Quantitative Analysis of Berberine in Processed Coptis by Near-Infrared Diffuse Reflectance Spectroscopy-中国Betway体育网页登陆

摘要 Thenear-infrared(NIR)diffusereflectancespectroscopywasusedtostudythecontentofBerberineintheprocessedCoptis.TheallocatedproportionsofCoptistoginger,yellowliquororEvodiarutaecarpachangedaccordingtotheresultsoforthogonaldesignaswellasthetemperature.Foraswithdrawingthefullandeffectiveinformationfromthespectraldataaspossible,thespectraldatawaspreprocessedthroughfirstderivativeandmultiplicativescattercorrection(MSC)accordingtotheoptimizationresultsofdifferentpreprocessingmethods.Firstly,themodelwasestablishedbypartialleastsquares(PLS);thecoefficientofdetermination(R2)ofthepredictionwas0.839,therootmeansquarederrorofprediction(RMSEP)was0.1422,andthemeanrelativeerror(RME)was0.0276.Secondly,forreducingthedimensionandremovingnoise,thespectralvariableswerehighlyeffectivelycompressedviathewavelettransformation(WT)technologyandtheHaarwaveletwasselectedtodecomposethespectralsignals.AfterthewaveletcoefficientsfromWTwereinputintotheartificialneuralnetwork(ANN)insteadofthespectrasignal,thequantitativeanalysismodelofBerberineinprocessedCoptiswasestablished.TheR2ofthemodelwas0.9153,theRMSEPwas0.0444,andtheRMEwas0.0091.Thevaluesofappraisalindex,namelyR2,RMSECV,andRME,indicatethatthegeneralizationabilityandpredictionprecisionofANNaresuperiortothoseofPLS.TheoverallresultsshowthatNIRspectroscopycombinedwithANNcanbeefficientlyutilizedfortherapidandaccurateanalysisofroutinechemicalcompositionsinCoptis.Accordingly,theresultcanprovidetechnicalsupportforthefurtheranalysisofBerberineandothercomponentsinprocessedCoptis.Simultaneously,theresearchcanalsoofferthefoundationofquantitativeanalysisofotherNIRapplication.

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Quantitative Analysis of Berberine in Processed Coptis by Near-Infrared Diffuse Reflectance Spectroscopy

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