给药革命:PLGA 纳米粒子在纳米医学中的潜力

Akanksha R. Singh, R. Athawale
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引用次数: 0

摘要

纳米医学是一个新兴领域,它利用纳米粒子将药物和其他治疗剂输送到体内特定的细胞和组织。聚乳酸-共羟基乙酸(PLGA)是制造这种纳米颗粒最有前途的材料之一,它具有多种独特的性质,非常适合生物医学应用。这种由乳酸和乙醇酸组合而成的纳米药物可以将药物和其他治疗剂直接输送到人体内的特定细胞或组织。这样就可以进行更精确和更有针对性的治疗,减少可能出现的副作用,提高治疗效果。此外,PLGA 纳米药物还具有生物相容性和可生物降解性,使其成为一种有吸引力的选择,可用于广泛的生物医学应用,输送各种药物,包括蛋白质、肽、核酸和小分子药物,用于各种生物医学应用,如神经退行性疾病、心血管疾病、炎症性疾病和癌症。总之,PLGA 纳米粒子在生物医学应用方面的研究仍在继续,并有可能为各种疾病和病症带来新的和更好的治疗方法。展望未来,PLGA 纳米粒子有可能彻底改变我们治疗疾病和改善人类健康的方式。随着研究的不断深入,我们有望看到 PLGA 纳米粒子在生物医学领域的创新应用,从而开发出更有效、更有针对性的治疗方法。本综述重点介绍了 PLGA 的合成、理化性质、生物降解特性、制备 PLGA 纳米粒子的方法以及 PLGA 在生物医学领域的应用。它探讨了 PLGA 在药物递送方面的当前进展和未来研究方向。
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Revolutionizing Drug Delivery: The Potential of PLGA Nanoparticles in Nanomedicine
Nanomedicine is an emerging field that utilizes nanoparticles to deliver drugs and other therapeutic agents to specific cells and tissues in the body. One of the most promising materials for creating these nanoparticles is Poly(Lactic-co-glycolic Acid) (PLGA), which has several unique properties that make it well-suited for biomedical applications. These nanomedicines, made from a combination of lactic acid and glycolic acid, can deliver drugs and other therapeutic agents directly to specific cells or tissues in the body. This allows for more precise and targeted treatment, reducing the potential for side effects and improving the effectiveness of the treatment. Additionally, PLGA nanomedicines are biocompatible and biodegradable, making them an attractive option for use in a wide range of biomedical applications to deliver a wide range of drugs, including proteins, peptides, nucleic acids, and small molecules for various biomedical applications such as neurodegenerative, cardiovascular diseases, inflammatory disorders, and cancer. In summary, research on PLGA nanoparticles for biomedical applications is ongoing and has the potential to lead a new and improved treatments for a wide range of diseases and conditions. Looking ahead, PLGA nanoparticles have the potential to revolutionize the way we treat diseases and improve human health. As research continues to advance, we can expect to see new and innovative uses for PLGA nanoparticles in the biomedical field, leading to the development of more effective and targeted therapeutics. The current review focuses on the synthesis, physicochemical properties, biodegradation properties of PLGA, method to prepare PLGA nanoparticles and biomedical application of PLGA. It examines the current progress and future directions for research on PLGA in drug delivery.
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