CN1602830A - Real-time monitoring method for traditional Chinese medicine process - Google Patents

Abstract

The invention relates to a real-time monitoring method or Chinese medicine producing technique, whose characteristic is that it includes the following steps: (1)build four modules of each monitoring technical point; (2)build on-line sampling of technical point which is the same with the modules unit, through the same preprocession and real-time measurement of near infrared spectrum do preprocession to the data of near infrared spectrum ; (3)according to the near infrared spectrum of sample, use near infrared technical monitoring module to judge whether the technical condition is normal, or (4) in accordance with the near infrared spectrum of sample, use near infrared-index element quantitative correction module to acquire the content of index element, make primary diagnosis to the technical, or(5)according to the near infrared spectrum of sample, use near infrared 3-9 module acquire chromatogram fingerprint spectrum in real time, then analyze degree of similarity of the whole and the difference of each area on it according to fingerprint spectrum technical control module, or (6) off-line the chromatogram fingerprint spectrum of sample, make technical diagnosis according to the chromatogram fingerprint spectrum acquired and fingerprint spectrum technical control module.

Description

A kind of method that the Chinese medicine production technology is monitored in real time

Technical field

The present invention relates to a kind of method that the Chinese medicine production technology is monitored in real time.

Background technology

Existing Chinese medicine controlling of production process pattern, basically still rest on traditional experience control method, promptly only control at physical parameters such as the temperature of production technology, pressure, response time, consider that seldom the composition in the technical process changes, this control method belongs to a kind of rough indirect control model.For some important index composition (or effective ingredient), have also qualitative identification and quantitative assay supplementary means as process-monitor, but also just carry out at limited several components, be difficult to reflect the overall picture of the numerous compositions of Chinese medicine, and the hysteresis of analytical information feedback, can not realize real-time control.The technology controlling and process pattern of this backwardness has directly caused the instability of tcm product quality, has seriously restricted modernization, the internationalization process of tcm product.

Fingerprint pattern technology is a kind of effective technology means of Chinese medicine quality control and controlling of production process at traditional Chinese medicine complex system globality and fingerprint characteristics, and formally appears in the relevant directive document.Fingerprint pattern technology combines the whole qualitative and quantitative two kinds of means of index components of finger printing, can reflect the situation of change on each constituents quality and quantity in the technical process comprehensively, in the technology controlling and process field, use this technology and can overcome the defective that traditional control method is rough, controlling index is limited.But finger printing uses chromatographic technique to obtain mostly, automaticity is low, need to consume a large amount of time, man power and material, and often need sampling to carry out off-line analysis, can not onlinely use, more can not control in real time, this has limited the applying on the Chinese medicine production technology of fingerprint pattern technology to a certain extent.

Near-infrared spectrum technique is one of mature technology that is suitable for implementation in most line analysis and control in real time, and be used widely as fields such as oil, chemical industry, Nicotiana tabacum L., food, pharmacy in the field of other outside Chinese medicine.Near-infrared spectrum technique measures fast, accurately, can realize original position, harmless, on-line measurement, can feed back real time information fast, and simple to operate, relatively cheap, can avoid the pollution that may bring in the measuring process.In Chinese medicine quality control field, utilize the existing relevant patent documentation of the online quantitative assay index components of near infrared spectrum, but the application aspect pharmaceutical technology (tcd) still there is not report.The near-infrared spectrum technique advantage is fairly obvious, but can only reflect the near-infrared overall absorption without sample separation, and information representation is directly perceived inadequately, and index is limited, often can only be used as process-monitor, can't make process diagnosis.Particularly at complex process, Chinese medicine production field that composition is numerous, than fingerprint pattern technology, near infrared spectrum can not demonstrate fully complexity, the fingerprint characteristics of Chinese medicine system on technology controlling and process.

In sum, traditional Chinese medicine production control technology has many deficiencies, and by contrast, the advantage of fingerprint pattern technology and near-infrared spectrum technique is fairly obvious, but has certain defective separately.

Summary of the invention

At the problems referred to above, the invention provides two kinds of technology of a kind of Chinese medicine fingerprint and near infrared online monitoring and usefulness, can realize the method that the Chinese medicine production technology is monitored in real time easily.

For achieving the above object, following technical scheme is taked in invention: a kind of method that the Chinese medicine production technology is monitored in real time may further comprise the steps:

(1) chooses one group of normal sample of state of the art in each process point of desire monitoring in advance, through pretreatment, measure the near infrared spectrum and the chromatographic fingerprinting of this sample, set up four kinds of models of each monitoring process point respectively: near-infrared process-monitor model, finger printing technology control model, near-infrared-index components quantitative correction model and near-infrared-chromatographic fingerprinting correlation model;

(2) in the online sampling of the process point identical with setting up model, and through the pretreatment identical to sample, the The real time measure near infrared spectrum carries out pretreatment to the near infrared spectrum that obtains;

(3) according to being subjected to the sample near infrared spectrum, utilization near-infrared process-monitor model judges whether state of arts is normal, then enters one or more in step (4), (5), (6) as if undesired;

(4) according to being subjected to the sample near infrared spectrum, utilization near-infrared-index components quantitative correction model obtains being subjected to the content of sample index components, technology is made tentative diagnosis, and after relevant middle process process adjusted accordingly, return step (2) again, if still undesired, then enter one or more in step (5), (6);

(5) according to being subjected to the sample near infrared spectrum, utilization near-infrared-chromatographic fingerprinting correlation model, obtain chromatographic fingerprinting in real time, again according to the finger printing technology control model, the difference of each finger print region on whole finger printing similarity of analytic sample and the collection of illustrative plates finds unusual middle process process to occur, make corresponding adjustment after, return step (2) again if still undesired, then enter step (6);

(6) determined off-line is subjected to the chromatographic fingerprinting of sample, and according to the chromatographic fingerprinting that obtains, utilization finger printing technology control model carries out process diagnosis.

Wherein, in described step (1) and (2) The pretreatment is comprised that centrifugal, filtration, the degassing and constant temperature handles.

Wherein, in the described step (2) near infrared spectrum that obtains being carried out pretreated method comprises: single order differential, second-order differential, background are reduced, wavelet transformation, polynary scatter correction, orthogonal signalling correction, normalization, standardized method one or more methods are wherein united use.

Described near-infrared process monitoring model comprises: the near infrared spectrum training set of setting up each process point sample, be formed for being subjected to " standard diagram " of sampling technology reference, in employing PCA, artificial neural network method, mahalanobis distance method, SIMCA (soft model classification) method one or more, analysis is subjected to the difference between sample and " standard diagram ", judges to be subjected to sample whether to fall into the difference threshold value of setting.

Described finger printing technology control model comprises: the finger printing of setting up each process point sample, and the finished product finger printing is divided into some functional regions, zones of different is corresponding to the technology of product in the middle of different, formation is subjected to sampling technology reference " standard diagram ", with being subjected to the finger printing of sample to carry out the similarity comparison, judge to be subjected to sample whether to fall into the similarity threshold of setting with " standard diagram ".

Described near-infrared-index components quantitative correction model comprises: the near infrared spectrum of measuring each process point sample, adopt high performance liquid chromatography, one or more methods in ultraviolet visible spectrophotometry, gas chromatography, the lamellae scanning method, it is quantitative that sample is carried out index components, a kind of method in utilization partial least square method, principal component regression method, neutral net method and the correction transformation matrix method obtains the dependency between near infrared spectrum and the index components content; Obtain being subjected to the index components content of sample by the near infrared spectrum that is subjected to sample.

Described near-infrared-chromatographic fingerprinting correlation model comprises: set up training set near infrared spectrum and chromatographic fingerprinting, on chromatographic fingerprinting, choose the series of features fingerprint peaks, with the artificial neural network method, proofread and correct a kind of in transformation matrix method, principal component regression method and the partial least square method, obtain the dependency of near infrared spectrum and characteristic fingerprint peak-to-peak area, obtain the peak area at characteristic fingerprint peak by the near infrared spectrum that is subjected to sample, retention time and the peak width digital simulation according to training set sample fingerprint collection of illustrative plates goes out a chromatographic fingerprinting again.

The present invention is owing to take above technical scheme, it has the following advantages: 1, the present invention can reflect that the characteristics of traditional Chinese medicine complex system globality and fingerprint and near-infrared spectrum technique on-line measurement are accurate to fingerprint pattern technology comprehensively, the characteristics of feedback real time information combine fast, by setting up the near-infrared process-monitor model of each process point in the Chinese medicine production process in advance, the finger printing technology control model, near-infrared-index components quantitative correction model and near-infrared-chromatographic fingerprinting correlation model has been realized in the Chinese medicine actual production process the real-time monitoring to each process point.2, the present invention is after obtaining the near infrared light spectrum information in real time, at first use near-infrared process-monitor model, compare being subjected to the standard spectrum of sample near infrared spectrum and this process point, and whether judgement is subjected to sampling technology information normal, if it is normal, just can continue the monitoring of next process point, if undesired other model that uses is again handled.Can save the plenty of time like this, operate also simple.3, the present invention is after the judgement of near-infrared process-monitor model is undesired, at first use near-infrared-index components quantitative correction model, obtain being subjected to the content of sample index components, technology is made tentative diagnosis, and after relevant middle process process adjusted accordingly, carry out sampling and measuring again.Can carry out quick diagnosis to simply comparatively tangible problem like this, improve real-time efficiency for monitoring, and economic.4, the present invention is directly perceived inadequately for information representation, the problem that can't make process diagnosis is not directly to adopt the mode of determined off-line chromatographic fingerprinting, but utilization near-infrared-chromatographic fingerprinting correlation model, obtain a chromatographic fingerprinting in real time, again according to the finger printing technology control model, the difference of each finger print region finds unusual middle process process to occur on whole finger printing similarity of analytic sample and the collection of illustrative plates, makes corresponding technology adjustment.This process had both utilized chromatographic fingerprinting can fully reflect the advantage of the situation of change of each composition quality and quantity in the technical process, avoided off-line to obtain that chromatographic fingerprinting need consume a large amount of time, man power and material's shortcoming again, also the finger printing technology control model also has been applied in the real-time monitoring of online each process point.5, the present invention only just carries out the chromatographic fingerprinting that determined off-line is subjected to sample to complicated, the most special problem, according to the chromatographic fingerprinting that obtains, utilization finger printing technology control model carries out process diagnosis, thereby make the present invention when realization is controlled in real time to each process point, well arranged from easy to difficult, not only save time, also use manpower and material resources sparingly.Promoting process control method of the present invention can unitary analysis, can express numerous meticulous compositions again; Process monitoring can be realized, process diagnosis can be realized again; Can analyze by the off-line accurate quantification, can onlinely provide real-time control information again, make the Chinese medicine production of China can use advanced process control method, stable uniform, the safety of assurance tcm product quality are controlled.

Description of drawings

Fig. 1 is the use flow chart of each model in the process monitoring process

Fig. 2 is based on Chinese medicine production technology real-time monitoring system of the present invention

Fig. 3 A is the near infrared spectrum stacking chart of the Fructus Gardeniae medical material decoction liquor of 46 different batches

Fig. 3 B is the SIMCA method real-time estimate result schematic diagram of Fructus Gardeniae extraction process state

Fig. 4 is the efficient liquid-phase chromatograph finger print atlas that is used for controlling " QINGKAILING " process for preparing injection liquid

Fig. 5 A is the HPLC finger printing (the spectrum peak is without calibration) of certain Radix Salviae Miltiorrhizae extract

Fig. 5 B is this extracting solution HPLC finger printing after the calibration of spectrum peak, chooses " characteristic fingerprint pattern " that 9 fingerprint peakses form

Fig. 5 C is with near-infrared-chromatographic fingerprinting correlation model real-time estimate gained " characteristic fingerprint pattern "

The specific embodiment

The production process of Chinese medicine generally comprises: decoct, dry, reflux, precipitate with ethanol, water precipitating, freezing, leave standstill, filter, separate, take off charcoal, be mixed, dilution, sterilization, encapsulation and pelletize etc. are technical process partly or entirely, the present invention unlike the prior art, product after it not only will be made Chinese medicine is monitored, and to carry out omnibearing real-time monitoring to each process point in the whole process of production of Chinese medicine, in case quality problems occur, can in time find at each procedure, and the reason that produces of the problem of finding out, in time improve, thereby can guarantee the quality of whole tcm product more effectively.The present invention can choose any one process point and carry out near-infrared spectral measurement in the technology controlling and process that Chinese medicine is produced, then with the model of setting up good corresponding process point, and the judgement of comparing, and then reach monitoring and solve in-problem purpose in the technical process.

Four kinds of models of each monitoring process point that the present invention sets up comprise: near-infrared process-monitor model, finger printing technology control model, near-infrared-index components quantitative correction model and near-infrared-chromatographic fingerprinting correlation model.Four kinds of process modelings are core contents of the present invention, the work process of every kind of model and to set up principle as follows:

1, near-infrared process monitoring model

Spectroscopic data and the chromatographic data of setting up model all need pretreatment, because near-infrared measuring very easily is subjected to the interference of analysis environments and sample impurity, and the matrix components influence is serious, effective information often is submerged in the lot of background information, therefore need to carry out means such as single order differential, second-order differential, straight line are reduced, many times of scatter corrections, orthogonal signalling correction, wavelet transformation before the near infrared spectrum modeling and carry out feature extraction, remove redundancy to greatest extent; Chromatographic data then tends to take place the deviation or the baseline drift of retention time, need carry out baseline correction and the calibration of spectrum peak.

This model is based on that the training set sample of normal process state sets up, and has been equivalent to set up a kind of " standard diagram " that is used for the technology reference.When this model is used for process monitoring, is actually a sample near-infrared collection of illustrative plates and makes comparison with " standard diagram ", difference is more little, shows that state of the art is normal more; Difference is big more, and it is serious more just to represent that current technology departs from normality.

The method for building up of this model mainly contains mahalanobis distance method, PCA, SIMCA method, neutral net method or the like.The mahalanobis distance method is directly to measure the space length of each analyzing samples to training set " standard diagram ", expresses the difference of current technology and normal process with space length; PCA is sample variable to be carried out the linear combination dimensionality reduction obtain the sample main constituent, can direct reaction goes out the difference of sample and normal process; Whether the SIMCA method with the residual error after the recurrence of F check comparative sample and the overall residual error of training set sample, has significant difference with judgment sample technology based on principal component regression method; The neutral net method has the non-linear ability of shining upon, and is to carry out match with changing the training set sample of function to normal process continuously, is used for the judgement and the prediction of state of the art.

2, finger printing technology control model

Set up this model, the same with near-infrared process monitoring model, also be to set up a kind of " standard diagram " of training set sample in fact.When being used for technology controlling and process, the finger printing of sample need be compared with " standard diagram ", draw both similarities, similarity is big more, illustrates that this technology is approaching more with normal process.Calculating the most frequently used method of similarity is included angle cosine and correlation coefficient process.

In this modelling process, except analyzing the standard diagram of this process finished product, also need analyze the finger printing of relevant middle product in the different intermediate steps of this process, and in view of the above the finished product finger printing is divided into some functional regions, zones of different is corresponding to product and middle process in the middle of different.

After the modelling, whether the analytic sample finger printing according to this collection of illustrative plates and " standard diagram " similarity numerical value, can normally make judgement to current technology.If process abnormality, promptly at zones of different difference comparative sample finger printing and " standard diagram ", can judge the unusual concrete intermediate steps of appearance in the technology, the power relatively according in this region response can obtain the relevant diagnostic information that middle technology is adjusted.

3, near-infrared-index components quantitative correction model

Set up this model,, also need training set sample index components is carried out quantitative assay except measuring the training set near infrared spectrum.Mainly be the testing index component content, obtain with high performance liquid chromatography usually, or with other as analysis means such as ultraviolet visible spectrophotometry, gas chromatogram, lamellae scannings.

Index components is quantitative, except the index components assay, also comprises the total amount that is subjected to become to hive off in the sample, and as total flavones, total saponins, total alkaloids etc., this mensuration can be carried out with ultraviolet visible spectrophotometry.

Index components can be carried out accurate quantification to it if any standard substance; The shortage standard substance, can carry out semiquantitative determination by the chromatographic peak relative response factor, can set up this model equally.

This method for establishing model generally uses partial least square method, principal component regression method, neutral net method and correct for variations matrix method etc.Principal component regression is directly the sample spectra matrix to be carried out quadrature to decompose, and with the concentration matrix quadrature main constituent that is decomposed is returned then, sets up the regression equation of spectrum and concentration matrix; Partial least square method further, not only carries out quadrature to the spectroscopic data matrix and decomposes on the basis that main constituent is decomposed, and in the decomposed spectrum matrix concentration matrix is also carried out quadrature and decompose; In the neural net method the spectroscopic data matrix as input vector, the concentration matrix as output vector, as object function, is regulated connection weight between two vectors to optimize network with error function, reach the purpose of forecast error minimum; It is similar to proofread and correct transformation matrix method and principal component regression, but is comprised the spectrum of testing sample by the spectrum matrix that quadrature decomposes.

4, near-infrared-chromatographic fingerprinting correlation model

Setting up this model, promptly is the quantitative correction model of setting up near infrared spectrum and chromatographic fingerprint peak area.At first in order to embody feature to greatest extent, improve the precision of prediction of model, need on former finger printing, to choose a series of fingerprint peakses and participate in modeling, requiring this fingerprint peaks is to possess certain signal to noise ratio, be active ingredient or index components, for the intuitive and convenient on the technology controlling and process, retention time, peak width, peak area data by the characteristic fingerprint peak can simulate a chromatograph collection of illustrative plates, can be regarded as new " finger printing " through feature extraction.

Set up the algorithm of near-infrared-chromatographic fingerprinting and detailed process the process of setting up with above-mentioned near-infrared-index components quantitative correction model.

Model is in case foundation just can realize the on-line analysis of technology and control in real time.

When the present invention uses, carry out at line sweep being subjected to sample with near infrared spectrum, at first use near infrared spectrum to carry out real-time process-monitor, for unusual technology occurring, other model of reuse carries out process diagnosis.

As shown in Figure 1, the present invention is as follows at the applying step at production technology scene:

1, through centrifugal, filtration, ultrasonic and constant temperature processing, scanning obtains near infrared spectrum successively for online sampling, sampling;

2, utilization near-infrared process-monitor model is by being subjected to the sample near infrared spectrum can directly obtain current technique information.Technology is normal, then enters next flow process, otherwise, continue other model of utilization technology is monitored and diagnosed.

If 3 technologies occur unusual, utilization near-infrared-index components quantitative correction model is made tentative diagnosis to unusual technology.This model provides quantitatively (content or concentration) information of index components in real time, and according to the feedback information of model, we can adjust accordingly to relevant middle process process.This step is according to index components content fluctuation technology to be made tentative diagnosis, at be the minority index components after all, can only make tentative diagnosis to technology, if necessary, can continue to use other model that unusual technology is carried out deep diagnosis.

4, according to near-infrared-chromatographic fingerprinting correlation model, obtain chromatographic fingerprinting in real time by measured near infrared spectrum.Again according to the finger printing technology control model, the difference of each finger print region on whole finger printing similarity of analytic sample and the collection of illustrative plates, because variant middle process process is corresponding to each zones of different on the finger printing, we can find in view of the above and unusual middle process process occur, make corresponding adjustment.

5, the finger printing of step (4) use is to be obtained in real time by near infrared spectrum, the fingerprint peaks number is limited after all, can not complete reaction sample overall picture, as required, process point in some particular importance, need carry out the finger printing off-line analysis, and then carry out process diagnosis, can obtain deep, the most comprehensive technique information with the finger printing technology control model that obtains.

Be some concrete embodiments below:

Embodiment one

As shown in Figure 2, complete process control system can be achieved as follows four functions: online sampling and analysing; Modelling and maintenance; Information processing and technology are controlled automatically;

Wherein online sampling and analysing comprises online sampling, decompression, filtration, constant temperature, the degassing etc., analyzes then to comprise and utilize the Fibre Optical Sensor equipment on-line monitoring, and utilizes technology off-line analysiss such as chromatograph, spectrum;

Wherein modelling and maintenance comprise that setting up four kinds of models is used for technology controlling and process, can also carry out Model Reconstruction and renewal automatically according to feedback result;

Wherein information processing is meant that metric data passes through models treated, feeds back technique information at last;

Wherein technology is controlled automatically, comprises the automatic control of technological parameters such as temperature, pressure, pH value pick off, various by-pass valve control states;

This control system needs a near infrared spectrometer, high performance liquid chromatograph, high-performance computer, according to the software model messaging software relevant of certain algorithmic rule establishment with other, and the corresponding sensing equipment of control automatically just can be realized.

Embodiment two

Shown in Fig. 3 A, Fig. 3 B, be the example that near-infrared process monitoring model is used for the Fructus Gardeniae decocting process, concrete steps are as follows:

1, Fructus Gardeniae medicinal material drying, pulverizing take by weighing 46 parts etc. weight, add methanol, supersound extraction.Wherein 33 increments solvent adding amount, ultrasonic time, pre-treatment mode, extracting mode originally is in full accord, is considered as ordinary production technology, and back 13 samples are had nothing in common with each other, and are considered as unusual technology;

2, by same condition extract, take a sample, filtration, constant temperature, and measure near infrared spectrum successively;

3, the measure spectrum data are filtered the processing of making an uproar by standardization, polynary scatter correction, single order differential and small echo successively.Preceding 20 samples of choosing normal process are set up the SIMCA model as training set, select for use 97% confidence level that control limit is set, and what exceed the control limit then thinks process abnormality;

4, with the state of the art of 26 samples of institute's established model prediction residue, found wherein back 13 sample process abnormalities, fitted like a glove with practical situation.

Embodiment three

As shown in Figure 4, be the example that utilizes chromatographic fingerprinting model monitoring " QINGKAILING " process for preparing injection liquid among the present invention.What show among the figure is the finger printing of " QINGKAILING " injection finished product, respond ratio, overall similarity and the quantitative analysis results of index components by relative response intensity, each the peak group who analyzes each fingerprint peaks, the QINGKAILING production technology is monitored and adjusted.Concrete steps are as follows:

1, under the same operation condition, obtain different manufacturers " QINGKAILING " injection finished product finger printing with high performance liquid chromatography, generate reference fingerprint according to Principle of Statistics;

2, different according to the source, chromatographic fingerprinting is divided into different functional finger print regions, mainly contain four, correspond respectively to Fructus Gardeniae, Flos Lonicerae, Radix Isatidis, middle process process that four kinds of medical materials of baicalin are relevant;

3, comparative analysis target process finished product finger printing and reference fingerprint are set similarity threshold (being set at 0.90 in this example), and similarity surpasses this threshold value, and then this technology is normal, and product quality is qualified; Otherwise it is unusual to show that " QINGKAILING " production technology occurs;

4, behind the discovery process abnormality, comparison object technology finger printing and reference fingerprint, relative response power by different finger-print regions, and in conjunction with the quantitative result of index components such as jasminoidin, baicalin, adenosine, uridnine, jasminoidin, cholic acid, chlorogenic acid, analyze the reason that unusual technology takes place, and draw series of solutions;

5, the applicant uses the present invention, has effectively monitored the production technology of eight " QINGKAILING " manufacturers, has found that the unreasonable part in the technology is also adjusted, and makes each producer's product all qualified at last.

Embodiment four

Present embodiment is that the present invention is used for the chromatographic fingerprinting of technology controlling and process and the embodiment that the near-infrared forecasting institute gets chromatographic fingerprinting.Wherein Fig. 5 A is the HPLC finger printing (the spectrum peak is without calibration) of certain Radix Salviae Miltiorrhizae extract, Fig. 5 B is that this extracting solution HPLC finger printing is after the calibration of spectrum peak, choose " characteristic fingerprint pattern " that 9 fingerprint peakses form, Fig. 5 C is with near-infrared-chromatographic fingerprinting correlation model real-time estimate gained " characteristic fingerprint pattern ", Fig. 5 B and Fig. 5 C show (because 32min retention time place peak response is excessive according to the analog chromatogram of chromatographic retention and peak area, so do not show full spectrum), it is similar with the legitimate reading height therefrom can to find to predict the outcome, illustrate that near-infrared-chromatographic fingerprinting correlation model prediction effect is satisfactory

Realize that this case step is as follows:

1, certain pharmaceutical factory technology spot sampling obtains 35 samples in the Radix Salviae Miltiorrhizae extraction process by water process, this process of various kinds unified centrifugal, filter after, measure HPLC finger printing and near infrared spectrum respectively under the same conditions;

2, optional 20 samples are as training set, and 15 samples are as forecast set in addition, select that 9 peaks of signal to noise ratio maximum are used for modeling as the characteristic fingerprint peak in the HPLC finger printing, and each sample near-infrared measuring data is filtered by wavelet transformation and made an uproar and feature extraction;

3, with proofreading and correct the transformation matrix method, set up near-infrared---the chromatographic fingerprinting correlation model;

4, draw 9 peak area values of each forecast set sample with the gained correlation model.It is as shown in table 1 below to predict the outcome, demonstration be this model to the predicting the outcome of a forecast set sample, last hurdle is that all 15 forecast set samples are all according to the meansigma methods of surveying error.By the comparison of prediction peak area and actual measurement peak area, find that prediction effect is better, the prediction relative error is generally less than 10%.

5, utilize peak area and chromatographic peak width data, chromatographic fingerprinting (shown in Fig. 5 C) is drawn in simulation.

6, chromatographic peak area data and the simulation finger printing that utilizes prediction to obtain can be applied in the technology controlling and process of Radix Salviae Miltiorrhizae leaching process intuitively, quickly.

The actual value of a forecast set sample of table 1 peak area and predictive value tabulation

And all samples of the forecast set average relative error value that predicts the outcome

Peak number	??1	????2	????3	????4	????5	????6	??7	??8	??9
										Retention time min	??6.84	????12.29	????25.97	????27.65	????28.77	????29.46	??31.61	??32.12	??33.09
True peak area	??1347.6	????576.93	????1280.7	????1623.8	????2525.4	????2771.2	??31471	??871.78	??1945.2
										The prediction peak area	??1370.9	????543.31	????1347.7	????1585.4	????2299.5	????2523.4	??29158	??891.82	??1781.1
Relative error %	??1.73	????-5.83	????5.23	????-2.36	????-8.95	????-8.94	??-7.35	??2.30	??-8.44
										Whole forecast set average relative errors	??0.22	????-11.8	????2.58	????3.62	????0.82	????-1.36	??0.33	??2.84	??-4.56

Above example is to illustrate of the present invention, rather than restriction the present invention.Above example mostly concentrates on medicinal material extract technology, but in actual applications, whole Chinese medicine production process comprises that all processes such as the pre-treatment, immersion, extraction, purification of quality control, the medical material of medical material, concentrated, dry, freezing, filtration, mixing, dilution, storage can use the present invention.

Claims (13)

1, a kind of method that the Chinese medicine production technology is monitored in real time, it is characterized in that: it may further comprise the steps:

(1) chooses one group of normal sample of state of the art in each process point of desire monitoring in advance, through pretreatment, measure the near infrared spectrum and the chromatographic fingerprinting of this sample, set up four kinds of models of each monitoring process point respectively: near-infrared process-monitor model, finger printing technology control model, near-infrared-index components quantitative correction model and near-infrared-chromatographic fingerprinting correlation model;

(2) in the online sampling of the process point identical with setting up model, and through the pretreatment identical to sample, the The real time measure near infrared spectrum carries out pretreatment to the near infrared spectrum data that obtains;

(3) according to being subjected to the sample near infrared spectrum, utilization near-infrared process-monitor model judges whether state of arts is normal, then enters one or more in step (4), (5), (6) as if undesired;

(4) according to being subjected to the sample near infrared spectrum, utilization near-infrared-index components quantitative correction model obtains being subjected to the content of sample index components, technology is made tentative diagnosis, and after relevant middle process process adjusted accordingly, return step (2) again, if still undesired, then enter one or more in step (5), (6);

(5) according to being subjected to the sample near infrared spectrum, utilization near-infrared-chromatographic fingerprinting correlation model, obtain chromatographic fingerprinting in real time, again according to the finger printing technology control model, the difference of each finger print region on whole finger printing similarity of analytic sample and the collection of illustrative plates finds unusual middle process process to occur, make corresponding adjustment after, return step (2) again if still undesired, then enter step (6);

(6) determined off-line is subjected to the chromatographic fingerprinting of sample, and according to the chromatographic fingerprinting that obtains, utilization finger printing technology control model carries out process diagnosis.

2, a kind of method that the Chinese medicine production technology is monitored in real time as claimed in claim 1 is characterized in that: the pretreatment in the described step (1) comprises that centrifugal, filtration, the degassing and constant temperature handles.

3, a kind of method that the Chinese medicine production technology is monitored in real time as claimed in claim 1 is characterized in that: in the described step (2) near infrared spectrum that obtains is carried out pretreated method and comprise: single order differential, second-order differential, background are reduced, wavelet transformation, polynary scatter correction, orthogonal signalling correction, normalization, standardized method one or more methods are wherein united use.

4, as claim 1 or 2 or 3 described a kind of methods that the Chinese medicine production technology is monitored in real time, it is characterized in that: described near-infrared process monitoring model comprises the near infrared spectrum training set of setting up each process point sample, be formed for being subjected to " standard diagram " of sampling technology reference, in employing PCA, artificial neural network method, mahalanobis distance method, the SIMCA method one or more, analysis is subjected to the difference between sample and " standard diagram ", judges to be subjected to sample whether to fall into the difference threshold value of setting.

5, as claim 1 or 2 or 3 described a kind of methods that the Chinese medicine production technology is monitored in real time, it is characterized in that: described finger printing technology control model comprises the finger printing of setting up each process point sample, and the finished product finger printing is divided into some functional regions, zones of different is corresponding to the technology of product in the middle of different, formation is subjected to sampling technology reference " standard diagram ", with being subjected to the finger printing of sample to carry out the similarity comparison, judge to be subjected to sample whether to fall into the similarity threshold of setting with " standard diagram ".

6, a kind of method that the Chinese medicine production technology is monitored in real time as claimed in claim 4, it is characterized in that: described finger printing technology control model comprises the finger printing of setting up each process point sample, and the finished product finger printing is divided into some functional regions, zones of different is corresponding to the technology of product in the middle of different, formation is subjected to sampling technology reference " standard diagram ", with being subjected to the finger printing of sample to carry out the similarity comparison, judge to be subjected to sample whether to fall into the similarity threshold of setting with " standard diagram ".

7, as claim 1 or 2 or 3 or 6 described a kind of methods that the Chinese medicine production technology is monitored in real time, it is characterized in that: described near-infrared-index components quantitative correction model comprises the near infrared spectrum of measuring each process point sample, adopt high performance liquid chromatography, ultraviolet-visible spectrophotometry, gas chromatography, one or more methods in the lamellae scanning method, it is quantitative that sample is carried out index components, the utilization partial least square method, principal component regression method, a kind of method in neutral net method and the correction transformation matrix method obtains the dependency between near infrared spectrum and the index components content; Obtain being subjected to the index components content of sample by the near infrared spectrum that is subjected to sample.

8, a kind of method that the Chinese medicine production technology is monitored in real time as claimed in claim 4, it is characterized in that: described near-infrared-index components quantitative correction model comprises the near infrared spectrum of measuring each process point sample, adopt high performance liquid chromatography, ultraviolet-visible spectrophotometry, gas chromatography, one or more methods in the lamellae scanning method, it is quantitative that sample is carried out index components, the utilization partial least square method, principal component regression method, a kind of method in neutral net method and the correction transformation matrix method obtains the dependency between near infrared spectrum and the index components content; Obtain being subjected to the index components content of sample by the near infrared spectrum that is subjected to sample.

9, a kind of method that the Chinese medicine production technology is monitored in real time as claimed in claim 5, it is characterized in that: described near-infrared-index components quantitative correction model comprises the near infrared spectrum of measuring each process point sample, adopt high performance liquid chromatography, ultraviolet-visible spectrophotometry, gas chromatography, one or more methods in the lamellae scanning method, it is quantitative that sample is carried out index components, the utilization partial least square method, principal component regression method, a kind of method in neutral net method and the correction transformation matrix method obtains the dependency between near infrared spectrum and the index components content; Obtain being subjected to the index components content of sample by the near infrared spectrum that is subjected to sample.

10, as claim 1 or 2 or 3 or 6 or 8 or 9 described a kind of methods that the Chinese medicine production technology is monitored in real time, it is characterized in that: described near-infrared-chromatographic fingerprinting correlation model comprises sets up training set near infrared spectrum and chromatographic fingerprinting, on former chromatograph finger printing, choose the series of features fingerprint peaks, use the artificial neural network method, proofread and correct the transformation matrix method, a kind of in principal component regression method and the partial least square method, obtain the dependency of near infrared spectrum and characteristic fingerprint peak-to-peak area, obtain the peak area at characteristic fingerprint peak by the near infrared spectrum that is subjected to sample, retention time and the peak width digital simulation according to training set sample fingerprint collection of illustrative plates goes out a chromatographic fingerprinting again.

11, a kind of method that the Chinese medicine production technology is monitored in real time as claimed in claim 4, it is characterized in that: described near-infrared-chromatographic fingerprinting correlation model comprises sets up training set near infrared spectrum and chromatographic fingerprinting, on chromatographic fingerprinting, choose the series of features fingerprint peaks, use the artificial neural network method, proofread and correct the transformation matrix method, a kind of in principal component regression method and the partial least square method, obtain the dependency of near infrared spectrum and characteristic fingerprint peak-to-peak area, obtain the peak area at characteristic fingerprint peak by the near infrared spectrum that is subjected to sample, retention time and the peak width digital simulation according to training set sample fingerprint collection of illustrative plates goes out a chromatographic fingerprinting again.

12, a kind of method that the Chinese medicine production technology is monitored in real time as claimed in claim 5, it is characterized in that: described near-infrared-chromatographic fingerprinting correlation model comprises sets up training set near infrared spectrum and chromatographic fingerprinting, on chromatographic fingerprinting, choose the series of features fingerprint peaks, use the artificial neural network method, proofread and correct the transformation matrix method, a kind of in principal component regression method and the partial least square method, obtain the dependency of near infrared spectrum and characteristic fingerprint peak-to-peak area, obtain the peak area at characteristic fingerprint peak by the near infrared spectrum that is subjected to sample, retention time and the peak width digital simulation according to training set sample fingerprint collection of illustrative plates goes out a chromatographic fingerprinting again.

13, a kind of method that the Chinese medicine production technology is monitored in real time as claimed in claim 7, it is characterized in that: described near-infrared-chromatographic fingerprinting correlation model comprises sets up training set near infrared spectrum and chromatographic fingerprinting, on chromatographic fingerprinting, choose the series of features fingerprint peaks, use the artificial neural network method, proofread and correct the transformation matrix method, a kind of in principal component regression method and the partial least square method, obtain the dependency of near infrared spectrum and characteristic fingerprint peak-to-peak area, obtain the peak area at characteristic fingerprint peak by the near infrared spectrum that is subjected to sample, retention time and the peak width digital simulation according to training set sample fingerprint collection of illustrative plates goes out a chromatographic fingerprinting again.

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