Department of Biomedical Engineering, National Cheng Kung University, Tainan, Taiwan.
Medical Device Innovation Center, National Cheng Kung University, Tainan, Taiwan.
Expert Opin Drug Deliv. 2022 Aug;19(8):997-1009. doi: 10.1080/17425247.2022.2110585. Epub 2022 Aug 10.
Delivering sufficient therapeutics at the target site without off-target effects is a major goal of drug delivery technology innovation. Among the established methods, ultrasound (US) with US-responsible carriers holds great promise and demonstrates on-demand delivery of a variety of functional substances with spatial precision of several millimeters in deep-seated tissues in animal models and humans. These properties have motivated several explorations of US with US responsible-responsible carriers as a modality for neuromodulation and the treatment of various diseases, such as stroke and cancer.
We briefly discuss three specific mechanisms that enhance in vivo drug delivery via US with US-responsible carriers: 1) permeabilizing cellular membrane, 2) increasing the permeability of vessels, and 3) promoting cellular endocytotic uptake. We then reviewed the state-of-the-art materials for US-triggered drug delivery, including conventional US contrast agents, and nanocarrier formulations, such as inorganic nanoparticles and gas vesicles.
In this article, we summarized recent progress for each of US-responsible drug carrier, focusing on the routes of enhancing delivery and applications. The mechanisms of interaction between US-responsible carriers and US waves, such as cavitation, streaming, hyperthermia, and ROS, as well as how those interactions can improve drug release and cell/tissue uptake.
在不产生脱靶效应的情况下将足够的治疗药物递送到靶位是药物输送技术创新的主要目标。在已建立的方法中,超声(US)与 US 响应载体具有很大的应用前景,并在动物模型和人体深部组织中展示了对各种功能物质的按需、具有几毫米空间精度的递药能力。这些特性激发了许多利用 US 响应载体作为神经调节和治疗各种疾病(如中风和癌症)的方式的探索。
我们简要讨论了通过 US 与 US 响应载体增强体内药物输送的三种特定机制:1)破坏细胞膜,2)增加血管通透性,3)促进细胞内吞作用。然后,我们回顾了用于 US 触发药物输送的最新材料,包括常规 US 对比剂和纳米载体配方,如无机纳米颗粒和气囊。
在本文中,我们总结了每种 US 响应药物载体的最新进展,重点介绍了增强输送的途径和应用。US 响应载体与 US 波之间的相互作用机制,如空化、流、热疗和 ROS,以及这些相互作用如何改善药物释放和细胞/组织摄取。
