On-line monitoring of multiple component parameters during ethanol fermentation by near-infrared spectroscopy / 生物工程学报

The quantity of biomass, glucose concentration and ethanol concentration are important parameters in ethanol fermentation. Traditional methods are usually based on samples for off-line measurement, which not only requires multiple instruments for test and analysis but also consumes notable time and effort, and therefore is inconvenient for real-time process control and optimization. In this study, an in-situ detection method based on the near-infrared (NIR) spectroscopy is proposed for measuring the above process parameters in real time. The in-situ measurement is carried out by using an immersion type NIR spectroscopy. A multi-output prediction model for simultaneously estimating the quantity of glucose, biomass and ethanol is established based on a multi-output least-squares support vector regression algorithm. The experimental results show that the proposed method can precisely measure the quantity of glucose, biomass and ethanol during the ethanol fermentation process. Compared to the existing partial-least-squares method for modeling and prediction of individual components, the proposed method could evidently improve the measurement accuracy and reliability.

Simultaneous Determination of Seven Components in Gamboge and Its Processed Products Using a Single Reference Standard / 中草药·英文版

Objective To establish a quality control method for simultaneous determination of multiple components in gamboge. Methods A single reference standard for the determination of multiple components (SSDMC) with HPLC was proposed. Seven major components of gamboge including gambogenic acid (S), β-morellic acid (C1), 2R-30-hydroxygambogic acid (C2), isogambogenic acid (C3), gambogellic acid (C4), 2R-gambogic acid (C5), and 2S-gambogic acid (C6) were simultaneously analyzed using gambogenic acid as reference standard. The credibility and feasibility of SSDMC method were validated with respect to linearity, limits of detection and quantification, precision, stability, repeatability, accuracy, ruggedness, and robustness. The relative conversion factors (RCFs) of S and C1-6 were calculated. Twelve batches of gamboge including crude and processed products were successfully analyzed by applying the SSDMC and traditional external standard (ES) methods. Results The SSDMC method was credible and feasible. The RCFs of S and C1-6 were 1.000, 0.913, 0.864, 1.064, 0.777, 0.921, and 0.919, respectively. No significant difference was observed in the contents of the seven components between SSDMC and ES methods. The heat-processing technique caused a reduction in the seven components. Conclusion SSDMC is a simple, reliable, and effective method for the analysis of the complex multiple components in gamboge, and it is also a practical and economical approach.

In vitro and in vivo intestinal absorption of Huanglian decoction in multi-component environment / 中国中药杂志

The effect of drugs in the body is always inseparable with the dynamic processes of absorption, distribution, metabolism and excretion. For oral drug, absorption, as the first link to enter the body, is particularly valued. Traditional Chinese medicine has multiple components and multiple targets, and the nature of its single composition is different from that in the multicomponent environment. Alkaloids in Huanglian extract was used as the main object in this study to establish an analytical method for determining the content of alkaloids in Huanglian. In addition, the compositions of the Huanglian aqueous extract solution which can be absorbed through intestinal wall into blood, were initially determined by the means of everted gut sac and in intestinal perfusion with venous sampling experiment. This paper can provide data reference and support for the further study on the absorption and metabolism of Huanglian.

Evaluation for impacts of gut wall metabolism of multiple components in Chuanxiong Rhizoma during intestinal absorption with S9 incubation / 中国中药杂志

The information of drug deposition in the intestine is required in the study for the drug absorption in biopharmaceutics classification system (BCS). To illustrate the impacts of gut wall metabolism on the absorption, metabolism of multiple components in Chuanxiong Rhizoma in gut wall was tested by rat S9 incubation in vitro. The chemical fingerprint technology was used in this study to simultaneously detect multiple components in Chuanxiong, and peak areas before and after S9 incubation were compared. The results showed that senkyunolide I and several constituents were metabolized by gut wall, and one new metabolite was founded. However, ferulic acid and other compounds remained unchanged after incubation. Therefore, the subsequent intestinal permeability of multiple components in Chuanxiong that were not metabolized in the intestine was suggested to be detected directly by in situ single-pass intestinal perfusion (SPIP).Nonetheless, the intestinal permeability of the constituents that were metabolized in the intestine shall be explored by appropriate approaches.

Effects of different penetration enhancers on pharmacokinetics of active components in Xiangfu Siwu transdermal patches / 中国中药杂志

To study the effect of different penetration enhancers on the pharmacokinetic characters of six active components in Xiangfu Siwu transdermal patch (XBW) and optimize the best penetration enhancers. During the experiment, the patches containing different penetration enhancers were stuck on the rat's skin, and then the blood samples were acquired at different time points. Six active components in plasma were determined by UPLC-MS/MS. The main pharmacokinetic parameters were calculated with DAS software package. The total factor scores (F) of the plasma concentrations of six components at every time point in different groups were calculated using principle component analysis, and the areas under F versus time curves (AUCF-t) were employed to be the indexes for selecting penetration enhancers. The results demonstrated that compared with the control group, the AUCF-t from other groups increased prominently and furthermore, 5% menthol manifested the best effect. In this research, 5% menthol could remarkably promote the percutaneous penetration effect of the six active compounds in XBW, and it could provide a scientific basis for the preparation research of XBW.

Investigation of research method of HPLC specific chromatography of biochemical injection with multiple components / 中国生化药物杂志

The existing literature on fingerprint chromatography at home and abroad and the quality control of biochemical injection with multiple components were reviewed in this article.Combined with the laboratory research, It is proposed that the strategy for HPLC specific chromatography of biochemical injection with multiple components in order to provide the basis for effectively promoting the establishment and development of HPLC specific chromatography of biochemical injection with multiple components.

Guideline of substitute reference substance method for evaluation of traditional chinese medicines / 中国药学杂志

Substitute reference substance method is an effective approach for quality control of multiple components in accordance with the characteristics of traditional Chinese medicines. The purpose of the guideline is to guide the establishment of substitute reference substance method, prove the conformance of the method to the requirements for testing, and standardize the study method and its application in national drug standards. The topics of the guideline include the definition and classification of substitute reference substance method, the principles and approaches of quantitative analysis, the identification and confirmation of chromatographic peaks, and technical requirements. When substitute reference substance method is used for fingerprint identification or multiple components assay in traditional Chinese medicines, the analytical method can be validated following the guideline.

Pharmacodynamics and potential synergistic effects of Mai-Luo-Ning injection on cardiovascular protection, based on molecular docking / 中国天然药物

As a computer-assisted approach, molecular docking has been universally applied in drug research and development and plays an important role in the investigation and evaluation of herbal medicines. Herein, the method was used to estimate the pharmacodynamics of Mai-Luo-Ning injection, a traditional Chinese compound herbal prescription. Through investigating the interactions between several important proteins in cardiovascular system and characteristic components of the formula, its effect on cardiovascular protection was evaluated. Results showed the differences in the interactions between each component and the selected target proteins and revealed the possible mechanisms for synergistic effects of various characteristic components on cardiovascular protection. The study provided scientific evidence supporting the mechanistic study of the interactions among multi-components and targets, offering a general approach to investigating the pharmacodynamics of complicated materials in compound herbal prescriptions.