31 July 2025, Volume 45 Issue 7

    

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Special Column for Quality Research and Evaluation of Stem Cell Products (Continued)
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  Preparation and application of lentivirus vector CV2117-HAV-HTLV-2 pseudovirus system^*

  FANG Ji-qing, WEI Xia-jie, YUAN Zi-wei, WANG Yao, LI Yao-ling, YANG Ying, RAO Chun-ming

  Chinese Journal of Pharmaceutical Analysis. 2025, 45(7): 1103-1111. https://doi.org/10.16155/j.0254-1793.2025-0057

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  Objective: To develop an effective multi-genes pseudovirus model as positive control for detecting exogenous RNA virus (CV2117, HAV and HTLV-2) of biological products. Methods: Three-plasmid lentivirus packaging system, including enveloped plasmid (pMD2.G), packaging plasmid (psPAX2) and shuttle plasmid (pWPXL-EGFP), was used. Shuttle plasmid containing six gene fragments was synthesized and named as pCHH-EGFP, which was containing CV2117, HAV and HTLV-2 gene fragments. The mass ratio of enveloped plasmid-packaging plasmid-shuttle plasmid (1 ∶ 3 ∶ 4) was used to transfect into HEK293T/17 cells and fresh complete media was changed at 5 h after transfection. The nuclease was added into transfected cell culture at 24 h after transfection. Virus supernatant was collected at 48 h and 72 h after transfection. Virus supernatant was diluted 10 times with PBS for infecting HEK293T/17 cells. Fresh media was changed at 24 h after infection and virus infection titer was evaluated by fluorescence microscope, flow cytometry at 72 h post-infection. Reverse transcription quantitative real-time PCR (RT-qPCR) method was used to detect the gene copy number of pseudovirus as following: ①pretreatment at 42 ℃ for 2 min; ②reverse transcription at 25 ℃ for 5 min, 1 cycle; 42 ℃ for 30 min, 1 cycle;85 ℃ for 5 min, 1 cycle; ③PCR amplification at 37 ℃ for 2 min, 1 cycle; predenaturation at 95 ℃ for 10 min,1 cycle; denaturation at 95 ℃ for 15 s, annealea at 60 ℃ for 1 min, 40 cycles. The pseudoviruses were tested for sample suitability with human mesenchymal stem cell samples. Results: The three-plasmid lentivirus packaging system was used to transfect into HEK 293T/17 cells and the enhanced green fluorescent protein (EGFP) positive cells was more than 90%. The residual plasmid DNA in pCHH-EGFP pseudovirus was less than 0.005%. The EGFP positive cells of pCHH-EGFP lentivirus was 8.06% by flow cytometry, and the virus infection titer was 6.21×105 TU · mL-1. The copy number of the target gene was detected by RT-qPCR, the copy number of CV2117-1, CV2117-2, HAV-1, HAV-2, HTLV-2-1 and HTLV-2-2 were 2.99×104 copies · μL-1, 1.50×104 copies · μL-1, 2.40×104 copies · μL-1, 1.09×104 copies · μL-1, 2.03×104 copies · μL-1 and 1.92×104 copies · μL-1, respectively. The results of hMSCs sample suitability showed that lentivirus vector CV2117-HAV-HTLV2 (LV-CHH) pseudovirus could be used as the positive control, and the recovery rate was 70%-130%. Conclusion: The lentivirus pseudovirus, LV-CHH, containing multiple RNA viral gene fragments was constructed successfully. It can be used as a positive control for PCR detection of exogenous virus in stem cell products.
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  Research of human mesenchymal stem cell's susceptibility to bovine and porcine viruses potentially introduced during production^*

  CAO Yi-dan, WANG Yan-hui, CUI Meng-shan, WANG Xin-yue, ZHANG Tong, DONG Ying-ying, ZHANG Rui-rui, CHEN Xiao-fei, LIU Ming-yue, LI Hui-ting, FU Xin-yue, PANG Lin, RAO Chun-ming

  Chinese Journal of Pharmaceutical Analysis. 2025, 45(7): 1112-1121. https://doi.org/10.16155/j.0254-1793.2024-1302

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  Objective: To assess the risk of introducing bovine and porcine viruses in the production of human mesenchymal stem cells, which may involve the use of raw materials such as bovine serum and trypsin, this study infected human mesenchymal stem cells (HMSC) with various bovine and porcine viruses. The aim was to provide a foundation for risk assessment in the prevention and control of these viruses in HMSC. Additionally, by comparing the infection and proliferation patterns of bovine and porcine viruses in human cell lines 293T/17 and MRC-5, this study offered a comprehensive analysis of the susceptibility of HMSC to common bovine and porcine viruses. Methods: HMSC, human diploid MRC-5 cells, 293T/17, Vero, and PK-15 cells were seeded in 24-well plates and 25 cm2 flasks at a density of 7×103 cm-1, respectively, and then inoculated with porcine parvovirus (PPV) at a multiplicity of infection (MOI) of 0.02. Similarly, HMSC, MRC-5, 293T/17, Vero, and BT cells were seeded in 24-well plates and 25 cm2 flasks at a density of 7×103 cm-1, respectively, and inoculated with bovine parvovirus (BPV), bovine viral diarrhea virus (BVDV), bovine parainfluenza virus type 3 (PI3), bovine adenovirus type 3 (BAV-3), and reovirus type 3 (REO-3) at an MOI of 0.02. The cells in the 24-well plates were cultured for 7 days, while those in the 25 cm2 flasks were blindly passaged for three generations. The third generation of blind-passaged cells were transferred to 24-well plates. For each passage, cytopathic effects (CPE) were observed, immunofluorescence assays were performed, and viral nucleic acids were detected by qPCR. Results: Compared to PPV-sensitive PK-15 cells, no CPE or fluorescence were observed in Vero, HMSC, or MRC-5 cells after PPV inoculation, and the PPV copy number continuously decreased with successive passages. In contrast, although no CPE was observed in 293T/17 cells, green fluorescence was detected after three blind passages, and the PPV copy number remained consistently high at 1.49×107 copies · mL-1. Compared to bovine virus-sensitive BT cells, HMSC also exhibited susceptibility to three bovine viruses (PI3, REO-3, and BPV), showing varying degrees of CPE and positive immunofluorescence upon infection. Viral nucleic acids were detected via qPCR for all three viruses. Among them, PI3 and REO-3 were able to replicate in HMSC, though at lower levels compared to 293T/17 cells. Conclusion: HMSC and MRC-5 cells exhibit similar viral susceptibility profiles, demonstrating permissiveness to BPV, REO-3, and PI3, but resistance to PPV, BVDV, and BAV-3. In contrast, 293T/17 cells show susceptibility to PPV, REO-3 and PI3, while remaining non-permissive to BPV, BVDV and BAV-3. In the control of viral safety risks in human mesenchymal stem cells, greater attention should be paid to the infection risks of BPV, REO-3, and PI3 viruses when introducing porcine or bovine-derived materials of animal origin.
  
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  Establishment of a real-time fluorescence quantitative PCR assay for the detection of fastidious human adenovirus^*

  DONG Ying-ying, CHEN Xiao-fei, ZHANG Tong, LIU Ming-yue, ZHANG Rui-rui, CAO Yi-dan, LI Hui-ting, FU Xin-yue, WANG Yan-hui, WANG Xin-le, CUI Meng-shan, PANG Lin, RAO Chun-ming

  Chinese Journal of Pharmaceutical Analysis. 2025, 45(7): 1122-1129. https://doi.org/10.16155/j.0254-1793.2024-1338

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  Objective: To establish a high coverage, sensitive and specific TaqMan probe real-time fluorescence quantitative PCR method for the detection of Hexon gene of fastidious human adenovirus (HAdV), and to determine the fastidious HAdV in human-derived cell substrates and raw materials. Methods: In this study, primers, probes, and plasmid controls were designed and synthesized based on the conserved sequences of Hexon genes. AAV-HAdV pseudovirus was used as a positive control, the plasmid containing the gene sequence of the F subgenus of human adenovirus (HAdV-F) was used as an amplification control. The linearity, sensitivity, specificity, robustness, and reproducibility of the detection method were fully verified to ensure that it could be applied to the safety evaluation of fastidious HAdV in biologics and their raw materials. Results: A high coverage rate for virus strains was achieved by this detection method, and 100% of HAdV-F strains (94 isolates) were covered. A good linear relationship was exhibited by the plasmid controls within the range of 20-2×108 copies · μL-¹, and the R² value could reach 1.000. The detection sensitivity was able to reach 4 copies · μL-¹. Good specificity was demonstrated by this method, as specific amplifications for human adenovirus type 5 and human adenovirus type 2 could not be performed. Good robustness was also possessed by this method. When two different models of instruments were used for detection, the R2 values of the standard curves were 0.999 and 1.000 respectively, the cycle threshold (Ct) values for sensitivity were 37.22±0.62 and 36.50±0.58 respectively, and the Ct values for the positive controls were 21.67±0.03 and 20.61±0.18 respectively. No significant differences were found in the results of various detections. When two reagents of different article numbers were used for testing, the R2 values of the standard curves were both 1.000. The Ct values for sensitivity were 37.99±1.19 and 38.31±0.97 respectively, and the Ct values for the positive controls were 19.69±0.09 and 20.58±0.05 respectively. No significant differences were observed in the results of various detections. The intermediate precision was verified under the conditions of different personnel or different instruments. The detection results of the HAdV-F plasmid amplification control in four experiments were 1.29×105 copies · μL-¹, 1.54×105 copies · μL-¹, 1.73×105 copies · μL-¹, and 1.37× 105 copies · μL-¹ respectively. The relative standard deviation was calculated to be 13.2%, indicating good intermediate precision. The AAV-HAdV pseudovirus was used as a positive control for the applicability verification in human mesenchymal stem cell samples. The detection result of the positive control was determined to be 137 copies · μL-¹, and the detection result of the applicability sample was found to be 133 copies · μL-¹. The spiked sample recovery rate was calculated as 97.1%. Conclusion: The assay has good linearity, sensitivity, specificity, robustness, and reproducibility, and has high coverage of the exacting HAdV strain, which can be used for the detection of exacting HAdV in cell matrix samples for production.
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  Exploration of liquid chromatography-mass spectrometry for identifying surface marker proteins of mesenchymal stem cells^*

  WANG Ke-xin, LIAN Yi-bing, WANG Yao, ZHANG Tuo, HAN Chun-le, RAO Chun-ming

  Chinese Journal of Pharmaceutical Analysis. 2025, 45(7): 1130-1136. https://doi.org/10.16155/j.0254-1793.2024-1354

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  Objective: To adopt liquid chromatography-tandem mass spectrometry (LC-MS/MS) to analyze surface marker proteins of mesenchymal stem cells (MSCs), exploring a novel methodology for their identification. Methods: MSCs were lysed with RIPA buffer, and the protein concentration of cell lysates was quantified using a BCA kit. After reduction and alkylation of MSCs proteins, trypsin digestion was performed, and the resulting peptides were analyzed by LC-MS/MS. The chromatographic separation was carried out on An ACQUITY Premier Peptide BEH C18 column (150 mm×2.1 mm, 1.7 µm) with the mobile phase consisting of water containing 0.1% formic acid(A)-acetonitrile containing 0.1% formic acid(B) in a gradient mode at a flow rate of 0.2 mL · min-1. The mass spectrometer was operated in positive ion mode, sensitivity, data-dependent acquisition (DDA) mode, with capillary voltage set at 2.5 kV, cone voltage at 40 V, ion source temperature at 120 ℃, and a scan range of m/z 50-2 000. Proteins were identified by database searching using waters connect software. Mass tolerance was set as 0.001% for precursor ions and 0.002% for fragmentation ions. And a minimum of three b/y-ion matches were set as the criteria for peptide identification. Results: Through DDA mode, the positive marker CD90 of MSCs was identified. Further introduction of an include list under DDA mode led to the identification of the positive marker CD73, while the positive marker CD105 was not identified. Negative markers including CD34, CD45, CD14, CD19, CD79a, and HLA-DR were not detected. Conclusion: LC-MS/MS technology is rapid, accurate, and antibody-independent. It has identified two positive marker proteins. Through further research and methodological exploration, this technique can be applied to the identification of MSC surface marker proteins and target proteins.
Review & Monography
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  Advances in quality standards and control of fungal Chinese medicine^*

  LI Wen-qing, WEN Bao-qing, TAN Guo-ying, ZHOU Miao-xia, LIN Kun-xia, QIAN Zheng-ming

  Chinese Journal of Pharmaceutical Analysis. 2025, 45(7): 1137-1156. https://doi.org/10.16155/j.0254-1793.2024-1114

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  As one crucial resource of Chinese medicines, fungal Chinese medicine have been extensively used in clinic. This article has compiled a total of 442 standards for fungal Chinese medicine that have been issued in China, including 19 Chinese Pharmacopoeia standards, 398 local standards and 25 bureau or ministry standards. The fungal Chinese medicine are composed by 67 traditional Chinese medicine varieties from 66 fungal species. Based on the review of those quality standards, the characteristics and quality evaluation of fungal Chinese medicine such as medicinal property, microscope appearance, DNA based identification and physicochemical identification, assay (polysaccharides, nucleosides, sterols, terpenes, proteins/peptides, esters, sugar alcohols, etc.), microbial and harmful substances, as well as related analytical techniques are summarized. This review will certainly provide the comprehensive understanding of current research and development of fungal Chinese medicinal materials.
  
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  Review on the factors influencing the characterization of biological macromolecules by multi-angle static light scattering technology

  HU Chuan-mei, LÜ Jing, YAN Cui-xia, SHAO Hong, ZHENG Lu-xia,

  Chinese Journal of Pharmaceutical Analysis. 2025, 45(7): 1157-1165. https://doi.org/10.16155/j.0254-1793.2024-1182

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  Multi-angle static light scattering (MALS) is a critical characterization technique in the field of biological macromolecules, providing comprehensive structural information such as molecular weight, molecular weight distribution, root mean square radius, second dimensional coefficient, molecular chain conformation, etc. However, the complexity of its underlying principles and multiple influencing factors often challenge the accuracy of its measurements. This review focuses on the basic theory of multi-angle static light scattering in dilute solutions of biological macromolecules and the analysis of its influencing factors in the characterization of dilute solutions of biological macromolecules including dn/dc value, second dimensional coefficient (A2), interdetector delay volume, extrapolation models, and fluorescence interference. By addressing these variables, this work aims to assist analysts in better understanding and mastering multi-angle static light scattering technology to obtain reliable and precise characterization data.
  
Ingredient Analysis
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  Prediction of Q-Marker for leaves from Qingbai Tongbi capsules based on HPLC fingerprint and network pharmacology^*

  QU Tong, HU Xiao-juan, LI Ning, LU Wen-jing, GENG Fei-fei, CHEN Yin-zi, CHEN Zhi-yong, REN Hui

  Chinese Journal of Pharmaceutical Analysis. 2025, 45(7): 1166-1180. https://doi.org/10.16155/j.0254-1793.2024-1194

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  Objective: To establish the fingerprint of Qingbai Tongbi capsules, and to screen out its indicative compounds for quality control combined with chemometrics methods and network pharmacology. Methods: Agilent 5 TC-C18(250 mm×4.6 mm, 5 μm) chromatographic column was used for separation. The mobile phase was acetonitrile-0.1% phosphoric acid solution for gradient elution at a flow rate of 1.0 mL · min-1, and the column temperature was 30 ℃. The injection volume was 10 μL, and the wavelength was 210 nm (0-45 min), 260 nm (45-70 min). The fingerprint was established and the common peaks were determined. By comparing with the relative retention time and UV spectra of the reference substances, the corresponding compounds of the chromatographic peak were identified. Then the common peaks were identified by single decoction. Chemometrics methods was used to evaluate quality of 10 batches of Qingbai Tongbi capsules, and OPLS-DA analysis was used to screen out the main marker components of Qingbai Tongbi capsules. Combined with network pharmacology, the core targets and key pathways were constructed a “component-target-pathway” network map through corresponding databases. Combined with the above results, indicative compounds for quality control of Qingbai Tongbi capsules were screened out, and an HPLC method was established to determine the content of the Q-Markers. Results: An HPLC fingerprint of Qingbai Tongbi capsules was established, identifying 24 common peaks, and assigning them to different peaks. Among them, peaks 1-3, 5-8, 10-11, 13 and 16 came from Qingfengteng. Peaks 4, 9, 12, 14, 16, 18-19 came from Baishao. Peaks 15, 17, 20-24 came from Zhigancao. Eight common peaks were identified, including catechin, sinomenine, gallic acid, magnoflorine, paeoniflorin, glycyrrhizin, 1, 2, 3, 4, 6-O-pentagalloylglucose, glycyrrhizic acid. The similarity evaluation showed that the similarity of 10 batches of Qingbai Tongbi capsules samples ranged from 0.934-1.000. Principal component analysis (PCA) showed that the cumulative variance contribution rate of the first four principal components was 93.998%, while orthogonal partial least squares-discriminant analysis (OPLS-DA) showed that 8 components had higher variable importance projection values. On this basis, the network pharmacology method was used to analyze and conclude that catechin, sinomenine, gallic acid, magnoflorine, paeoniflorin, glycyrrhizin, 1, 2, 3, 4, 6-O-pentagalloylglucose and glycyrrhizic acid may be the potential Q-Marker of Qingbai Tongbi capsules. The contents of the above eight components were determined simultaneously, and the methodological investigation results were good. The average sample recovery rate was 96.81%-103.44%, and the RSD was 0.6%-3.7%. The mass fractions of catechin, sinomenine, gallic acid, magnoflorine, paeoniflorin, glycyrrhizin, 1, 2, 3, 4, 6-O-pentagalloylglucose and glycyrrhizic acid in 10 batches of samples were 0.907 1-1.189 3 mg · g-1, 2.183 3-3.118 6 mg · g-1, 0.397 0-1.427 6 mg · g-1, 3.507 9-5.446 6 mg · g-1,14.207 7-19.570 1 mg · g-1, 1.412 8-3.577 5 mg · g-1, 0.442 0-1.697 7 mg · g-1, 2.738 8-4.761 2 mg · g-1. Conclusion: The established HPLC fingerprint method is simple and good repeatability. The quality control indicative compounds of Qingbai Tongbi capsules can provide a basis for its quality control.
  
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  Determination of three active components in Niuhuang Xiaoyan tablets by high performance liquid chromatography coupled with charged aerosol detection^*

  LIU Hui-yi, ZUO Li-min, QIU Xiao-dan, ZHAO Ting, ZHAO Xue-jia, GUO Xin, LIAN Xiao-fang, JIA Qing-ying, GU Yong-sheng, LIU Xuan-lin, SHAN Guang-zhi

  Chinese Journal of Pharmaceutical Analysis. 2025, 45(7): 1181-1190. https://doi.org/10.16155/j.0254-1793.2024-1149

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  Objective: To establish a high performance liquid chromatography-charged aerosol detection (HPLC-CAD) method for the determination of cinobufagin, resibufogenin, and cholic acid in Niuhuang Xiaoyan tablets. Methods: The separation was conducted on a CAPCELL PAK MGII C18 column (250 mm×4.6 mm, 3 μm), employing the gradient elution with acetonitrile and 0.3% acetic acid aqueous solution as the mobile phase. The flow rate was 0.6 mL · min-1 and the column temperature was 30 ℃, and the injection volume was 10 μL. The CAD had a filter constant of 1 second, a frequency of 5 Hz, a evaporation temperature of 90 ℃, and a power function value of 1.1. Results: The linear ranges of cinobufagin, resibufogenin and cholic acid were 24.97-99.89 μg · mL-1 (r=0.999 2), 25.33-101.3 μg · mL-1 (r=0.999 5), and 100.5-602.9 μg · mL-1 (r=0.999 0), respectively. The RSDs of stability, precision and repeatability for the three components were all less than 3.0%. The average spike recovery rates (n=9) were 99.17%, 103.6%, and 102.0%, with RSD of 1.5%, 2.3%, and 3.0%, respectively. The contents of cinobufagin in six batches of samples were 0.122 1, 0.126 4, 0.122 6, 0.128 4, 0.122 5 and 0.125 6 mg per tablet respectively, the contents of resibufogenin were 0.051 50, 0.051 15, 0.051 79, 0.050 68, 0.054 43 and 0.054 62 mg per tablet respectively, and the contents of cholic acid were 0.235 3, 0.239 0, 0.236 0, 0.236 2, 0.233 8 and 0.236 8 mg per tablet respectively. Conclusion: This method is accurate, robust, and has good repeatability. It enables the simultaneous quantification of three components—cinobufagin, resibufogenin, and cholic acid in Niuhuang Xiaoyan tablets in single run, which is more convenient and offers higher analytical throughput.
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  Quantitative determination of alfentanil hydrochloride injection by proton nuclear magnetic resonance spectroscopy^*

  LÜ Zhen-xing, HUNG Tao, LIU Chen-xi, ZHAO Ya-ping, ZHANG Xu, ZENG Dan-yun, DU Tian-peng

  Chinese Journal of Pharmaceutical Analysis. 2025, 45(7): 1191-1196. https://doi.org/10.16155/j.0254-1793.2024-1121

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  Objective: To determine the content of alfentanil hydrochloride in injection form using proton nuclear magnetic resonance (1H-qNMR) spectroscopy. Methods: The contents of alfentanil were determined by quantitative proton nuclear magnetic resonance (1H-qNMR) with water suppression. Spectra were acquired on a Bruker 600 MHz liquid-state NMR spectrometer using an improved Watergate-W5 pulse sequence combined with the PULCON technique. The relaxation delay (D1) was set to 36 s, and 8 scans were accumulated. Maleic acid was used as the internal standard. Results: The 1H-qNMR signals of the main component and internal standard showed good separation, with high precision and reproducibility. The method demonstrated good linearity, with a correlation coefficient of 0.9999. The measured content of alfentanil ranged 98.2%-101.2%. Conclusion: The 1H-qNMR method established in this study is simple, rapid and accurate, and provides a new approach for the quantitative determination of alfentanil hydrochloride injection.
Standard Deliberation
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  A collaborative study to evaluate the Nb2-11 cell bioassay of PEG-rhGH^*

  ZHANG Xiao-ming, LI He-yang, LI Yi, HU Shao-wang, LI Chun-yan, HU Xin-yue, SUN Yue, LIANG Cheng-gang, LI Jing

  Chinese Journal of Pharmaceutical Analysis. 2025, 45(7): 1197-1204. https://doi.org/10.16155/j.0254-1793.2024-1191

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  Objective: To establish a standardized method for the in vitro bioactivity analysis of polyethylene glycol-conjugated recombinant human growth hormone (PEG-rhGH) based on Nb2-11 cell proliferation and to study the feasibility of replacing in vivo animal bioassay with the Nb2-11 cell bioassay. Methods: The in vitro biological activity of 9 batches of PEG-rhGH injection was detected by the Nb2-11 cell method to draft the effective experimental standard. The method was validated in accordance with the General Chapter 9401 of the 2020 Edition of the Chinese Pharmacopoeia. Four laboratories collaborated to detect the biological activity of 2 batches of PEG-rhGH drug substance and 9 batches of injection to study the precision of the method. The biological activity of 8 batches of PEG-rhGH drug substance and 9 batches of PEG-rhGH injection was detected by the Nb2-11 ell method and in vivo animal method respectively to study the consistency of the results determined by in vitro and in vivo methods. The in vitro biological activity of 24 batches of PEG-rhGH injection with different expiration dates was detected to study the standard limit of the in vitro biological activity of PEG-rhGH injection. Results: The relative accuracy of the method showed a relative bias ranging from -3.059% to 3.557%. The linear regression slope was 0.984, with intermediate precision geometric coefficients of variation (GCV) of 5.667%-6.923%. The pass rate for the proposed effective experimental standards was 100%, the inter-laboratory geometric coefficient of variation was 2.281%, and the average ratio of in vivo and in vitro test results was 0.938. The relative potency of PEG-rhGH products with different expiration dates ranged from 100% to 119%. Conclusion: This method exhibits good reproducibility both within and between laboratories and showed good consistency with the in vivo animal bioassay. It can serve as a standardized alternative to animal testing for quality control and release testing of PEG-rhGH products.
  
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  Development of a discriminatory intrinsic dissolution rate method for erythromycin API^*

  RUAN Hao, SITU Zi-jing, GENG Xiao-ting, LI Song-xian, CHEN Shuang, ZHENG Wei-xia, HONG Li-ya, SU Wei-ke

  Chinese Journal of Pharmaceutical Analysis. 2025, 45(7): 1205-1213. https://doi.org/10.16155/j.0254-1793.2024-0455

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  Objective: To establish a method for determining the intrinsic dissolution rate of erythromycin API with discriminatory power. Methods: Four batches of erythromycin active pharmaceutical ingredient (API) produced by different manufacturing processes were selected for analysis. For each batch, three samples (500 mg each) were compressed into compacts at 15 MPa for 5 min. The intrinsic dissolution rate (IDR) was determined using a rotating disk apparatus at a rotation speed of 50 r · min-1. Cumulative dissolution amounts were measured at 5, 10, 15, 20, 30, 45, and 60 min in 500 mL of phosphate buffer solutions at pH 6.8 and pH 6.0, respectively. The linear portion of the initial dissolution curve was used to calculate the IDR. One-way analysis of variance (ANOVA) was performed to assess the differences among batches. This study aimed to establish a discriminatory IDR testing method for erythromycin API. Results: In pH 6.8 phosphate buffer, the RSDs of the intrinsic dissolution rate measurements were all below 10%, with a P-value of 0.460. One-way ANOVA showed an inter-group P-value of 0.634, indicating no significant difference in intrinsic dissolution rates among the four batches of erythromycin API. In pH 6.0 phosphate buffer, the RSDs were below 10% for all batches except one, which was considered to be affected by stability issues. The P-value was 0.212, and the inter-group P-value was 0.002, indicating a significant difference. The four batches of erythromycin API could be divided into two groups based on their intrinsic dissolution rates, consistant with the grouping based on manufacturing process. Conclusion: The method enables reliable determination of the intrinsic dissolution rate of erythromycin and possesses discriminatory capability.
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  Study on the key quality attribute-droplet size of tacrolimus ointment

  WU Xiao-luan, WU Jing-wen, LIU Chao-yi, GAO Xuan, CHEN Xiao-ping, REN Fei-liang, QIN Feng, GU Song-qing

  Chinese Journal of Pharmaceutical Analysis. 2025, 45(7): 1214-1220. https://doi.org/10.16155/j.0254-1793.2024-1094

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  Objective: To establish a method and limit for droplet size test of tacrolimus ointment; to compare the droplet size quality of products from 9 manufacturers; to analyze the causes of differences in formulation composition and homogenization processes, and to analyze the correlation between the content uniformity and droplet size. Methods: An electron microscope equipped with automatic counting and equivalent diameter calculation function was used to determine the droplet size of 15 batches of tacrolimus ointments from 9 manufacturers, and samples stored under accelerated conditions for 3 months. Results: The droplet sizes of products from 4 manufactures were generally consistent with the reference formulation. Products from 2 manufacturers showed significant differences compared to the reference, while samples from 3 manufacturers exhibited notable droplet aggregation after 3 months of accelerated storage. Conclusion: A comprehensive assessment of droplet size should include three aspects uniformity of droplet distribution, droplet count, and droplet size. Formulation composition, homogenization temperature, homogenization time, and homogenization rate are key factors affecting droplet size, reducing droplet aggregation under high temperature and high humidity conditions, and ensuring uniform content in the product.
Safety Monitoring
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  Determination of 14 fentanyl analogs in wastewater by magnetic solid phase extraction combined with ultra performance liquid chromatography-tandem mass spectrometry^*

  DONG Luo-hao, LIU Meng, ZHOU Jing, WANG Hai-xing, ZHOU Kai, KE Xing, FAN Yi-lei

  Chinese Journal of Pharmaceutical Analysis. 2025, 45(7): 1221-1232. https://doi.org/10.16155/j.0254-1793.2024-1139

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  Objective: To establish a magnetic solid-phase extraction-ultra performance liquid chromatography-tandem mass spectrometry (MSPE-UHPLC-MS/MS) method for rapidly detecting 14 fentanyl analogs in wastewater. Methods: Wastewater samples were purified and concentrated using a novel mixed-mode weak cation exchange magnetic solid phase extraction adsorbent, Fe3O4@poly (ST/DVB/MA-COOH), followed by analysis with UHPLC-MS/MS method. Separation was performed on a Waters Acquity UPLC HSS T3 column (150 mm×2.1 mm, 1.8 μm)at 40 ℃. The mobile phase consisted of 0.1% formic acid-aqueous solution(A) and 0.1% formic acid-acetonitrile solution(B) with gradient elution. The flow rate was 0.3 mL · min-1, and an injection volume was 2.5 µL. Detection was carried out using electrospray ionization in multiple reaction monitoring mode. Results: The calibration curves for the 14 fentanyl analogs showed good linearity over the range of 0.04-4 ng · L-1 (r≥0.998 4). The limit of detection (LOD) was 0.013 ng · L-1 and the limit of quantitation (LOQ) was 0.04 ng · L-1. The recovery rates at low, medium and high spiked levels ranged from 85.4% to 114.7%. The intra-day precision(n=6) was between 2.0% and 6.4%, and the inter-day precision(n=3) was between 0.4% and 2.4%. Fentanyl was detected in five actual wastewater samples, with concentrations ranging from 0.21 to 0.46 ng · L-1. Conclusion: This method has the advantages of short pretreatment time, simple operation, low solvent consumption, high sensitivity, and good reproducibility. It is suitable for high-throughput screening and quantitative analysis of fentanyl analogs in wastewater samples.
  
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  Determination of related substances in pramipexole dihydrochloride sustained-release tablets by HPLC

  YE Jun, SONG Lei

  Chinese Journal of Pharmaceutical Analysis. 2025, 45(7): 1233-1243. https://doi.org/10.16155/j.0254-1793.2025-0002

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  Objective: To establish an HPLC method for the determination of related substances in pramipexole dihydrochloride sustained-release tablets. Methods: Two chromatographic methods were used to determine the related substances. Condition 1: HC-5 C18 (250 mm×4.6 mm, 5 μm) column was used, with ammonium formate buffer (pH 5.0)-methanol (99 ∶ 1) as mobile phase A and ammonium formate buffer (pH 5.0)-methanol (44 ∶ 56) as mobile phase B, the gradient elution was performedat a flow rate of 1.0 mL · min-1,the detection wavelengths were 240, 262 and 326 nm respectively, the column temperature was 40 ℃, and the injection volume was 100 μL. Condition 2: Inertsil ODS-3 (150 mm×3.0 mm, 3 μm) column was used, with phosphate buffer (containing 0.5% sodium octane sulfonate, pH 3.0)-acetonitrile (90 ∶ 10) as mobile phase A, and phosphate buffer (containing 0.5% sodium octane sulfonate, pH 3.0)-acetonitrile (72 ∶ 28) as mobile phase B, the gradient elution was performedat a flow rate of 0.7 mL · min-1, the detection wavelengths were 240, 262 and 326 nm respectively, the column temperature was 40 ℃, and the injection volume was 100 μL. Results: 12 known impurities were separated and detected under condition 1, while other known impurities were separated under condition 2. An excellent linear relationship was established between pramipexole dihydrochloride and its 14 impurities, and the recovery rate of each impurity (n=9) was determined to be 95.0%-105.0%. The minimum detection limit was found to be 2.0-13.0 ng · mL-1. The forced degradation experiment further confirmed that the degradation products under different conditions could be effectively indicated by this method. The results of testing four batches of pramipexole dihydrochloride sustained-release tablets showed that. Under condition 1, impurity 1 was present at 0.07%-0.09%, impurity 2 at 0%-0.01%, and impurity 11 at 0.04%, with total impurities at 0.11%-0.14%. Under condition 2, impurity 2 was found at 0.01%-0.02%, Impurity 6 at 0%-0.06%, impurity 12 at 0%-0.02%, and unknown total impurities at 0%-0.09%, with total impurities at 0.01%-0.16%. Conclusion: The HPLC method established in this study not only optimizes the sample preparation process, but also significantly improves the accuracy and reliability of detection, with good reproducibility, and making it suitable for the quality control of pramipexole dihydrochloride sustained-release tablets.
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  Establishment of a non-targeted screening and determination method for illegally added diflorasone propionate in cosmetics

  GUO Jie, BI Si-dan, ZHANG Shu-dong, DI Zheng, ZHANG Zhe, ZHANG Hua-jun

  Chinese Journal of Pharmaceutical Analysis. 2025, 45(7): 1244-1258. https://doi.org/10.16155/j.0254-1793.2024-1075

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  Objective: To confirm two novel illegal additives suspected to be derivatives of diflorasone in cosmetics using by ultra-high performance liquid chromatography quadrupole/orbitrap high-resolution mass spectrometry (UHPLC-Q Orbitrap HRMS), and to establish a quantitative determination method by high performance liquid chromatography-tandem triple quadrupole mass spectrometry (HPLC-QqQ-MS). Methods: Qualitative determination was performed by UHPLC-Q Orbitrap HRMS. A Merck Purospher Star RP-18 endcapped (125 mm×2 mm,5 μm) column was used with a mobile phase of 0.1% formic acid in water (A) and acetonitrile (B), operated under gradient elution at a flow rate of 0.2 mL · min-1. Data were collected in positive ion mode. The sample extracted with methanol by ultrasonic method was screened. Two unknown chromatographic peaks were detected at 11.97 min and 12.60 min respectively, and the parent ion of m/z 467.22 was locked to obtain the secondary mass spectrum. Quantitative determination was performed by HPLC-QqQ-MS. The sample was separated on Agilent ZORBAX Eclipse Plus C18 column (150 mm×3.0 mm, 1.8 μm) by gradient elution using acetonitrile (A) and water (B). The flow rate was 0.3 mL · min-1, and the injection volume was 2 μL. The samples were ionized by positive ion mode of electrospray ionization source and determined by multiple reaction monitoring (MRM) mode. Results: The secondary mass spectrum of two unknown chromatographic peaks were very similar to the secondary mass spectrum of diflorasone diacetate. Both compounds had propionic ester similar structure (m/z 57.03), so that two compounds were presumed to be isomers of diflorasone 17-propionate and diflorasone 21-propionate and the reference substances were used for confirmation. HPLC-QqQ-MS was employed for the determination. Diflorasone 17-propionate and diflorasone 21-propionate exhibited good linear relationships within the concentration range of 1-50 ng · mL-1. The limits of detection were both 30 ng · g-1 and the limits of quantification were 100 ng · g-1. The recoveries of each concentration level in 5 representative substrates of liquid (water, oil), cream, gel and wax-based cosmetics ranged from 82.8% to 107.4%, and the recoveries were good. Nine batches of commercially available liquid products were tested, and the content of diflorasone 17-propionate in them ranged from 0.1 to 114.5 μg · g-1, while the content of diflorasone 21-propionate ranged from 3.9 to 146.8 μg · g-1. Conclusion: This study identifies two noval illegal glucocorticoid additives in cosmetics. The research approach for the screening and content determination methods in this study can provide certain technical references for the research of unknown prohibited substances in cosmetics.
Quality Control
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  Identification of Hysspous cuspidatus Boriss and its adulterants based on HPLC fingerprint and QAMS combined with chemical pattern recognition and entropy weight-TOPSIS^*

  CAI Xiao-cui, MAO Yan, WANG Xin-tang, HE Jin-hua

  Chinese Journal of Pharmaceutical Analysis. 2025, 45(7): 1259-1274. https://doi.org/10.16155/j.0254-1793.2024-1148

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  Objective: To establish the HPLC fingerprint and quantitative analysis of multi-components by single-marker method, so as to effectively distinguish Hysspous cuspidatus Boriss. and its adulterants. Methods: High performance liquid chromatography (HPLC) was performed on an Agilent XDB C18 (250 mm×4.6 mm, 5 μm) column with acetonitrile (A)-0.1% formic acid solution as the mobile phase with gradient elution at a flow rate of 1.0 mL · min-1, a column temperature of 30 ℃, a detection wavelength of 280 nm, and an injection volume of 20 μL. The chemical constituents were analysed, and the fingerprinting method was established, combined with similarity evaluation, CA, PCA, OPLS-DA to screen and confirm the differentiation markers. TOPSIS was used to evaluate the different batches of Hysspous cuspidatus Boriss and its adulterants from different places, and to screen the best place of origin. Rosemarinic acid was used to evaluate different bathes of Hysspous cuspidatus Boriss and its adulterants. Using rosemarinic acid as the internal reference, the QAMS method of nine differential quality markers was established. Results: The fingerprints of 22 batches of herbs were established, and a total of 51 common peaks were identified. Fifteen peaks were recognized by comparison with the reference standards, which were neochlorogenic acid, chlorogenic acid, caffeic acid, ferulic acid, quercetin-3-O-β-D-glucopyranosiduronic acid, rosemarinic acid, salvianolic acid B, lignocerotoxin, methyl rosemarinic acid, ethyl rosemarinic acid, β-sitosterol, coriandrin, kaempferol, trichothecenes, and hawthorn acid. The similarities between the samples and reference fingerprint ranged from 0.509 to 0.996. CA classified 22 batches samples into 3 major categories. PCA showed some differences in the chemical compositions of Hysspous cuspidatus Boriss and its adulterants with main differential components of 5. OPLS-DA screened out 12 possible differential quality markers. QAMS was established for nine differential markers. The linearity of the nine differential markers was good, and the RSDs of the precision, stability, repeatability and durability test determinations were all<3.0%, and the average spiked recoveries ranged from 97.5% to 103.1%, with the RSDs all<2.0%. There was no significant difference between the results of QAMS and ESM using rosemarinic acid as the internal reference material. Conclusion: The fingerprint and QAMS method for simultaneously measuring the content of nine components are accurate and reliable to evaluate the quality of Hysspous cuspidatus Boriss.
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  Studies on the construction of scoring card models for identifying different main geographical origins of Cordyceps

  SHI Yan, CHENG Xian-long, WEI Feng

  Chinese Journal of Pharmaceutical Analysis. 2025, 45(7): 1275-1285. https://doi.org/10.16155/j.0254-1793.2024-1035

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  Objective: To construct scoring cards using amino acid contents as indicators to identify different main geographical origins of Cordyceps. Methods: Samples from the main geographical origins to be identified were used as positive samples, while samples from other areas served as negative samples. The amino acid content data of the training set samples were divided into bins, and the weight of evidence (WOE) and information value (IV) for each bin were calculated to optimize the binning strategy. The original data were encoded using WOE, and a logistic regression model was established. A suitable scoring system was designed according to the scoring formula, with 50 points set as the baseline when the probability of positive and negative samples was equal, determining the base score and the scores corresponding to each bin. By summing the base score with the scores corresponding to each bin for the samples to be scored, the final score of the sample could be derived. A threshold of 50 points could be used to discriminate the likelihood of positive and negative samples. Results: The scoring cards constructed for identifying Cordyceps sinensis from the Qinghai and Xizang production areas achieved identification accuracies of 0.85 and 0.90, respectively, for the test set samples. Conclusion: The two constructed scoring cards can simply and accurately identify the main production areas of Cordyceps sinensis. The integration of artificial intelligence technology with pharmaceutical analysis can significantly enhance the quality and efficiency of traditional drug quality analysis, evaluation, and control.