Depth of photothermal conversion of gold nanorods embedded in a tissue-like phantom

Depth of photothermal conversion of gold nanorods embedded in a tissue-like phantom

Gold nanorod (AuNR)-assisted photothermal therapy has emerged as a viable method for selective killing of cancer cells and shows promise for tumor destruction in vivo. This study examined the distribution of AuNR conversion expected to occur during photothermal therapy in vivo. Tissue-like phantoms...

Full description

Saved in:
Bibliographic Details
Published in:Nanotechnology Vol. 20; no. 19; p. 195102
Main Authors: Didychuk, Candice L, Ephrat, Pinhas, Chamson-Reig, Astrid, Jacques, Steven L, Carson, Jeffrey J L
Format: Journal Article
Language:English
Published: England 13-05-2009
Subjects:
Biomimetic Materials - chemistry
Energy Transfer
Gold - chemistry
Gold - radiation effects
Hot Temperature
Humans
Light
Macromolecular Substances - chemistry
Materials Testing
Molecular Conformation
Nanomedicine - methods
Nanotubes - chemistry
Nanotubes - radiation effects
Particle Size
Phototherapy - methods
Surface Properties
Online Access:Get more information
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Gold nanorod (AuNR)-assisted photothermal therapy has emerged as a viable method for selective killing of cancer cells and shows promise for tumor destruction in vivo. This study examined the distribution of AuNR conversion expected to occur during photothermal therapy in vivo. Tissue-like phantoms were prepared with polyethylene glycol AuNRs distributed homogeneously at a concentration representative of a systemic injection. Phantoms were illuminated with a nanosecond pulsed laser (800 nm) at a variety of combinations of pulse energy (12-120 mJ) and pulse count (1-1000). Operating at the American National Standards Institute safety limit for human skin exposure (30 mJ cm(-2)), a diameter of 13 mm and a depth of 7.6 mm of AuNR conversion were observed in the gel phantoms after 1000 laser pulses (100 s exposure). Significant AuNR conversion was measured to a depth of 6 mm after only 100 pulses. Comparison of the measured AuNR conversion distribution with Monte Carlo simulation suggested that the fluence threshold for AuNR conversion estimated from phantom measurements was in the range of 20-43 mJ cm(-2). The results suggest that AuNR-assisted photothermal therapy will be effective for tumors within 10 mm of the illuminated tissue surface.
ISSN:1361-6528
DOI:10.1088/0957-4484/20/19/195102