Rogueda Philippe Ga, Traini Daniela
Stift Klosterneuburg, 3400 Klosterneuburg, Austria.
Expert Opin Drug Deliv. 2007 Nov;4(6):595-606. doi: 10.1517/17425247.4.6.595.
This two-part review explores the nanoscale in inhalation delivery. The first part covers the deposition, fate, toxicity and effects of nanoparticles delivered via inhalation. The second part analyses the potential of major inhalation delivery routes. Efficient particle deposition in the lung can be achieved with nanoparticles (50 - 100 nm). However, this particle range has hardly been exploited in a medical setting. Thus, formulation scientists have a rare opportunity to develop new concepts in inhalation delivery. The delivery of nanoparticles raises concern over increased toxicity, but also opens up the possibility for enhanced therapeutic effects and reduced dosage. Toxicity data available so far concerns mainly non-therapeutic molecules, and it remains a moot point as to whether these apply to drug molecules.
这篇分为两部分的综述探讨了吸入给药中的纳米尺度。第一部分涵盖了通过吸入递送的纳米颗粒的沉积、归宿、毒性和效应。第二部分分析了主要吸入给药途径的潜力。纳米颗粒(50 - 100纳米)能够在肺部实现高效的颗粒沉积。然而,这一颗粒范围在医学环境中几乎未被开发利用。因此,制剂科学家有难得的机会来开发吸入给药的新概念。纳米颗粒的递送引发了对毒性增加的担忧,但也为增强治疗效果和减少剂量开辟了可能性。目前可得的毒性数据主要涉及非治疗性分子,这些数据是否适用于药物分子仍存在争议。