Jinlian Xie scite author profile

Jinlian Xie

3Publications

29Citation Statements Received

69Citation Statements Given

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228

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First Affiliated Hospital of GuangXi Medical University, Third Xiangya Hospital, Guangxi Medical University

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Exploration of suitable pharmacodynamic parameters for acarbose bioequivalence evaluation: A series of clinical trials with branded acarbose

Huang

et al. 2020

Brit J Clinical Pharma

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To determine deficiencies in the Food and Drug Administration (FDA)'s guidance for assessing acarbose bioequivalence (BE) and to explore optimal pharmacodynamic (PD) metrics for better evaluation of acarbose BE. Methods: Three clinical trials with branded acarbose were conducted in healthy subjects, including a pilot study (Study I, n = 11, 50 and 100 mg), a 2×2 crossover BE study (Study II, n = 36, 100 mg) and a 4×4 Williams study (Study III, n = 16, 50/100/ 150 mg). Serum glucose concentrations were measured by the glucose oxidase method. Results: In Study I, compared with 50 mg acarbose, only 100 mg acarbose had a significantly lower C max0-4h than that of sucrose administration alone (7.96 ± 0.83 mmol/L vs 6.78 ± 1.02 mmol/L, P < .05). In Study II, the geometric mean ratios of the test formulation to the reference formulation (both formulations were the branded drug) for FDA PD metrics, ΔC max0-4h and ΔAUC 0-4h , were 0.903 and 0.776, respectively, and the 90% confidence intervals were 67.44-120.90 and 53.65-112.13, respectively. The geometric mean ratios (confidence interval) for possible optimal evaluation PD metrics (C max0-2h and AUC 0-2h) were 1.035 (94.23-112.68) and 0.982 (89.28-107.17), respectively. Further, C max0-2h and AUC 0-2h also met the sensitivity requirements for BE evaluation in Study III. Conclusion: Considering the mechanisms of action of acarbose, the PD effect was shown to be dose independent during the 2-4 hours postadministration of acarbose. Hence PD metrics based on the serum glucose concentration from 0 to 2 hours (C max0-2h and AUC 0-2h) are more sensitive than the FDA-recommended PD metrics for acarbose BE evaluation from 0-4 hours (ΔC max0-4h and ΔAUC 0-4h).

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Effects of vitamin D on drugs: Response and disposal

et al. 2020

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Gelsolin impairs barrier function in pancreatic ductal epithelial cells by actin filament depolymerization in hypertriglyceridemia‑induced pancreatitis in vitro

et al. 2022

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Gelsolin (GSN) is a calcium-regulated actin-binding protein that can sever actin filaments. Notably, actin dynamics affect the structure and function of epithelial barriers. The present study investigated the role of GSN in the barrier function of pancreatic ductal epithelial cells (PDECs) in hypertriglyceridemia-induced pancreatitis (HTGP). The human PDEC cell line HPDE6-C7 underwent GSN knockdown and was treated with caerulein (CAE) + triglycerides (TG). Intracellular calcium levels and the actin filament network were analyzed under a fluorescence microscope. The expression levels of GSN, E-cadherin, nectin-2, ZO-1 and occludin were evaluated by reverse transcription-quantitative polymerase chain reaction and western blotting. Ultrastructural changes in tight junctions were observed by transmission electron microscopy. Furthermore, the permeability of PDECs was analyzed by fluorescein isothiocyanate-dextran fluorescence. The results revealed that CAE + TG increased intracellular calcium levels, actin filament depolymerization and GSN expression, and increased PDEC permeability by decreasing the expression levels of E-cadherin, nectin-2, ZO-1 and occludin compared with the control. Moreover, changes in these markers, with the exception of intracellular calcium levels, were reversed by silencing GSN. In conclusion, GSN may disrupt barrier function in PDECs by causing actin filament depolymerization in HTGP in vitro.

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Jinlian Xie

Exploration of suitable pharmacodynamic parameters for acarbose bioequivalence evaluation: A series of clinical trials with branded acarbose

Effects of vitamin D on drugs: Response and disposal

Gelsolin impairs barrier function in pancreatic ductal epithelial cells by actin filament depolymerization in hypertriglyceridemia‑induced pancreatitis in vitro

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