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Model study to investigate the contribution of spallation to pulsed laser ablation of tissue

✍ Scribed by Günther Paltauf; Heinz Schmidt-Kloiber

Publisher
John Wiley and Sons
Year
1995
Tongue
English
Weight
986 KB
Volume
16
Category
Article
ISSN
0196-8092

No coin nor oath required. For personal study only.

✦ Synopsis

Background and Objective: Absorption of a short laser pulse produces high thermoelastic stress in the irradiated volume. The relaxation of this stress at a free (tissue-air) surface leads to tensile loading, resulting in mechanical spallation. Using model substances, we investigated the role of this effect in tissue ablation. Study DesignfMaterials and Methods: Stained water and gelatine were irradiated with short pulses (8 ns duration) from a NdYAG laser at 1,064 nm wavelength. The dynamics of the induced effects were observed with laser-flash photography and stress wave detection. Results: Spallation is indicated by the formation of cavitation bubbles below the irradiated surface and is strongly influenced by impurities serving as nucleation sites. Material ejection due to spallation was observed in the liquid sample at a fluence leading to a temperature below the boiling point but needed a temperature in excess of 100°C in gelatine, owing to the small mechanical energy available for this process, estimated to be <1%.

Conclusion:

The mechanical action of thermoelastic stress waves is characterized by high stress amplitudes but low energetic efficiency. A model combining spallation and vaporization is therefore proposed for efficient tissue ablation. o 1995 Wiley-Liss, Inc.

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