Title: Near-Infrared-Activated Nanocalorifiers in Microcapsules: Vapor Bubble Generation for In Vivo Enhanced Cancer Therapy.
Authors: Shao, Jingxin; Xuan, Mingjun; Dai, Luru; Si, Tieyan; Li, Junbai; He, Qiang
Abstract: Photothermal therapy based on gold nanostructures has been widely investigated as a state-of-the-art noninvasive therapy approach. Because single nanoparticles cannot harvest sufficient energy, self-assemblies of small plasmonic particles into large aggregates are required for enhanced photothermal performance. Self-assembled gold nanorods in lipid bilayer-modified microcapsules are shown to localize at tumor sites, generate vapor bubbles under near-infrared light exposure, and subsequently damage tumor tissues. The polyelectrolyte multilayer enables dense packing of gold nanorods during the assembly process, which leads to the formation of vapor bubbles around the excited capsules. The resulting vapor bubbles achieve a high efficiency of suppressing tumor growth compared to single gold nanorods. In vivo experiments demonstrated the ability of soft-polymer multilayer microcapsules to cross the biological barriers of the body and localize at target tissues.
Subjects: MOLECULAR capsules; CANCER treatment; MOLECULAR self-assembly; NANOMEDICINE; NEAR infrared radiation
Publication: Angewandte Chemie, 2015, Vol 127, Issue 43, p12973
ISSN: 0044-8249
Publication type: Academic Journal
DOI: 10.1002/ange.201506115

Near-Infrared-Activated Nanocalorifiers in Microcapsules: Vapor Bubble Generation for In Vivo Enhanced Cancer Therapy.

Shao, Jingxin; Xuan, Mingjun; Dai, Luru; Si, Tieyan; Li, Junbai; He, Qiang