Your search keyword '"Longhu Chen"' showing total 19 results

1. Estimating non-productive water loss in irrigated farmland in arid oasis regions: Based on stable isotope data

Author

Yinying Jiao, Guofeng Zhu, Gaojia Meng, Siyu Lu, Dongdong Qiu, Xinrui Lin, Rui Li, Qinqin Wang, Longhu Chen, Ling Zhao, Jiangwei Yang, and Niu Sun

Subjects

Arid regions, Water cycle, Stable isotopes, Evaporation loss, Infiltration, Agriculture (General), S1-972, Agricultural industries, HD9000-9495

Abstract

In arid oasis regions, water resources are severely scarce, with agricultural water usage far exceeding that of more humid areas. As a result, assessing non-productive water losses in farmland becomes crucial for estimating the water requirements reliant on irrigation for oasis cultivation. From April 2018 to October 2021, we established an observation system in the Minqin Oasis farmland. By utilizing hydrogen and oxygen isotopes in precipitation, soil water, and maize stem xylem water, we quantified the non-productive water loss (FE) and soil water infiltration rate (fe) in maize fields. Our findings indicate: (1) The average non-productive losses from rainfall and irrigation in arid maize fields were 39 %, with peak losses reaching 58 %; (2) Non-productive losses due to evapotranspiration were mainly observed in June and July, while losses from infiltration predominantly occurred in April-May and August-September; (3) Crop evapotranspiration capacity emerged as a significant factor influencing evaporation losses, while individual irrigation amounts and rainfall determined soil infiltration losses. We believe that judiciously managing irrigation volume and adjusting irrigation strategies in arid farmlands could unlock substantial potential for conserving water resources.

Published

2023

2. GRACE Data Quantify Water Storage Changes in the Shiyang River Basin, an Inland River in the Arid Zone

Author

Gaojia Meng, Guofeng Zhu, Jiawei Liu, Kailiang Zhao, Siyu Lu, Rui Li, Dongdong Qiu, Yinying Jiao, Longhu Chen, and Niu Sun

Subjects

GRACE, water storage, Shiyang River basin, human activities, Science

Abstract

Global changes and human activities have significantly altered water cycle processes and water resource patterns in inland river basins in arid zones. New tools are needed to conduct more comprehensive and scientific assessments of basin water cycle processes and water resource patterns. Based on GRACE satellite and Landsat data, this study investigated terrestrial water storage changes and surface water area in the Shiyang River Drainage Basin from 2002 to 2021. It explored the effects of climate change and water conservancy construction on terrestrial water storage changes in the basin. The results of the study show that, although the surface water quantity in the Shiyang River basin has increased in the past 20 years, the overall decreasing trend of terrestrial water storage in the basin of the Shiyang River has an interannual decreasing rate of 0.01 cm/a. The decreasing trend of water storage in the midstream and downstream areas is more prominent. The change in precipitation controls the change in water storage in the Shiyang River Drainage Basin. Artificial water transfer has changed the spatial distribution of water resources in the basin of the Shiyang River. However, it still has not completely reversed the trend of decreasing water storage in the middle and lower reaches of the Shiyang River.

Published

2023

3. Application of microcalorimetry of Escherichia coli growth and discriminant analysis to the quality assessment of a Chinese herbal injection (Yinzhihuang)

Author

Yongshen Ren, Ping Zhang, Dan Yan, Yan Yan, Longhu Chen, Lingling Qiu, Zhinan Mei, and Xiaohe Xiao

Subjects

Biothermal active fingerprint, Microcalorimetry, Quality control, Chinese herbal injection, Escherichia coli, Therapeutics. Pharmacology, RM1-950

Abstract

This paper describes a novel approach to the quality control of a Chinese herbal injection based on microcalorimetric determination of its effect on the biothermal active fingerprint (BTAF) of Escherichia coli (E. coli) growth. Yinzhihuang Injection (YZHI) was selected for this proof of concept study. Reference samples of YZHI were collected and compared with test (stressed) samples prepared under different stress conditions. The BTAF of E. coli growth was found to be affected by YZHI and the changes were analyzed on the basis of eleven biothermokinetic parameters. Similarity and multivariate statistical analysis were used to investigate the differences between reference and test samples and discriminant analysis was used to delineate the altered samples. Reference samples were found to have coincident BTAFs with similarity index >0.99. Stressed samples showed differences in the BTAF which increased in line with decreased quality. Discriminant formulae were developed based on a sensitivity parameter which could identify all altered samples. In conclusion, BTAF can be used to assess the quality of YZHI both qualitatively and quantitatively and has the potential to provide a sensitive method for quality control of Chinese herbal injections.

Published

2012

4. GRACE Data Quantify Water Storage Changes in the Shiyang River Basin, an Inland River in the Arid Zone

Author

Sun, Gaojia Meng, Guofeng Zhu, Jiawei Liu, Kailiang Zhao, Siyu Lu, Rui Li, Dongdong Qiu, Yinying Jiao, Longhu Chen, and Niu

Subjects

GRACE, water storage, Shiyang River basin, human activities

Abstract

Global changes and human activities have significantly altered water cycle processes and water resource patterns in inland river basins in arid zones. New tools are needed to conduct more comprehensive and scientific assessments of basin water cycle processes and water resource patterns. Based on GRACE satellite and Landsat data, this study investigated terrestrial water storage changes and surface water area in the Shiyang River Drainage Basin from 2002 to 2021. It explored the effects of climate change and water conservancy construction on terrestrial water storage changes in the basin. The results of the study show that, although the surface water quantity in the Shiyang River basin has increased in the past 20 years, the overall decreasing trend of terrestrial water storage in the basin of the Shiyang River has an interannual decreasing rate of 0.01 cm/a. The decreasing trend of water storage in the midstream and downstream areas is more prominent. The change in precipitation controls the change in water storage in the Shiyang River Drainage Basin. Artificial water transfer has changed the spatial distribution of water resources in the basin of the Shiyang River. However, it still has not completely reversed the trend of decreasing water storage in the middle and lower reaches of the Shiyang River.

Published

2023

5. Effects of Urbanization on the water cycle in the Shiyang River Basin: Based on stable isotope method

Author

Rui Li, Guofeng Zhu, Siyu Lu, Liyuan Sang, Gaojia Meng, Longhu Chen, Yinying Jiao, and Qinqin Wang

Abstract

The water cycle has been hampered by urban development and the changes it has made to natural surfaces, especially in arid regions with scarce water supplies. Urbanization has a significant hydrological impact because of the high water demands of urban populations and economic factors. We set up an observational system close to Wuwei City, which is situated in the Shiyang River Basin, to research the effects of urbanization on isotope dynamics within the basin. We sought to clarify any perceptible changes in isotopic patterns by the methodical collecting and analysis of water samples from various water sources. According to our research, landscape dams in urban areas have a substantial impact on the evaporation and penetration of surface water. We have also observed a weaker connection between precipitation, surface water, and groundwater in urban areas, as compared to non-urban regions. Also, our research has demonstrated that metropolitan areas have a quicker catchment cycle and a quicker conversion of rainfall to runoff. These results have important ramifications for managing water resources and urban planning since they offer important insight into the hydrological dynamics of urban areas. In dry regions, where care must be made to the loss of water resources owing to landscape dam evaporation, the barrier impact of urbanization on water body connection is particularly severe.

Published

2023

6. The embedded real-time detection system of moving object based on improved Gaussian mixture model.

Author

Zhiwei Tang, Ziwei Lin, Bin Li 0019, and Longhu Chen

Published

2016

7. Dataset of Stable Isotopes of Precipitation in the Eurasian Continent.

Author

Longhu Chen, QinqinWang, Guofeng Zhu, Xinrui Lin, Dongdong Qiu, Yinying Jiao, Siyu Lu, Rui Li, Gaojia Meng, and YuhaoWang

Subjects

*STABLE isotopes, *ATMOSPHERIC circulation, *HYDROGEN isotopes, *OXYGEN isotopes, *GLOBAL warming

Abstract

Stable isotopes in precipitation can effectively reveal the process of atmospheric water circulation, serving as an effective tool for hydrological and water resources research, climate change, and ecosystem studies. The scarcity of stable isotope data in precipitation has hindered comprehension of regional hydrology, climate, and ecology due to discontinuities on a temporal scale and unevenness on a spatial scale. To this end, we collated stable hydrogen and oxygen isotope data in precipitation from 1930 stations in Eurasia from 1961 to 2022, totalling 51,752 data records. Stable isotopes in precipitation across various regions of Eurasia, as a whole, decrease with increasing latitude and distance from the coast. In the summer, stable isotopes in precipitation are relatively enriched, while in winter, they are relatively depleted. In recent decades, the stable isotope values of Eurasian precipitation show an overall trend of increasing variation with the advancement of years, which is associated with global warming. Geographical location, underlying surface conditions, seasons, and atmospheric circulation are all factors that determine the characteristics of stable isotopes in precipitation. The dataset of stable isotopes in Eurasian precipitation provides a powerful tool for understanding changes in regional atmospheric water circulation and assists in conducting hydrological, meteorological, and ecological studies in related regions. [ABSTRACT FROM AUTHOR]

Published

2023

8. Anomalous variations in stable precipitation isotopes driven by high-temperature events.

Author

Xinrui Lin, Guofeng Zhu, Dongdong Qiu, Longhu Chen, Dehong Si, Linlin Ye, Siyu lu, Yinying Jiao, Jiawei Liu, Rui Li, Qinqin Wang, Jiangwei Yang, and Wenhao Zhang

Abstract

Stable hydrogen and oxygen isotopes in atmospheric precipitation have the potential to identify abnormal weather events, and climate change will cause more intense and frequent high-temperature events, which already pose a threat to human health and the development of the global economy. Based on precipitation isotope data from 37 high-temperature events that occurred in various global regions between 2010 and 2022, this article examines the impacts of high-temperature events on stable precipitation isotopes. The results show that (1) stable precipitation isotopes are more enriched under the influence of high-temperature events than in the same month of previous years; the slope and intercept of the precipitation local meteoric water line (LMWL) are lower than in the same month of previous years and the global meteoric water line (GMWL); and the precipitation d-excess is lower than the global average. (2) Temperature is the primary meteorological factor that produces abnormal variations in precipitation isotopes under the influence of high-temperature events, and the impact of temperature on precipitation isotopes is significantly amplified (P<0.05). (3) Furthermore, variations in atmospheric circulation patterns, water vapor transport fluxes, regional water vapor background, and surface morphology can lead to regional differences in anomalous variations in precipitation isotopes. This study reveals the impact of high temperatures on precipitation isotopes and their mechanisms, which is instructive for disentangling the influence of high-temperature events on water cycle processes. It may also offer fresh perspectives for the reconstruction of paleo-high-temperature events based on isotopes. [ABSTRACT FROM AUTHOR]

Published

2023

9. Human activities determine vegetation water use in the middle and lower reaches of arid areas

Author

Siyu Lu, Guofeng Zhu, Rui Li, Yinying Jiao, Gaojia Meng, Dongdong Qiu, Yuwei Liu, Lei Wang, Xinrui Lin, Yuanxiao Xu, Qinqin Wang, and Longhu Chen

Abstract

In the middle and lower reaches of inland river basins of arid regions, human-intensive exploitation directly determines the distribution patterns of plants in arid areas and further determines the patterns of water use and the water cycle in arid regions. However, human activities on vegetation water utilization and the influence of the water cycle process and mechanism are not clear. In this study, seven observation systems were set up to collect samples in the mountainous, oasis and desert areas of the Shiyang River Basin, an arid inland river in central Asia. In order to quantitatively assess the contribution of different potential water sources to plants, stable isotopes of various water bodies in different geomorphic units of the basin were analyzed. The results showed that precipitation and soil water were the main sources of forest trees in mountainous areas, and the farmland vegetation in the middle and lower reaches of the oasis mainly absorbed soil water supplied by irrigation. The desert area forms vegetation in the ecological water transport area, and vegetation mainly absorbs soil water, lake water and groundwater formed by ecological water transport. On the whole, the water use patterns of plants in mountainous areas are not affected by human activities fundamentally, the oasis area is mainly affected by irrigation activities, and the inland river terminal lake area is mainly affected by ecological water transport. Human activities determine the water use patterns in the middle and lower reaches of inland rivers in arid areas.

Published

2023

10. Dissipation and movement of soil water in artificial forest in arid oasis areas: Cognition based on stable isotopes

Author

Dongdong Qiu, Guofeng Zhu, Xinrui Lin, Yinying Jiao, Siyu Lu, Jiatong Liu, Jiawei Liu, Wenhao Zhang, Linlin Ye, Rui Li, Qinqin Wang, and Longhu Chen

Subjects

Earth-Surface Processes

Published

2023

11. Optimal design of broadband acoustic metasurface absorbers

Author

Yinghang Chen, Chi Xu, Jian Chen, Zhi-Han Li, Longhu Chen, Weichun Huang, and Ming-Hui Lu

Subjects

Condensed Matter Physics, Mathematical Physics, Atomic and Molecular Physics, and Optics

Abstract

The absorption of low-frequency noise has always been limited by structural thickness, but the novel physical properties of sound-absorbing metamaterials provide a solution to this problem. Based on genetic algorithm, an acoustic metasurface absorber (AMA) composed of micro-perforated plates (MPPs) and impedance matching coiled-up cavities (IMCCs) is proposed. Different from previously reported metamaterials, this structure can easily provide flexible and accurate broadband sound absorption in different target frequency bands. The theoretical model behind the algorithm is established, and two optimal structures (AMA I/AMA II) are obtained for low and mid-high frequency bands. Broadband sound absorption is realized with a thickness of only 71 mm (about 1/13 of the relevant wavelength at 369 Hz), and an average sound absorption coefficient of 0.931 is achieved in the low-frequency band of 350–1000 Hz. Furthermore, by changing the frequency band of the quasi-perfect absorber to 500–2000 Hz, the average sound absorption coefficient exceeds 0.945 with a thickness of only 55 mm (about 1/11 of the relevant wavelength at 563 Hz). The reflection coefficient in the complex plane and theoretical impedance analysis are utilized to reveal the underlying mechanism of the absorption and the acoustic characteristics of the two structures, which show excellent broadband absorption performance in the low and mid-high frequency bands. This work provides a method of arbitrarily modulating surface acoustic impedance in broadband and a reference for broadband noise control.

Published

2023

12. Hydrological effects of evapotranspiration in the Qilian Mountains forest belt.

Author

Yinying Jiao, Guofeng Zhu, Dongdong Qiu, Yuwei Liu, Lei Wang, Siyu Lu, Gaojia Meng, Xinrui Lin, Rui Li, Qinqin Wang, Longhu Chen, and Niu Sun

Abstract

Mountainous areas are the main water-producing and source areas of rivers. Global climate change is transforming the distribution of plants and forms of water use. Therefore, a clear understanding of evapotranspiration in mountainous forest zone is key for understanding the ecohydrological effect of vegetation and its influence on the water cycle of the watershed. We quantified the evapotranspiration processes in the forest belts of the Qilian Mountains as well as their contribution to runoff yield and concentration based on precipitation, soil water, and plant water samples and experimental data. The study showed that transpiration of Qinghai spruce accounted for the highest proportion of evapotranspiration in the entire Qinghai spruce forest ecosystem, with an average of 79 %, which means that transpiration is much greater than evaporation. Soil water content and air humidity were the dominant factors influencing evapotranspiration in Qinghai spruce forest belts. The growing season of Qinghai spruce is characterized by greater evapotranspiration than precipitation in each month. Consequently, the forest zone does not yield flows in the eastern part of the Qilian Mountains. The warming of global temperatures and human activities are likely to trigger shifts in the distribution areas and evapotranspiration regimes of Qinghai spruce, which in turn will lead to a change in water resource patterns in the basin. [ABSTRACT FROM AUTHOR]

Published

2023

13. Identification of compounds in an anti-fibrosis Chinese medicine (Fufang Biejia Ruangan Pill) and its absorbed components in rat biofluids and liver by UPLC-MS

Author

Longhu Chen, Jia-Bo Wang, Cong-En Zhang, Lingling Qiu, Dan Yan, Xiaohe Xiao, Qin Dong, Ming Niu, Wuwen Feng, and Li-Na Ma

Subjects

Liver Cirrhosis, Male, 0301 basic medicine, Drug, media_common.quotation_subject, Clinical Biochemistry, Traditional Chinese medicine, Urine, Pharmacology, Mass spectrometry, Biochemistry, High-performance liquid chromatography, Mass Spectrometry, Analytical Chemistry, Rats, Sprague-Dawley, 03 medical and health sciences, In vivo, Fibrosis, medicine, Animals, Distribution (pharmacology), Medicine, Chinese Traditional, media_common, Chemistry, Cell Biology, General Medicine, medicine.disease, Body Fluids, Rats, 030104 developmental biology, Liver, Chromatography, Liquid

Abstract

Liver fibrosis represents a major public health problem worldwide. To date, antifibrotic treatment of fibrosis still remains an unconquered area for western medicine. Fufang Biejia Ruangan Pill (FFBJ) is the first anti-fibrosis drug approved by the China State Food and Drug Administration, and has been demonstrated to have a good antifibrotic efficacy in China. However, the chemical constituents of FFBJ and the absorption and distribution of it in vivo remain unclear, which restricts its research on bioactive components identification and mechanisms of action. In this study, ultra-performance liquid chromatography/quadrupole-time-of-flight mass spectrometry (UPLC/Q-TOF-MS) combined with ultra-performance liquid chromatography/triple quadrupole mass spectrometry (UPLC/QqQ-MS) was applied to identify compounds in FFBJ and its absorbed components in rat serum, liver and urine samples after intragastric administration of FFBJ. As a result, a total of 32 Chinese material medica components including organic acids, terpenoids, flavonoids, phenylpropanoids and alkaloids, were identified or tentatively characterized, while the distribution of 10 prototype compounds in rat serum, liver and urine were discovered. The identified constituents in FFBJ and the distribution of prototype compounds in rat serum, liver and urine are help for understanding the material bases of its therapeutic effects.

Published

2016

14. The Improved Gaussian Mixture Model for Real-Time Detection System of Moving Object

Author

Yunfei Cheng, Longhu Chen, and Zhiwei Tang

Subjects

Sea waves, business.industry, Computer science, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Pattern recognition, Motion detection, Mixture model, Video image, Repetitive motion, Computer Science::Computer Vision and Pattern Recognition, Segmentation, Artificial intelligence, business, ComputingMethodologies_COMPUTERGRAPHICS

Abstract

Detection of moving objects is a kind of segmentation techniques based on regional characteristic such as color, gray, texture, which is the key technology in analyzing and processing of video image. A real-time motion detection method based on improved Gaussian Mixture Model is presented in this paper which is optimized and structure adjusted from Gaussian Mixture Model. Gaussian Mixture Model has been widely used in complex background scene modeling, especially in some occasions with small repetitive motion, such as shaking of the leaves, a rotating fan, bushes, the sea waves, rain, snow, etc.

Published

2017

15. The program design of video capture based on SYSBIOS embedded system

Author

Longhu Chen, Bo Zhao, and Xiaorong Xia

Subjects

business.industry, Video capture, Computer science, Embedded system, Program Design Language, business

Published

2017

16. Application of microcalorimetry of Escherichia coli growth and discriminant analysis to the quality assessment of a Chinese herbal injection (Yinzhihuang)

Author

Lingling Qiu, Ping Zhang, Xiaohe Xiao, Longhu Chen, Dan Yan, Yongshen Ren, Yan Yan, and Zhinan Mei

Subjects

Isothermal microcalorimetry, Chromatography, Biothermal active fingerprint, Quality assessment, lcsh:RM1-950, Quality control, Biology, Linear discriminant analysis, medicine.disease_cause, Microcalorimetry, lcsh:Therapeutics. Pharmacology, medicine, Escherichia coli, Stress conditions, General Pharmacology, Toxicology and Pharmaceutics, Multivariate statistical, Chinese herbal injection

Abstract

This paper describes a novel approach to the quality control of a Chinese herbal injection based on microcalorimetric determination of its effect on the biothermal active fingerprint (BTAF) of Escherichia coli ( E. coli ) growth. Yinzhihuang Injection (YZHI) was selected for this proof of concept study. Reference samples of YZHI were collected and compared with test (stressed) samples prepared under different stress conditions. The BTAF of E. coli growth was found to be affected by YZHI and the changes were analyzed on the basis of eleven biothermokinetic parameters. Similarity and multivariate statistical analysis were used to investigate the differences between reference and test samples and discriminant analysis was used to delineate the altered samples. Reference samples were found to have coincident BTAFs with similarity index >0.99. Stressed samples showed differences in the BTAF which increased in line with decreased quality. Discriminant formulae were developed based on a sensitivity parameter which could identify all altered samples. In conclusion, BTAF can be used to assess the quality of YZHI both qualitatively and quantitatively and has the potential to provide a sensitive method for quality control of Chinese herbal injections.

Published

2012

17. Isothermal titration calorimetry vs. high performance liquid chromatography fingerprint

Author

Feng Xue, Dan Yan, Yan Yan, Manrong Tan, Xiaohe Xiao, Ping Zhang, Longhu Chen, Xiao-xi Du, and Lingling Qiu

Subjects

Chromatography, Chemistry, Enthalpy, Isothermal titration calorimetry, Condensed Matter Physics, High-performance liquid chromatography, Dosage form, Gibbs free energy, Hplc fingerprint, symbols.namesake, symbols, Drug reaction, Physical and Theoretical Chemistry, Thermal analysis

Abstract

Chinese Medicine Injections (CMIs) are powerful preparations, but adverse drug reactions can hardly be avoided. Incorrect drug combination is a major cause. Recently, insoluble particulate matter test, pH measurement, and high performance liquid chromatography (HPLC) fingerprint have been recommended as potential strategies for prediction of drug-incompatible reactions. However, these methods were complex to manipulate, subjective to judge, or were of poor relevance and low sensitivity. In this study, a novel application for the detection of compatibility of combination of CMIs based on isothermal titration calorimetry (ITC) has been proposed. Qingkailing Injection (QKL) was selected as a representative drug to blend with Potassium Chloride Injection (KCl) and Calcium Chloride Injection (CaCl2). The type of reactions between them was intuitively manifested by the thermodynamic parameters including Gibbs free energy change (ΔG), enthalpy change (ΔH), and entropy change (ΔS). The results indicated that when QKL mixed with CaCl2, ΔG T|ΔS|, which meant chemical changes happened between them and ADRs might happen in clinic. On the contrary, the reactions between QKL and KCl existed solely as physical processes, indicating that it was relatively safe. Meanwhile, HPLC fingerprint was also applied, but no significant difference was found. It is hard to distinguish whether incompatible reactions have happened during HPLC. The study suggested that with the advantages of convenience, sensitivity, and reliability, ITC could serve as an essential tool in the detection of incompatible reactions of drug combination. The described method could be used for early prediction of adverse drug reactions, which would be helpful to ensure the rationality of drug combination.

Published

2012

18. Detection of microorganisms in different growth states based on microcalorimetry

Author

Yongsheng Ren, Yan Yan, Longhu Chen, Dan Yan, Manrong Tan, Xianghong Meng, Lingling Qiu, Jianyu Li, and Xiaohe Xiao

Subjects

Isothermal microcalorimetry, Exponential growth, Sterility, Chemistry, Microorganism, Energy metabolism, Sterility test, Physical and Theoretical Chemistry, Bacterial growth, Condensed Matter Physics, Biological system

Abstract

A challenging method for sterility test which was rapid and reliable had been established to assess the adaptability and robustness of the microbial under different conditions. There were material and energy metabolism or exchange with microbial on microcalorimetry, as a result this method can be served as one of the optimization of thermodynamics sterility test. Thermal power-time curves under various environmental conditions (including processing temperature, storage time, and drugs inhibition) were determined. Typical microbial growth thermal power-time curves were obtained. The curves were analyzed qualitatively and quantitatively by similarity values of bio-profiles and thermodynamics parameters, such as the exponential growth rate constant (k), detection time (T d). The similarity showed that microbial growth curves of low processing temperature, short storage time (1 month), and Traditional Chinese Medicine injection (Shuanghuanglian, contained native compounds) inhibiting were match better with the normal than other circumstance. Thermodynamic parameters indicated that the microcalorimetric method could detect the positive bacteria within 18 h (less than 10 cfu), and more quickly identify the different states of the bacterium growth and metabolism than routine sterility. In conclusion, characterized by of the specific and strong two-dimensional information, microcalorimetry could supply thermograms as biological profiles to describe the microbial activity under different conditions, which were not only used as a rapid and reliable identification of microbial, but also as a method for sterility test of microcalorimetry optimization.

Published

2011

19. [Investigation on production process quality control of traditional Chinese medicine--Banlangen granule as an example]

Author

Longhu Chen, Xiao-He Xiao, Manrong Tan, Cheng Jin, Dan Yan, Hanbing Li, Lingling Qiu, and Yan Yan

Subjects

Process quality, Quality Control, Traditional medicine, business.industry, Traditional Chinese medicine, Quality management system, Complementary and alternative medicine, Process control, Medicine, Pharmacology (medical), Biochemical engineering, Clinical efficacy, General Pharmacology, Toxicology and Pharmaceutics, Medicine, Chinese Traditional, business, Control methods, Drugs, Chinese Herbal

Abstract

For the quality management system of herbal medicines, intermediate and finished products it exists the " short board" effect of methodologies. Based on the concept of process control, new strategies and new methods of the production process quality control had been established with the consideration of the actual production of traditional Chinese medicine an the characteristics of Chinese medicine. Taking Banlangen granule as a practice example, which was effective and widespread application, character identification, determination of index components, chemical fingerprint and biometrics technology were sequentially used respectively to assess the quality of Banlangen herbal medicines, intermediate (water extraction and alcohol precipitation) and finished product. With the transfer rate of chemical information and biological potency as indicators, the effectiveness and transmission of the above different assessments and control methods had been researched. And ultimately, the process quality control methods of Banlangen granule, which were based on chemical composition analysis-biometric analysis, had been set up. It can not only validly solute the current status that there were many manufacturers varying quality of Banlangen granule, but also ensure and enhance its clinical efficacy. Furthermore it provided a foundation for the construction of the quality control of traditional Chinese medicine production process.

Published

2012