光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
SPECTROSCOPY AND SPECTRAL ANALYSIS
2015年
4期
914-918
,共5页
陈华舟%宋奇庆%石凯%贾贞
陳華舟%宋奇慶%石凱%賈貞
진화주%송기경%석개%가정
傅里叶红外光谱%人体血清%临床指标%多维标度线性回归
傅裏葉紅外光譜%人體血清%臨床指標%多維標度線性迴歸
부리협홍외광보%인체혈청%림상지표%다유표도선성회귀
FTIR spectroscopy%Human blood serum%Clinical parameters%Multidimensional scaling linear regression
人体血清临床指标是衡量人体健康和亚健康水平的重要因素之一,采用傅里叶红外(FTIR)光谱技术实现人体血清临床指标的多成分快速同时检测。提出利用多维标度法(MDS)对光谱变量进行降维,结合多元线性回归(MLR)技术,建立多维标度线性回归(MDS‐MLR)模型,为血清四种临床生化指标(葡萄糖、低密度脂蛋白胆固醇、甘油三酯、尿素)的定量分析优选光谱信息波长点,优化定标预测模型,结合移动平均法(MA)进行光谱预处理,得到良好的建模效果。通过检验集样品进行验证,检验相关系数均在0.9以上。结果表明,MDS‐MLR方法具有人体血清临床指标FTIR光谱分析的应用潜力。FTIR技术结合MDS‐MLR定量分析方法可以实现对人体健康和亚健康水平的快速评定。
人體血清臨床指標是衡量人體健康和亞健康水平的重要因素之一,採用傅裏葉紅外(FTIR)光譜技術實現人體血清臨床指標的多成分快速同時檢測。提齣利用多維標度法(MDS)對光譜變量進行降維,結閤多元線性迴歸(MLR)技術,建立多維標度線性迴歸(MDS‐MLR)模型,為血清四種臨床生化指標(葡萄糖、低密度脂蛋白膽固醇、甘油三酯、尿素)的定量分析優選光譜信息波長點,優化定標預測模型,結閤移動平均法(MA)進行光譜預處理,得到良好的建模效果。通過檢驗集樣品進行驗證,檢驗相關繫數均在0.9以上。結果錶明,MDS‐MLR方法具有人體血清臨床指標FTIR光譜分析的應用潛力。FTIR技術結閤MDS‐MLR定量分析方法可以實現對人體健康和亞健康水平的快速評定。
인체혈청림상지표시형량인체건강화아건강수평적중요인소지일,채용부리협홍외(FTIR)광보기술실현인체혈청림상지표적다성분쾌속동시검측。제출이용다유표도법(MDS)대광보변량진행강유,결합다원선성회귀(MLR)기술,건립다유표도선성회귀(MDS‐MLR)모형,위혈청사충림상생화지표(포도당、저밀도지단백담고순、감유삼지、뇨소)적정량분석우선광보신식파장점,우화정표예측모형,결합이동평균법(MA)진행광보예처리,득도량호적건모효과。통과검험집양품진행험증,검험상관계수균재0.9이상。결과표명,MDS‐MLR방법구유인체혈청림상지표FTIR광보분석적응용잠력。FTIR기술결합MDS‐MLR정량분석방법가이실현대인체건강화아건강수평적쾌속평정。
In the present paper it was proposed to establish multidimensional scaling linear regression (MDS‐MLR) models by combining multidimensional scaling (MDS) with multiple linear regression (MLR) ,in which MDS owns the ability of dimen‐sionality reduction on spectral variables .Thus the informative spectral wavelengths can be selected for each of the 4 clinical pa‐rameters (i .e .glucose ,LDL cholesterol ,triglycerides and urea) by MDS‐MLR method ,and the effect of spectral colinearity can be restrained ,so that the calibration models can be optimized .Experiments showed that the MDS‐MLR models will allow to pro‐duce appreciated modeling results when combined with the preprocessing method of moving average (MA) .The optimized mod‐els were verified by the samples in validation set ,and the validating correlation coefficients for each clinical parameter were all upper than 0.9 .These results indicated that FTIR predicted values and the biochemical values of each clinical parameter were highly correlated ,which demonstrated that MDS‐MLR method has the potential of being applied to the FTIR spectroscopic anal‐ysis of human serum .FTIR rapid determination technology combined with the MDS‐MLR modeling method is expected to realize the rapid assessment of human health and sub‐health level .
