Soft dosage forms as interfaces

News of Pharmacy Pub Date : 2021-10-19 DOI:10.24959/nphj.21.57

L. Ivanov, O. Р. Bezugla, O. Shcherbak, L. Derymedvid, V. Kravchenko

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Abstract

Aim. To analyze data on combined drugs in soft dosage forms as potential drug interfaces. Materials and methods. The bibliosemantic research method was used in the work. Results and discussion. By analogy with foreign interfaces of carbon nanotubes with neurons it has been proposed to consider a number of soft dosage forms as interfaces between inanimate organic structures of dosage forms and living cells of the skin tissue or the mucous membrane. A number of soft dosage forms, which can be considered as interfaces between the inanimate organics of dosage forms and living cells of the skin tissue and mucosa, has been studied and analyzed. Interfaces are polymer matrices made of polyethylene glycols, high molecular weight polysaccharides, carbomers, etc. A carbomer can be considered as the basis of plastic, conformationally mobile interfaces between the general dosage form and living cells of the skin and mucosa. It has been shown that the mechanism of increasing biocompatibility with the help of polyethylene glycols is the ability of PEG molecules due to compaction (spiralization) or expansion of the molecules to accept the optimal conformation, giving their hydrophobic or polar groups for the optimal binding, on the one hand, with medicinal substances (drugs), and, on the other hand, with bioobjects. It has been shown that the affinity for PEG-400 phosphatidylcholine liposomes is 6 times greater than that of propylene glycol, and the affinity for PEG-1500 liposomes is 24 times higher than that of propylene glycol. Upon contact with the skin or the mucosa the interface structure may be destroyed as the components of the dosage form have different affinities for membranes of cells of biological surfaces – surface active substances that quickly bind to the lipid bilayer of the membranes of the skin or mucous membranes are the first ones that leave the dosage forms. Then, other auxiliary substances of the interface bind to the cell membranes at different speeds and in different ways. Conclusions. Therefore, a dosage form as an interface is a dynamic matrix that can rebuild and, as it contacts the membranes of skin cells or mucous membranes, promote absorption of the drug substance according to a specific program.

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软剂型作为界面

的目标。分析软剂型联合药物作为潜在药物界面的数据。材料和方法。本文采用文献语义学研究方法。结果和讨论。与国外碳纳米管与神经元的界面类似，有人提出考虑一些软剂型作为剂型的无生命有机结构与皮肤组织或粘膜的活细胞之间的界面。研究和分析了许多软剂型，它们可以被认为是剂型的无生命有机体与皮肤组织和粘膜的活细胞之间的界面。界面是由聚乙二醇、高分子量多糖、碳水化合物等组成的聚合物基质。卡波姆可被认为是一般剂型与皮肤和粘膜的活细胞之间的塑性构象移动界面的基础。研究表明，在聚乙二醇的帮助下增加生物相容性的机制是PEG分子由于压实(螺旋化)或分子膨胀而接受最佳构象的能力，使其疏水或极性基团一方面与药用物质(药物)结合，另一方面与生物物体结合。对PEG-400磷脂酰胆碱脂质体的亲和力是丙二醇的6倍，对PEG-1500脂质体的亲和力是丙二醇的24倍。当与皮肤或粘膜接触时，界面结构可能被破坏，因为剂型的组分对生物表面的细胞膜具有不同的亲和力-迅速结合到皮肤或粘膜的脂质双分子层的表面活性物质是首先离开剂型的物质。然后，界面的其他辅助物质以不同的速度和方式与细胞膜结合。因此，剂型作为界面是一个动态的基质，它可以重建，当它接触皮肤细胞或粘膜时，根据特定的程序促进药物的吸收。

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News of Pharmacy

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