1. Ablation efficiency and relative thermal confinement measurements using wavelengths 1,064, 1,320, and 1,444 nm for laser-assisted lipolysis
- Author
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J. David Holcomb and Jong-In Youn
- Subjects
Ablation crater ,Materials science ,Ablation efficiency ,genetic structures ,Swine ,medicine.medical_treatment ,chemistry.chemical_element ,Video-Assisted Surgery ,Dermatology ,Radiation ,Ablation ,Laser lipolysis ,Thermal confinement ,Neodymium ,law.invention ,Optics ,Optical coherence tomography ,Lipectomy ,law ,medicine ,Animals ,Irradiation ,Wavelength dependence ,Skin ,Contouring ,medicine.diagnostic_test ,business.industry ,Temperature ,Dose-Response Relationship, Radiation ,Equipment Design ,Laser ,Wavelength ,chemistry ,Adipose Tissue ,Fat ,Surgery ,Original Article ,Laser Therapy ,business ,Mass loss - Abstract
Laser-assisted lipolysis is routinely used for contouring the body and the neck while modifications of the technique have recently been advocated for facial contouring. In this study, wavelength-dependence measurements of laser lipolysis effect were performed using different lasers at 1,064, 1,320, and 1,444 nm wavelengths that are currently used clinically. Fresh porcine skin with fatty tissue was used for the experiments with radiant exposure of 5–8 W with the same parameters (beam diameter = 600 μm, peak power = 200 mJ, and pulse rate = 40 Hz) for 1,064, 1,320 and 1,444 nm laser wavelengths. After laser irradiation, ablation crater depth and width and tissue mass loss were measured using spectral optical coherence tomography and a micro-analytical balance, respectively. In addition, thermal temporal monitoring was performed with a thermal imaging camera placed over ex vivo porcine fat tissue; temperature changes were recorded for each wavelength. This study demonstrated greatest ablation crater depth and width and mass removal in fatty tissue at the 1,444 nm wavelength followed by, in order, 1,320 and 1,064 nm. In the evaluation of heat distribution at different wavelengths, reduced heat diffusion was observed at 1,444 nm. The ablation efficiency was found to be dependent upon wavelength, and the 1,444 nm wavelength was found to provide both the highest efficiency for fatty tissue ablation and the greatest thermal confinement.
- Published
- 2012