| 不同温度下兔玻璃体液K~+浓度与死亡时间的关系研究 |
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| 引用本文: | 杨明真,李辉军,杨天潼,丁自娇,刘茜. 不同温度下兔玻璃体液K~+浓度与死亡时间的关系研究[J]. 中国法医学杂志, 2017, 0(3): 300-302. DOI: 10.13618/j.issn.1001-5728.2017.03.018 |
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| 作者姓名: | 杨明真 李辉军 杨天潼 丁自娇 刘茜 |
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| 作者单位: | 1. 华中科技大学同济医学院法医学系,湖北 武汉,430030;2. 华中科技大学同济医学院附属同济医院检验科,湖北 武汉,430030;3. 中国政法大学 教育部证据科学重点实验室,北京,100088 |
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| 基金项目: | 证据科学教育部重点实验室(中国政法大学)开放基金(2014KFKT06),中央高校基本科研业务费资助(2015TS003) |
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| 摘 要: | 目的探索在不同环境温度条件下,玻璃体液中钾离子浓度变化规律与死亡时间的关系。方法家兔处死后分别置于5℃、15℃、25℃和35℃温度下保存,在0~120h内每12h双眼交替微量提取玻璃体液80~100μL;应用罗氏DPPI生化分析仪检测玻璃体液中K~+的浓度;应用插值函数进行分析拟合,建立死亡时间推断方程。结果各温度组家兔玻璃体液中K~+浓度随死亡时间延长均呈上升趋势,对所得数据进行插值拟合,在5℃~35℃的温度变化区间内,K~+浓度变化与PMI关系的三元五次曲面方程:f(x,y)=-1.998e~(14)+1.345e~(12)x+5.902e~(13)y+0.005 585x~2-4.509e~(11)xy-3.876e~(12)y~2-0.000 286 8x~3+0.003 545x~2y+4.406e~(10)xy~2-1.746e~(10)y~3+2.669e~(-6)x~4-1.568e~(-5)x~3y-0.000 177 1x~2y~2-1.64e~9xy~3+6.669e~9y~4-8.672e~(-9)x~5+4.467e~(-8)x~4y+2.354e~(-7)x~3y~2+2.459e~(-6)x~2y~3+2.05e~7xy~4-1.214e~8y~5(R~2=0.995 6),其中温度为自变量x,K~+浓度值为自变量y,PMI为因变量f(x,y)。结论在5℃~35℃的环境温度区间内,家兔眼玻璃体液中K~+浓度变化与死亡时间关系符合三元五次方程分布,利用插值函数拟合的方法可将环境温度作为参数,实现在环境温度变化条件下进行死亡时间推断。
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| 关 键 词: | 法医病理学 死亡时间 插值函数 玻璃体液 钾离子 |
Correlation between postmortem intervals and the changes of K+ concentration in rabbit vitreous humor after death under different temperature |
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| Yang Mingzhen,Li Huijun,Yang Tiantong,Ding Zijiao,Liu Qian. Correlation between postmortem intervals and the changes of K+ concentration in rabbit vitreous humor after death under different temperature[J]. Chinese Journal of Forensic Medicine, 2017, 0(3): 300-302. DOI: 10.13618/j.issn.1001-5728.2017.03.018 |
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| Authors: | Yang Mingzhen Li Huijun Yang Tiantong Ding Zijiao Liu Qian |
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| Abstract: | Objective To investigate the relationship between K+ concentration in rabbit vitreous humor and postmortem interval (PMI) under different ambient temperature. Methods Rabbit corpses were stored at 5℃ , 15℃ , 25℃ , and 35℃ after execution, and 80~100μL vitreous humor was extracted from each eye of the rabbit in turn every 12 hours. The concentrations of K+ were examined by Modular DPPI automatic biochemistry analyzer. The Interpolation Functions were used to analyze the statistical relationship between PMI and K+ concentration under different temperature. Results In each animal group, K+ concentration increased with PMI. Equation was obtained after interpolation analysis on range of temperature 5℃ ~30℃ . The three-variable quintic surface equation was f(x,y)=-1.998e14+1.345e12x+5.902e13y+0.005585x2-4.509e11xy-3.876e12y2-0.0002868x3+0.003545x2y+4.406e10xy2-1.746e10y3+2.669e-6x4-1.568e-5x3y-0.0001771x2y2-1.64e9xy3+6.669e9y4-8.672e-9x5+4.467e-8x4y+2.354e-7x3y2+2.459e-6x2y3+2.05e7xy4-1.214e8y5(R2=0.9956), x stands for temperature, y stands for K+ concentration, f(x,y) stands for PMI. Conclusion The rule of K+ concentration changes at ambient temperature complied with three-variable quintic surface equation distribution. Measurement of interpolation function may be used for PMI estimation at different ambient temperature. |
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| Keywords: | forensic pathology postmortem interval interpolation function vitreous humor K+ concentration |
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