[Advances in inhalable nano-formulations]
- PMID: 40665629
- PMCID: PMC12382326
- DOI: 10.3724/zdxbyxb-2024-0650
[Advances in inhalable nano-formulations]
Abstract
Nano-drug delivery systems offer significant benefits, including high specific surface area, structural and functional diversity, and surface modifiability. When formulated as inhalable nano-formulation, these can not only enable precise pulmonary drug delivery but also improve pulmonary bioavailability and enhance thera-peutic efficacy. Currently, there are four types of inhalable nano-formulations for the treatment of respiratory diseases. Inhalable liquid preparations exhibit facile manufactur-ability and broad applicability yet demonstrate compromised stability during aerosolization. Through structure optimization, surface modification, dispersion medium optimization and device improvement, the atomization stability of nano-drug has been enhanced. Pressurized metered-dose inhalers loaded with nano-drugs face technical challenges: conventional propellants may dissolve nano-carriers, whereas co-solvents like ethanol compromise delivery efficiency. Thus, it is necessary to develop novel propellants that provide thermodynamic stability and optimal delivery performance. Nano-drug formulations in dry powder inhalers exhibit relatively favorable physical stability, however, pulmonary delivery efficiency and nanoparticles integrity during processing remain problematic. Pulmonary delivery efficiency can be improved by employing strategies such as blending excipients to promote the re-dispersibility of nanoparticle agglomerates, optimizing the design of microcarrier, and innovating preparation processes. In contrast, soft mist inhalers are an ideal option for pulmonary delivery of nano-drugs owing to their gentle and efficient atomization properties to maintain nano-drug integrity. This review summarizes the inhalable nano-formulations and focuses on challenges and proposed strategies encoun-tered in integrating nano-drug delivery systems and inhalation drug delivery systems. It aims to provide references for the future development of inhalable nano-formulations.
纳米药物递送系统具有高比表面积、结构功能多样性、表面可修饰性等优势,将其进一步构建为纳米药物吸入制剂,可实现药物在肺部的精准递送,提高药物的生物利用度,增强疗效。目前用于呼吸系统疾病治疗的纳米药物吸入制剂主要有四类:纳米药物吸入液体制剂制备工艺简单,应用广泛,但稳定性不足,通过优化纳米载体结构、表面改性、分散介质优化和雾化装置改构可提高其雾化的稳定性;纳米药物吸入气雾剂使用的抛射剂存在溶解纳米载体的风险,且乙醇等助溶剂可导致递送效率下降,亟需开发兼具热力学稳定性和具有理想递送效果的新型抛射剂以拓展其应用;纳米药物吸入粉雾剂物理稳定性较好,但肺部递送效率及固化过程中纳米药物稳定性欠佳制约了其临床应用,通过共混辅料优化纳米团聚微粒再分散性、优化微米载体设计和创新制备工艺等手段有望增强其肺部递送效率;相比之下,纳米药物吸入软雾剂具有更柔和、更高效的雾化特性,可有效维持纳米药物结构的完整性,是纳米药物肺部递送的理想选择。本文综述了上述纳米药物吸入制剂的特点,重点阐述了纳米药物递送系统与吸入制剂结合时遇到的挑战及解决方案,以期为后续纳米药物吸入制剂的开发提供参考。.
Keywords: Controlled drug release materials; Inhalation prepara-tions; Nanoformulation; Respiratory disease; Review.
Conflict of interest statement
所有作者均声明不存在利益冲突
The authors declare that there is no conflict of interests
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