盐酸伐昔洛韦与用于开发口服固体制剂的原料辅料之间相容性的分子和定性表征

Anoop Mishra, Vivek Ranjan Sinha, Sumit Sharma, Alen T. Mathew, Rajnish Kumar, Ashok Kumar Yadav
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引用次数: 0

摘要

本研究的目的是了解盐酸伐昔洛韦(VCH)与用于开发口服固体制剂的常见辅料的相容性。本研究使用了多种光谱技术来了解 VCH 与辅料可能发生的相互作用。此外,还进行了分子对接研究,以了解 VCH 与辅料的相互作用。为了了解药物的释放情况,对 VCH 与辅料的物理混合物进行了体外研究。为了了解药物与辅料的相容性,使用了多种分析技术,如差示扫描量热仪、核磁共振光谱仪和傅立叶变换红外光谱仪。此外,还通过薄层色谱法评估了伐昔洛韦与不同辅料之间可能存在的相互作用。在不同的实验组中进行了体外溶解研究,以确定辅料的疏水性和亲水性(使用 USP II 型溶解器)对 VCH 溶解曲线的影响。此外,还使用 AutoDock VINA 1.2.0 软件和 GROMACS 5.0 软件对 VCH 以及 VCH 和辅料的物理混合物的傅立叶红外光谱和 1H NMR 光谱进行了硅学分子对接研究,以了解药物和辅料之间可能存在的分子相互作用。在药物和辅料的物理混合物中,发现 VCH 的内热峰位置大致相同。体外溶解研究显示了辅料的疏水性和亲水性对 VCH 溶解曲线的影响。VCH 与乳糖(LAC)和磷酸二钙(DP)的物理混合物在 10 分钟内的药物释放率分别为 31.96% 和 33.16%,而 VCH 与滑石粉的混合物的药物释放率为 25.00%。另外两种辅料,如 LAC 和 DP,在 30 分钟内的药物释放率分别为 42.96% 和 41.64%。对接研究还揭示了能量最低的构象。对接研究发现,与伐昔洛韦和微晶纤维素(MCC)(两种)相比,伐昔洛韦和 LAC(四种)之间的相互作用更多。这种相互作用表明,VCH 与 MCC 的物理混合物的体外药物释放率高于伐昔洛韦与 LAC 的混合物。通过分析技术对 VCH 进行的相容性研究表明,VCH 与使用的辅料相容。VCH 与 MCC 的物理混合物的药物溶解表现出最大的药物释放量,而 VCH 与硬脂酸镁的混合物在短时间(10 分钟)和长时间(30 分钟)内释放的药物量最小。Docking 研究表明,与微晶复合物相比,LAC 复合物的均方根偏差值较小。因此,与微晶复合物相比,LAC 复合物的氢键更多,也更稳定。因此,VCH 和所用辅料可用于固体制剂。
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Molecular and qualitative characterization of compatibility between valacyclovir hydrochloride and excipients as raw materials for the development of solid oral dosage formulation
The objective of this present study is to know the compatibility of valacyclovir hydrochloride (VCH) with common excipients that would be utilized to develop solid oral dosage forms. Several spectroscopy techniques were used to know the possible interactions of VCH with excipients. More, a molecular docking study was also carried out to see the interaction of VCH with excipients. In vitro study of a physical mixture of VCH with excipients was executed to know the release of a drug. Several analytical techniques such as differential scanning calorimetry, nuclear magnetic resonance spectrometer, and Fourier-transform infrared (FTIR) spectroscopy have been utilized to know the drug-excipient compatibility. Further, possible interactions between valacyclovir and different excipients were assessed by thin-layer chromatography. In vitro dissolution studies in different sets of experiments were done to determine the influence of the hydrophobic and hydrophilic nature of excipients (on the dissolution profile of VCH using USP II-type dissolving apparatus). Moreover, in silico molecular docking studies were also done to know any possible molecular interactions among drugs and excipients using AutoDock VINA 1.2.0 software and GROMACS 5.0 software. FTIR and 1H NMR spectra of VCH and physical mixtures of VCH and excipients were compared and it was observed that no significant deviation of characteristic peaks in infrared spectroscopy and 1H NMR signals was detected. The endothermic peak of VCH in the physical mixtures of drugs and excipients was found in approximately the same position. In vitro dissolution studies displayed the influence of the hydrophobic and hydrophilic nature of excipients on the dissolution profile of VCH. For the physical mixture of VCH with lactose (LAC) and dicalcium phosphate (DP), % drug release was found to be 31.96% and 33.16% at 10 min, whereas the amount of % drug released for the mixture of VCH and talc was 25.00%. For two other excipients such as LAC and DP, the % drug release was determined to be 42.96% and 41.64%, respectively, for 30 min. The docking study also provided insights into the lowest energy conformations. Docking study anticipated that the number of interactions were more between valacyclovir and LAC (four nos.) in comparison to valacyclovir and microcrystalline cellulose (MCC) (two nos.). This interaction showed that in vitro drug release for the physical mixture of VCH with MCC was higher than a mixture of valacyclovir with LAC. A compatibility study of VCH by analytical techniques established that VCH was compatible with utilized excipients. Drug dissolution of VCH and physical mixture of MCC exhibited the maximum amount of drug release whereas a mixture of VCH with magnesium stearate released the minimum amount of drug for both short (10 min.) and long (30 min.) period. Docking studies disclosed that the LAC complex showed less deviation with less root mean square deviation value in comparison to the microcrystalline complex. Thus, the LAC complex has more hydrogen bonds and it was more stable as compared with the MCC complex. Therefore, VCH and used excipients could be used for solid dose formulations.
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