Gemini surfactants as next-generation drug carriers in cancer management.

Expert opinion on drug delivery Pub Date : 2024-07-01 Epub Date: 2024-07-26 DOI:10.1080/17425247.2024.2384037

Oly Katari, Keshav Kumar, Shrushti Bhamble, Sanyog Jain

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Abstract

Introduction: Gemini surfactants (GS) are an elite class of amphiphilic molecules that have shown up as a potential candidate in the field of drug delivery because of their exceptional physicochemical properties. They comprise two hydrophilic headgroups connected by an adaptable spacer and hydrophobic tails that has shown promising results in delivering different therapeutic agents to cancer cells at preclinical level. However further studies are in demand to unlock the full potential of GS in this field.

Areas covered: This review summarizes the new advancements in GS as drug carriers in cancer therapy, their capacity to overcome conventional shortcomings and the demand for innovative approaches in disease treatment. A detailed list of GS-based formulations along with a brief description on oligomeric surfactants have also been provided in this review. This article summarizes data from studies identified through literature database searches including PubMed and Google Scholar (2010-2023).

Expert opinion: There are major challenges that need to be addressed in this field which restrict their progression toward clinical phase. Further research can focus on developing a theranostic system that can provide simultaneous real-time monitoring along with treatment care. Nevertheless, ensuring the safety parameters of these nanocarriers followed by their regulatory approval is a time-consuming and expensive process. A collaborative approach between regulatory bodies, research institutions, and pharmaceutical companies can speed up the process in the upcoming years.

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双子表面活性剂是治疗癌症的新一代药物载体。

导言：双子表面活性剂（GS）是一类优秀的两亲性分子，由于其特殊的物理化学特性，已成为药物递送领域的潜在候选物质。它们由两个亲水头基和一个可适应的间隔物以及疏水尾基组成，在临床前水平上已显示出向癌细胞输送不同治疗药物的良好效果。然而，要充分挖掘 GS 在这一领域的潜力，还需要进一步的研究：本综述总结了 GS 作为癌症治疗药物载体的新进展、其克服传统缺陷的能力以及对疾病治疗创新方法的需求。本综述还提供了以 GS 为基础的制剂的详细清单，并简要介绍了低聚表面活性剂。本文总结了通过文献数据库（包括PubMed和谷歌学术）搜索到的研究数据（2010-2023年）：专家意见：这一领域亟待解决的主要挑战限制了其临床阶段的进展。进一步的研究可以集中在开发一种治疗系统上，这种系统可以在提供治疗护理的同时进行实时监测。然而，确保这些纳米载体的安全参数并获得监管部门的批准是一个耗时且昂贵的过程。监管机构、研究机构和制药公司之间的合作可以在未来几年加快这一进程。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Expert opinion on drug delivery

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