘退变%动物模型
可控軸嚮加壓裝置%正加速度%椎間盤退變%動物模型
가공축향가압장치%정가속도%추간반퇴변%동물모형
Controllable axial pressure device%+Gz%Intervertebral disc degeneration%Animal models
目的:用自行设计的可控轴向加压装置直接对兔椎间盘加压,建立椎间盘退变模型,模拟高性能战斗机飞行环境中正加速度负荷对腰椎间盘的影响。方法首先测量8只新西兰大白兔(体重2~2.5 kg,雌雄不限)的L4和L5椎标本的高度、中前后径和下前后径,根据测量结果选择穿刺进针点,用自行设计轴向定量可控加压装置直接加压,压力40 N,每次持续15 s,间隔5 min,每日重复10次。24只新西兰大白兔随机分为实验4周组、实验8周组和对照组,MRI观察兔椎间盘退变的情况。结果自行设计的加压装置,在实验中能够很好地准确加压,且压力可调、数值精确可读,动物实验操作简单,经皮穿针、创伤小、易存活;其间动物活动及生长发育并无明显受限,24只动物进入实验,达到要求的19只,成功率为79%。MRI检查初步结果显示,经椎间盘直接加压4周后即可导致兔椎间盘退变,8周后退变更显著。结论用可控加压装置建立动物模型成功率较高,对椎间盘发病节段进行轴向加压量化,可较好模拟飞行环境正加速度变化情景,实验动物模型的可重复性、稳定性、可靠性和经济实用性都较好,可为正加速度导致飞行员腰椎间盘退变进一步研究提供新的实验方法。
目的:用自行設計的可控軸嚮加壓裝置直接對兔椎間盤加壓,建立椎間盤退變模型,模擬高性能戰鬥機飛行環境中正加速度負荷對腰椎間盤的影響。方法首先測量8隻新西蘭大白兔(體重2~2.5 kg,雌雄不限)的L4和L5椎標本的高度、中前後徑和下前後徑,根據測量結果選擇穿刺進針點,用自行設計軸嚮定量可控加壓裝置直接加壓,壓力40 N,每次持續15 s,間隔5 min,每日重複10次。24隻新西蘭大白兔隨機分為實驗4週組、實驗8週組和對照組,MRI觀察兔椎間盤退變的情況。結果自行設計的加壓裝置,在實驗中能夠很好地準確加壓,且壓力可調、數值精確可讀,動物實驗操作簡單,經皮穿針、創傷小、易存活;其間動物活動及生長髮育併無明顯受限,24隻動物進入實驗,達到要求的19隻,成功率為79%。MRI檢查初步結果顯示,經椎間盤直接加壓4週後即可導緻兔椎間盤退變,8週後退變更顯著。結論用可控加壓裝置建立動物模型成功率較高,對椎間盤髮病節段進行軸嚮加壓量化,可較好模擬飛行環境正加速度變化情景,實驗動物模型的可重複性、穩定性、可靠性和經濟實用性都較好,可為正加速度導緻飛行員腰椎間盤退變進一步研究提供新的實驗方法。
목적:용자행설계적가공축향가압장치직접대토추간반가압,건립추간반퇴변모형,모의고성능전두궤비행배경중정가속도부하대요추간반적영향。방법수선측량8지신서란대백토(체중2~2.5 kg,자웅불한)적L4화L5추표본적고도、중전후경화하전후경,근거측량결과선택천자진침점,용자행설계축향정량가공가압장치직접가압,압력40 N,매차지속15 s,간격5 min,매일중복10차。24지신서란대백토수궤분위실험4주조、실험8주조화대조조,MRI관찰토추간반퇴변적정황。결과자행설계적가압장치,재실험중능구흔호지준학가압,차압력가조、수치정학가독,동물실험조작간단,경피천침、창상소、역존활;기간동물활동급생장발육병무명현수한,24지동물진입실험,체도요구적19지,성공솔위79%。MRI검사초보결과현시,경추간반직접가압4주후즉가도치토추간반퇴변,8주후퇴변경현저。결론용가공가압장치건립동물모형성공솔교고,대추간반발병절단진행축향가압양화,가교호모의비행배경정가속도변화정경,실험동물모형적가중복성、은정성、가고성화경제실용성도교호,가위정가속도도치비행원요추간반퇴변진일보연구제공신적실험방법。
ObjectiveWe tried to make use of quantitative control with axial pressure device to establish animal model. We designed and investigated the axial pressure effects of rabbit lumbar intervertebral disc by using the new controlled device to simulate the intervertebral disc degeneration under acceleration load.MethodsFirst, we measured lumbar 4 and lumber 5 vertebral body (height, middle and below anteroposterior diameter) on New Zealand white rabbits’ the lumbar spine specimens, and according to the measurement we located the needle puncture point, designed pressure device which quantitatively repeated the operation. 24 New Zealand white rabbits (2~2.5 kg in weight, male and female randomly) were divided into experimental group lasting 4 weeks, experimental group lasting 8 weeks and control group respectively. The experimental groups were used with the self-designed controllable axial pressure device that punctured through the adjunctive vertebra of corresponding intervertebral discs.ResultsAmong 24 rabbits in the experiment, 19 met the requirements, whose success rate was 79%. After operation, rabbits spent 1 week or so which was called adaption stage, often survived for a long time. According to observation, they could survive up to 5 months, during which their activity and limited growth were not obvious.ConclusionsPressure device is stabile, small and light, can accurately increase pressure in the experiment. Animal experimental operation is simple with percutaneous needle with mini trauma, animals are more likely to survive; controllable pressurizing device experimental animal model can be used for accurate analysis of positive acceleration load of intervertebral disc degeneration in flight environment. The animal models provide a new field for further research of pilots’lumbar degeneration.
