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OBJECTIVE To provide reference for the clinically safe application of acalabrutinib by mining and analyzing the risk signals of adverse drug events (ADE). METHODS The acalabrutinib-induced ADE reports were extracted from the U.S. FDA adverse event reporting system using the OpenVigil 2.1 platform from November 1, 2017 to March 31, 2023. The reporting odds ratio (ROR) method and composite criteria method from the Medicines and Healthcare Products Regulatory Agency (MHRA) were used for detection of ADE signals. RESULTS There were 7 869 ADE reports of acalabrutinib as the primary suspect drug and 142 ADE positive signals were detected from them, involving 20 system organ classes, which was generally consistent with the ADE recorded in the drug instruction of acalabrutinib, mainly involving general disorders and administration site conditions, various inspection, blood and lymphatic system disorders, various neurological disorders and cardiac disorders. In addition, this study identified several new potential ADE signals that were not mentioned in the drug instruction, including sudden cardiac death, pulmonary toxicity, tumor lysis syndrome, pleural effusion, dyspepsia, gastroesophageal reflux disease, bone pain, decreased blood pressure, and abnormal blood sodium, etc. CONCLUSIONS When using acalabrutinib, in addition to paying attention to the ADE recorded in its instructions, the risk of serious ADE that may lead to death, such as sudden cardiac death and pulmonary toxicity, should also be evaluated to avoid or reduce the occurrence of ADE as much as possible.
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Objective To establish assay methods for the determination of dissolution,content and related substances of vita-min K1 self-nanoemulsifying drug delivery system(VK1-SNEDDS),and investigate the physico-chemical properties of the preparation. Methods The UV method was established to determine the dissolution of VK1-SNEDDS. The content and related substances were de-termined by HPLC. The appearance,self-emulsification time,micro-morphology,droplet size and zeta potential were also investigat-ed. Results The linearity range of established UV and HPLC methods was 0.85-20.4 and 2.16-216μg/ml,respectively,and all the recovery,precision,specificity and sensitivity met requirements. VK1-SNEDDS could disperse quickly after dilution. The transmission electron microscope(TEM)image of the optimized liquid SNEDDS showed that most of the emulsion droplets were of uniform size with no signs of coalescence. Droplet size of optimal formulation was revealed as 47.74 nm with polydispersibility index(PDI)of 0.248,and zeta potential was found to be-20.53 mV. Conclusion VK1-SNEDDS could form homogeneous and stable nanoemulsion when dilut-ed with aqueous phase and increase the dissolution of lipophilic drug. The methods are reliable,accurate and suitable for quality con-trol of VK1-SNEDDS.