近赤外瞬時差分分光法による非観血的血糖計測のための多変量校正モデルの検討
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概要
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An optical method recently proposed for non-invasive in vivo blood glucose concentration (BGL) measurement, named "Pulse Glucometry", was combined and compared with four multivariate analyses for constructing calibration models: Principal Component Regression (PCR), Partial Least Squares Regression (PLS), Artificial Neural Network (ANN), Support Vector Machines Regression (SVMsR). A very fast spectrophotometer for "Pulse Glucometry" provides the total transmitted radiation spectrum (Iλ) and the cardiac-related pulsatile component (ΔIλ) superimposed on Iλ in human fingertips over a wavelength range from 900 to 1700 nm with resolution of 8 nm in 100 Hz sampling. From a family of Iλs measured, which include information relating to blood constituent such as BGL values, differential optical densities (ΔODλs, where ΔODλ=Log (1+ΔIλ/Iλ)) were obtained and normalized by the ΔODλ values at 1100 nm. Finally, the 2nd derivatives of the normalized ΔODλs (Δ2ODλs) along wavelengths were calculated as regressors. Subsequently, calibration models from paired data sets of regressors (the values of Δ2ODλs) and regressand (the corresponding known BGL values) were constructed with PCR, PLS, ANN and SVMsR. The results show that each calibration model provides a relatively good regression with a modified 5-fold cross validation for total 95 paired data, in which the BGLs ranged from 100.7-246.3 mg/dl. The results were evaluated by the Clarke error grid analysis and all data points obtained from all calibration models fell within the clinically acceptable regions (region A or B). Among them, ANN and SVMsR calibration provided the best plot distributions (in ANN; Region A: 77 plots (81.1%), B: 18 plots (18.9%). in SVMsR; Region A: 78 (82.1%), B: 17 (17.9%)). Total calculation time of SVMsR is about 100 times shorter than ANN. These results suggest that a calibration model using SVMsR is highly promising for "Pulse Glucometry."
- 一般社団法人 日本生体医工学会の論文
一般社団法人 日本生体医工学会 | 論文
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