中国组织工程研究
中國組織工程研究
중국조직공정연구
Journal of Clinical Rehabilitative Tissue Engineering Research
2012年
48期
9114-9120
,共7页
师黎%魏贯军%李晓媛%王治忠%史慧革
師黎%魏貫軍%李曉媛%王治忠%史慧革
사려%위관군%리효원%왕치충%사혜혁
麻醉深度%样本熵%局部场电位%中心频率%边缘频率
痳醉深度%樣本熵%跼部場電位%中心頻率%邊緣頻率
마취심도%양본적%국부장전위%중심빈솔%변연빈솔
背景:目前的麻醉深度监测多以大脑皮质脑电信号分析为主,然而,大脑皮质脑电信号不能反映皮质下组织的功能状况、不包含高频信息并且易受外界环境干扰,从而导致基于大脑皮质脑电信号分析的麻醉深度监测在稳定性、精确性等方面有固有缺陷.目的:分析局部场电位信号样本熵在麻醉深度监测中的效果,实现麻醉深度的实时监测.方法:以大鼠为模型动物进行实验,对整个麻醉过程中的大鼠初级视觉皮质局部场电位信号进行快速样本熵计算,并对样本熵曲线动态变化进行分析,判定麻醉状态;然后将样本熵分别与大鼠尾部受热刺激时的甩尾延迟时间、局部场电位信号的中心频率和边缘频率做统计分析,验证基于局部场电位快速样本熵分析的麻醉状态判定方法.结果与结论:局部场电位信号的样本熵可以快速、准确、稳定地反映大鼠的麻醉深度,用于麻醉深度实时监测.
揹景:目前的痳醉深度鑑測多以大腦皮質腦電信號分析為主,然而,大腦皮質腦電信號不能反映皮質下組織的功能狀況、不包含高頻信息併且易受外界環境榦擾,從而導緻基于大腦皮質腦電信號分析的痳醉深度鑑測在穩定性、精確性等方麵有固有缺陷.目的:分析跼部場電位信號樣本熵在痳醉深度鑑測中的效果,實現痳醉深度的實時鑑測.方法:以大鼠為模型動物進行實驗,對整箇痳醉過程中的大鼠初級視覺皮質跼部場電位信號進行快速樣本熵計算,併對樣本熵麯線動態變化進行分析,判定痳醉狀態;然後將樣本熵分彆與大鼠尾部受熱刺激時的甩尾延遲時間、跼部場電位信號的中心頻率和邊緣頻率做統計分析,驗證基于跼部場電位快速樣本熵分析的痳醉狀態判定方法.結果與結論:跼部場電位信號的樣本熵可以快速、準確、穩定地反映大鼠的痳醉深度,用于痳醉深度實時鑑測.
배경:목전적마취심도감측다이대뇌피질뇌전신호분석위주,연이,대뇌피질뇌전신호불능반영피질하조직적공능상황、불포함고빈신식병차역수외계배경간우,종이도치기우대뇌피질뇌전신호분석적마취심도감측재은정성、정학성등방면유고유결함.목적:분석국부장전위신호양본적재마취심도감측중적효과,실현마취심도적실시감측.방법:이대서위모형동물진행실험,대정개마취과정중적대서초급시각피질국부장전위신호진행쾌속양본적계산,병대양본적곡선동태변화진행분석,판정마취상태;연후장양본적분별여대서미부수열자격시적솔미연지시간、국부장전위신호적중심빈솔화변연빈솔주통계분석,험증기우국부장전위쾌속양본적분석적마취상태판정방법.결과여결론:국부장전위신호적양본적가이쾌속、준학、은정지반영대서적마취심도,용우마취심도실시감측.
BACKGROUND: Currently, the anesthesia depth monitoring is mostly based on the analysis of electroencephalogram of cerebral cortex, however, the electroencephalogram of cerebral cortex cannot reflect the functional status of the subcortical organization and do not contain high frequency information, meanwhile it is susceptible to external environment interference. For these reasons, anesthesia depth monitoring based on the electroencephalogram has inherent defects in stability and accuracy. OBJECTIVE: To analyze the effect of sample entropy of the local field potentials in the anesthesia depth monitoring and to realize real-time anesthesia depth monitoring. METHODS: Firstly, rats were chosen as the model animals. The sample entropy of the local field potentials of the rat's primary visual cortex was calculated during the whole anesthesia process and the dynamic changes of the sample entropy curve were analyzed to determine the anesthesia states. Secondly, the sample entropy of the local field potentials was statistical y compared with the time lengths of the rat's tail-flick latency to thermal stimulation, as wel as the local field potentials median frequencies and spectral edge frequencies respectively. The correlative analysis was performed according to median frequencies and spectral edge frequencies, and then the validity of the method presented in this paper for judging the anesthesia state was verified. RESULTS AND CONCLUSION: The results showed that the sample entropy of the local field potentials rapidly, accurately and stably reflects the depth of anesthesia, and constantly monitors the depth of anesthesia.