Supersaturation Behavior: Investigation of Polymers Impact on Nucleation Kinetic Profile for Rationalizing the Polymeric Precipitation Inhibitors.

Uditi Handa, Anuj Malik, Kumar Guarve, Nidhi Rani, Prerna Sharma
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Abstract

Background: Although nucleation kinetic data is quite important for the concept of supersaturation behavior, its part in rationalizing the crystallization inhibitor has not been well understood.

Objective: This study aimed to investigate the nucleation kinetic profile of Dextromethorphan HBr (as an ideal drug, BCS-II) by measuring liquid-liquid phase segregation, nucleation induction time, and Metastable Zone width.

Methods: Surfeit action was examined by a superfluity assay of the drug. The concentration was scrutinized by light scattering techniques (UV spectrum (novel method) and Fluorometer (CL 53)).

Results: The drug induction time was 20 min without polymer and 90 and 110 min with polymers, such as HPMC K15M and Xanthan Gum, respectively. Therefore, the order of the polymer's ability to inhibit nucleation was Xanthan Gum > HPMC K15M in the medium (7.4 pH). Similarly, the drug induction time was 30 min without polymer and 20, 110, and 90 min with polymers, such as Sodium CMC, HPMC K15M, and Xanthan Gum, respectively. Therefore, the order of the polymer's ability to inhibit nucleation was HPMC K15M > Xanthan Gum > Sodium CMC in SIFsp (6.8 pH), which synchronizes the polymer's potentiality to interdict the drug precipitation.

Conclusion: The HPMC K15M and xanthan Gum showed the best crystallization inhibitor effect for the maintenance of superfluity conditions till the drug absorption time. The xanthan gum is based on the "glider" concept, and this shows the novelty of this preliminary research. The screening methodology used for rationalizing the best polymers used in the superfluity formulations development successfully.

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过饱和行为:研究聚合物对成核动力学曲线的影响,以使聚合物沉淀抑制剂合理化。
背景:尽管成核动力学数据对于过饱和行为的概念非常重要,但它在合理化结晶抑制剂方面的作用还没有得到很好的理解。目的:本研究旨在通过测量液-液相偏析、成核诱导时间和亚稳态区宽度,研究理想药物右美沙芬HBr的成核动力学特性。方法:采用药物过量试验法检测表面活性。结果:不含聚合物的诱导时间为20min,含HPMCK15M和黄原胶的诱导时间分别为90min和110min。因此,在介质(7.4 pH)中,聚合物抑制成核的能力的顺序是黄原胶>HPMC K15M。类似地,药物诱导时间在没有聚合物的情况下为30分钟,在有聚合物的情况(例如CMC钠、HPMC K15M和黄原胶)下分别为20、110和90分钟。因此,在SIFsp(6.8 pH)中,聚合物抑制成核的能力顺序为HPMC K15M>黄原胶>CMC钠,这同步了聚合物阻断药物沉淀的潜力。结论:HPMC K15M和黄原胶在维持药物过量条件直至药物吸收时间方面显示出最佳的结晶抑制剂效果。黄原胶是基于“滑翔机”的概念,这表明了这项初步研究的新颖性。用于合理化多余配方中使用的最佳聚合物的筛选方法成功开发。
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