氮丙啶三嗪类国产抗癌药物的靶向给药(文献综述)

D. Kachanov, Olesya Aleksandrovna Belyaeva, Alexander Nikolaevich Stukov, G. V. Tochilnikov, Andrey Vladislavovich Pavlysh, Y. Zmitrichenko, Valery Anatolievich Alexandrov, Tatiana Yurievna Semiglazova, A. M. Belyaev
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摘要

目前,抗癌药物的靶向给药可以显著提高疗效,减少全身化疗的副作用,提高癌症患者的治疗质量。本研究旨在总结目前国内抗肿瘤药物 2,4-双(1-氮丙啶基)-6-(2,2-二甲基-5-羟甲基-1,3-二恶烷-5-基)氨基-1,3,5-三嗪(Dioxadet)的相关数据、其纳米形式、在临床上使用的可能性以及近年来世界范围内临床引进的主要抗肿瘤纳米药物。该研究通过搜索和信息(电子图书馆、PubMed、CyberLeninka、ResearchGate、Springer、Wiley Online Library、Elsevier)和图书馆数据库进行。文献综述总结了 Dioxadet 的临床前试验数据,并提供了有关其开发的纳米形式的信息,如纳米凝胶、纳米金刚石、二氧化硅颗粒、乳酸和己酸共聚物。新的药物纳米形式为降低药物副作用和全身毒性、保持最佳治疗浓度、延长药物在血液中的循环时间以及控制药物释放提供了机会。使用化学制备细胞毒性剂量的可能性是新型纳米药物的主要优势。迄今为止,已有约 20 种抗肿瘤纳米药物进入临床实践,还有一些纳米药物正在进行临床前和不同阶段的临床试验。因此,开发新的有效二恶英纳米药物可以确保靶向给药,提高靶细胞的细胞毒性剂量,增加选择性作用,减少对正常细胞的细胞毒性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Targeted delivery of the domestic anticancer drug from the group of aziridine triazines (literature review)
At the present time targeted delivery of anticancer drugs can significantly increase the effectiveness of therapy, reduce the side effects of systemic chemotherapy and improve the quality of cancer patients treatment. The aim is summarization of data about the domestic antitumor drug 2,4-bis(1-aziridinyl)-6-(2,2-dimethyl-5-hydroxymethyl-1,3-dioxan-5-yl)amino-1,3,5-thriazine (Dioxadet) today, its nanoforms, possibilities of use in the clinic and the main antitumor nanodrugs clinical introduced in recent years in the world. The study was conducted with search and information (eLibrary, PubMed, CyberLeninka, ResearchGate, Springer, Wiley Online Library, Elsevier) and library databases. The literature review summarizes data on preclinical trials of Dioxadet and provides information on its developed nanoforms, such as nanogels, nanodiamonds, silica particles, copolymers with lactic and caproic acids. New drug nanoforms open up opportunities to reduce its side effects and systemic toxicity, as well as maintain optimal therapeutic concentrations, increase the circulation time of the drug in the blood and control its release. The possibility of chemopreparation cytotoxic doses using is the main advantage of the new drug nanoform. To date, about 20 antitumor nanodrugs have been introduced in clinical practice, and a number of nanodrugs are undergoing preclinical and various phases of clinical trials. Thus, the development of new effective dioxadet nanoforms makes it possible to ensure targeted drug delivery in higher cytotoxic doses to the target cell, increase of the selective action, and reduce the cytostatic toxicity towards normal cells.
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