Chanam Melody Devi, Kangkan Deka, Amit Kumar Das, Apurba Talukdar, Piyong Sola
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引用次数: 0
摘要
根据世界卫生组织的分类,胶质瘤是中枢神经系统肿瘤中最常见、最具侵袭性的一种。一般来说,胶质母细胞瘤(GBA)预后较差,预期寿命短,很少超过 14 个月。预后不良的主要原因是对治疗胶质母细胞瘤的主要药物替莫唑胺产生了化疗抗药性。因此,当务之急是开发出与替莫唑胺相比具有不同抗肿瘤机制的新型药物。广阔的海洋环境中蕴藏着大量来自海洋的天然化合物(被称为海洋天然产物),为未来研究新型抗癌药物带来了希望。随着抗癌药物研究的不断进步,在抗癌疗法的分离和验证方面取得了许多突破性的进展。然而,由于各种挑战和制约因素,美国食品及药物管理局批准的海洋衍生抗癌药物仍然有限。在这些挑战中,药物输送是一个突出障碍。本综述深入探讨了利用纳米技术制剂递送海洋衍生药物的替代方法及其治疗 GBA 的作用机制。
Recent Advances in Marine-Derived Nanoformulation for the Management of Glioblastoma.
Glioma is the most common and aggressive type of central nervous system tumor as categorized by the World Health Organization. Glioblastoma (GBA), in general, exhibits a grim prognosis and short life expectancy, rarely exceeding 14 months. The dismal prognosis is primarily attributed to the development of chemoresistance to temozolomide, the primary therapeutic agent for GBA treatment. Hence, it becomes imperative to develop novel drugs with antitumor efficacy rooted in distinct mechanisms compared to temozolomide. The vast marine environment contains a wealth of naturally occurring compounds from the sea (known as marine-derived natural products), which hold promise for future research in the quest for new anticancer drugs. Ongoing advancements in anticancer pharmaceuticals have led to an upswing in the isolation and validation of numerous pioneering breakthroughs and improvements in anticancer therapeutics. Nonetheless, the availability of FDA-approved marine-derived anticancer drugs remains limited, owing to various challenges and constraints. Among these challenges, drug delivery is a prominent hurdle. This review delves into an alternative approach for delivering marine-derived drugs using nanotechnological formulations and their mechanism of action for treating GBA.