Chiral nanosystem and chiral supraparticles for drug delivery: an expert opinion.

Expert opinion on drug delivery Pub Date : 2024-12-23 DOI:10.1080/17425247.2024.2444347

Mahfoozur Rahman, Janhvi Singh, Alhussain Aodah, Majed Alrobaian, Nabil K Alruwaili, Waleed H Almalki, Salem Salman Almujri, Safia Obaidur Rab, Osama A Madkhali, Ankit Sahoo, Jonathan A Lal

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Abstract

Introduction: Chiral nanocarriers enhance therapeutic efficacy by improving in vivo stability and cellular uptake. Chemical functionalization reduces cytotoxicity, resulting in favorable biocompatibility. Nanoparticles self-assemble into supraparticles, enhancing drug delivery through improved retention and drug loading.

Area covered: This review covers chiral nanostructures and chiral supraparticles, and their applications in drug delivery and various healthcare applications.

Expert opinion: The chirality of biomaterials is crucial for advancing nanomedicine. Chiral nanosystem enhance drug delivery by interacting selectively with biological molecules, improving their specificity and efficacy. This reduces off-target effects and improves therapeutic outcomes. Research has focused on cellular uptake and elimination to ensure safety, and chiral nanomaterials also show promise in optical sensing and gene editing. Their biocompatibility and ability to self-assemble into supraparticles may make them ideal for drug delivery systems.

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用于给药的手性纳米系统和手性超颗粒：专家意见。

引言手性纳米载体可提高体内稳定性和细胞吸收率，从而增强疗效。化学功能化可降低细胞毒性，从而获得良好的生物相容性。纳米颗粒可自组装成超颗粒，通过提高保留率和载药量来增强给药效果。本综述涵盖手性纳米结构和手性超颗粒、其机理以及在药物输送和各种医疗保健应用中的应用。专家观点生物材料的手性对于推动纳米医学的发展至关重要。手性纳米系统可选择性地与生物分子相互作用，提高药物的特异性和药效，从而增强给药效果。这可以减少脱靶效应，提高治疗效果。手性纳米材料在光学传感和基因编辑方面也大有可为。手性纳米材料的生物相容性和自组装成超微粒的能力可能使其成为药物输送系统的理想选择。

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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