Er:YAG laser ablation of tissue: Effect of pulse duration and tissue type on thermal damage

1 January 1989

journal article
research article
Published by Wiley in Lasers in Surgery and Medicine

Vol. 9 (4) , 314-326
https://doi.org/10.1002/lsm.1900090403

Abstract

The thermal damage caused by 2.94‐μm Er:YAG laser ablation of skin, cornea, aorta, and bone was quantified. The zone of residual thermal damage produced by normal‐spiking‐mode pulses (pulse duration ≈ 200 μs) and Q‐switched pulses (pulse duration ≈ 90 ns) was compared. Normal‐spiking‐mode pulses typically leave 10–50 μm of collagen damage at the smooth wall of the incisions; however, at the highest fluences (≈ 80 J/cm²) tears were produced in cornea and aorta and as much as 100 μm of damaged collagen is found at the incision edge. Q‐switched pulses caused less thermal damage, typically 5–10 μm of damage in all tissues.

Keywords

This publication has 32 references indexed in Scilit:

Er:YAG laser ablation of tissue: Measurement of ablation rates
Lasers in Surgery and Medicine, 1989
Far‐ultraviolet laser ablation of the cornea: Photoacoustic studies
Lasers in Surgery and Medicine, 1987
Cutaneous Tissue Repair Following CO2 Laser Irradiation
Journal of Investigative Dermatology, 1986
Preliminary Report on Corneal Incisions Created by a Hydrogen Fluoride Laser
American Journal of Ophthalmology, 1986
NMR-Tomographie des menschlichen Auges
Ophthalmologica, 1986
Effects of Laser, Scalpel, and Electrosurgical Excision on Wound Contracture and Graft “Take”
Plastic and Reconstructive Surgery, 1980
Evaluation of nonisothermal band models for H2O
Journal of Quantitative Spectroscopy and Radiative Transfer, 1977
Theory, Measurement, and Application of Thermal Properties of Biomaterials
Annual Review of Biophysics and Bioengineering, 1975
Observation of Laser-induced Explosion of Solid Materials and Correlation with Theory
Applied Optics, 1974
Lambert Absorption Coefficients of Water in the Infrared*
Journal of the Optical Society of America, 1971