微波辅助合成聚丙烯酰胺接枝黄胶的 QbD 辅助优化:表征与仪器分析

Mahesh Namballa, Anilkumar Adimulapu, Rajesh E. Jesudasan
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引用次数: 0

摘要

近来,多糖在设计给药系统方面引起了广泛关注,因为多糖具有广泛的可获得性、无毒性以及改变其性质、结构和功能的多种方法。以硝酸铈铵(CAN)为引发剂,通过自由基聚合作用,微波辅助合成了黄曲霉(TRA)与聚丙烯酰胺(PAM)的接枝共聚物。微波辅助以硝酸铈铵为引发剂,通过自由基聚合法与聚丙烯酰胺(PAM)合成接枝黄原胶共聚物(TRA)。在可取性方法的基础上,证明了微波辅助合成的优化参数,并进一步合成了接枝 TRA(Gr-TRA)。研究人员对 Gr-TRA 进行了各种表征和元素分析。在耐化学性测试中,Gr-TRA 的膨胀指数最高,重量损失最小。傅立叶变换红外光谱(FTIR)、X 射线衍射和元素分析等进一步的仪器分析证实了 Gr-TRA 的形成。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
QbD Assisted Optimization of Microwave-assisted Synthesis of Polyacrylamide Grafted Tragacanth: Characterization and Instrumental Analysis
Polysaccharides have recently attracted a lot of attention in the designing of drug delivery systems due to their wide availability, lack of toxicity, and numerous ways that their nature, structure, and functionality can be altered. Polysaccharide has recently attracted a lot of attention in the designing of drug delivery systems due to its wide availability, lack of toxicity, and numerous ways that its nature, structure, and functionality can be altered. Microwave-assisted synthesis of graft copolymer of tragacanth (TRA) is done with poly-acrylamide (PAM) by free radical polymerization using ceric ammonium nitrate (CAN) as initiator. Grafting polymer concentration, CAN concentration, and exposure time were selected as independent variables, and their effect is studied for Grafting Efficiency (GE) and Intrinsic viscosity (IV) using Box-Behnken optimization design. Microwave assisted synthesis of graft copolymer of tragacanth (TRA) is done with polyacrylamide (PAM) by free radical polymerization using ceric ammonium nitrate (CAN) as initiator. A quadratic model was suggested by the software for further statistical evaluation. On the basis of the desirability approach, optimized parameters for microwave-assisted synthesis were demonstrated, and further grafted TRA (Gr-TRA) was synthesized. Gr-TRA was studied for various characterization and elemental analysis. Gr-TRA showed the highest swelling index and least weight loss during the chemical resistance test. Further instrumental analyses like FTIR, XRD, and elemental analysis confirmed the formation of Gr-TRA. Based on all of the above findings, the synthesis of PAM-grafted TRA has been optimized and could be used as a new pharmaceutical excipient in designing different dosage forms.
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