a Non-Destructive Biomedical and Pharmaceutical Research Centre , iPROMISE, Universiti Teknologi MARA Selangor , Puncak Alam , Malaysia.
b Nanotechnology & Catalysis Research Centre , University of Malaya , Kuala Lumpur , Malaysia.
Expert Opin Drug Deliv. 2018 Dec;15(12):1223-1247. doi: 10.1080/17425247.2018.1547280. Epub 2018 Nov 20.
Pulmonary drug delivery is organ-specific and benefits local drug action for lung cancer. The use of nanotechnology and targeting ligand enables cellular-specific drug action. Combination approaches increase therapeutic efficacy and reduce adverse effects of cancer chemotherapeutics that have narrow therapeutic index window and high cytotoxicity levels. The current progress of inhaled cancer chemotherapeutics has not been examined with respect to targeting strategy and clinical application potential.
This review examines the state of the art in passive (processing and formulation) and active (targeting ligand and receptor binding) technologies in association with the use of nanocarrier to combat lung cancer. It highlights routes to equip nanocarrier with targeting ligands as a function of the chemistry of participating biomolecules and challenges in inhalational nanoproduct development and clinical applications. Both research and review articles were examined using the Scopus, Elsevier, Web of Science, Chemical Abstracts, Medline, CASREACT, CHEMCATS, and CHEMLIST database with the majority of information retrieved between those of 2000-2018.
The therapeutic efficacy of targeting ligand-decorated nanocarriers needs to be demonstrated in vivo in the form of finished inhalational products. Their inhalation efficiency and medical responses require further examination. Clinical application of inhaled nanocancer chemotherapeutics is premature.
肺部药物输送具有器官特异性,有利于肺癌的局部药物作用。纳米技术和靶向配体的使用使药物具有细胞特异性。联合治疗方法可提高治疗效果,降低癌症化疗药物的不良反应,这些药物的治疗指数窗口较窄,细胞毒性水平较高。目前,尚未对吸入式癌症化疗药物的靶向策略和临床应用潜力进行审查。
本文综述了被动(加工和制剂)和主动(靶向配体和受体结合)技术的最新进展,以及纳米载体在治疗肺癌方面的应用。重点介绍了将靶向配体与纳米载体结合的途径,作为参与生物分子化学性质的功能,并探讨了吸入式纳米产品开发和临床应用中的挑战。使用 Scopus、Elsevier、Web of Science、Chemical Abstracts、Medline、CASREACT、CHEMCATS 和 CHEMLIST 数据库,查阅了研究和综述文章,检索信息主要来自 2000 年至 2018 年。
靶向配体修饰的纳米载体的治疗效果需要以成品吸入式产品的形式在体内进行证明。它们的吸入效率和医疗反应需要进一步检查。吸入式纳米癌症化疗药物的临床应用还不成熟。
