光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
Spectroscopy and Spectral Analysis
2015年
10期
2718-2722
,共5页
郑羽%陈雄%周梅%王蒙军%王金海%李刚%崔军
鄭羽%陳雄%週梅%王矇軍%王金海%李剛%崔軍
정우%진웅%주매%왕몽군%왕금해%리강%최군
近红外光谱分析%温度%细胞生理溶液%离子浓度%偏最小二乘法
近紅外光譜分析%溫度%細胞生理溶液%離子濃度%偏最小二乘法
근홍외광보분석%온도%세포생리용액%리자농도%편최소이승법
Near infrared spectroscopy%Temperature%Cell physiological solution%Ionic concentration%Interval partial least squares
膜片钳测量过程中实时监测离体细胞生存环境温度,控制生理溶液温度值对提高测量的准确性,消除温度不确定性具有重要的意义。采用近红外光谱结合化学计量学法来研究生理溶液中不同离子不同浓度对温度模型精度的影响。通过配制CaCl2,KCl和NaCl各四种浓度的12份溶液样本,分别采集不同溶液样本在20~40℃温度范围内的光谱,波数范围为9615~5714 cm -1,并将每种溶液不同温度光谱数据按照三种方式划分训练集和预测集,采用间隔偏最小二乘方法选择有效波段,并建立与温度数值之间的定量校正模型。实验结果显示,浓度为0.25 g?mL -1的CaCl2溶液模型的RMSEP最大,三次实验结果为0.3863,0.3037和0.3372℃,浓度为0.005 g?mL -1的NaCl溶液模型的RMSEP最小,实验结果分别为0.2208,0.1553和0.1452℃。总体实验结果表明细胞生理溶液中Ca2+对建立温度模型的精度影响最大,K+其次, Na+最小,当三种离子浓度均增大时,各离子对模型精度影响均为增大。因此在建立细胞生理溶液的温度模型时,有必要在合理范围内改变细胞生理溶液中三种主要离子的配比,来校正不同离子浓度对测量生理溶液温度的影响,从而提高近红外光谱温度测量的精度。
膜片鉗測量過程中實時鑑測離體細胞生存環境溫度,控製生理溶液溫度值對提高測量的準確性,消除溫度不確定性具有重要的意義。採用近紅外光譜結閤化學計量學法來研究生理溶液中不同離子不同濃度對溫度模型精度的影響。通過配製CaCl2,KCl和NaCl各四種濃度的12份溶液樣本,分彆採集不同溶液樣本在20~40℃溫度範圍內的光譜,波數範圍為9615~5714 cm -1,併將每種溶液不同溫度光譜數據按照三種方式劃分訓練集和預測集,採用間隔偏最小二乘方法選擇有效波段,併建立與溫度數值之間的定量校正模型。實驗結果顯示,濃度為0.25 g?mL -1的CaCl2溶液模型的RMSEP最大,三次實驗結果為0.3863,0.3037和0.3372℃,濃度為0.005 g?mL -1的NaCl溶液模型的RMSEP最小,實驗結果分彆為0.2208,0.1553和0.1452℃。總體實驗結果錶明細胞生理溶液中Ca2+對建立溫度模型的精度影響最大,K+其次, Na+最小,噹三種離子濃度均增大時,各離子對模型精度影響均為增大。因此在建立細胞生理溶液的溫度模型時,有必要在閤理範圍內改變細胞生理溶液中三種主要離子的配比,來校正不同離子濃度對測量生理溶液溫度的影響,從而提高近紅外光譜溫度測量的精度。
막편겸측량과정중실시감측리체세포생존배경온도,공제생리용액온도치대제고측량적준학성,소제온도불학정성구유중요적의의。채용근홍외광보결합화학계량학법래연구생리용액중불동리자불동농도대온도모형정도적영향。통과배제CaCl2,KCl화NaCl각사충농도적12빈용액양본,분별채집불동용액양본재20~40℃온도범위내적광보,파수범위위9615~5714 cm -1,병장매충용액불동온도광보수거안조삼충방식화분훈련집화예측집,채용간격편최소이승방법선택유효파단,병건립여온도수치지간적정량교정모형。실험결과현시,농도위0.25 g?mL -1적CaCl2용액모형적RMSEP최대,삼차실험결과위0.3863,0.3037화0.3372℃,농도위0.005 g?mL -1적NaCl용액모형적RMSEP최소,실험결과분별위0.2208,0.1553화0.1452℃。총체실험결과표명세포생리용액중Ca2+대건립온도모형적정도영향최대,K+기차, Na+최소,당삼충리자농도균증대시,각리자대모형정도영향균위증대。인차재건립세포생리용액적온도모형시,유필요재합리범위내개변세포생리용액중삼충주요리자적배비,래교정불동리자농도대측량생리용액온도적영향,종이제고근홍외광보온도측량적정도。
It is important to real‐timely monitor and control the temperature of cell physiological solution in patch clamp experi‐ments ,which can eliminate the uncertainty due to temperature and improve the measurement accuracy .This paper studies the in‐fluence of different ions at different concentrations in the physiological solution on precision of a temperature model by using near infrared spectroscopy and chemometrics method .Firstly ,we prepared twelve sample solutions respectively with the solutes of CaCl2 ,KCl and NaCl at four kinds of concentrations ,and collected the spectra of different solutions at the setting temperature range 20~40 ℃ ,the range of the spectra is 9 615~5 714 cm-1 .Then we divided the spectra of each solution at different tem‐peratures into two parts (a training set and a prediction set) by three methods .Interval partial least squares method was used to select an effective wavelength range and develop calibration models between the spectra in the selected range and temperature ve‐lues .The experimental results show that RMSEP of CaCl2 solution with 0.25 g?mL -1 is maximum ,the result of the three tests are 0.386 3 ,0.303 7 and 0.337 2℃ ,RMSEP of NaCl with 0.005 g?mL -1 solution is minimum ,the result of the three tests are 0.220 8 ,0.155 3 and 0.145 2 ℃ .The experimental results indicate that Ca2+ has the greatest influence on the accuracy of the temperature model of the cell physiological solution ,then K+ ,and Na+ has the least influence .And with the ionic concentration increasing ,the model accuracy decreases .Therefore ,when we build the temperature model of cell physiological solution ,it is necessary to change the proportion of the three kinds of main ions in cell physiological solution reasonably in order to correct the effects of different ionic concentrations in physiological solution and improve the accuracy of temperature measurements by near infrared spectroscopy .