In vitro Alexandrite laser angioplasty: A study on fibre conduction and tissue effects |
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Authors: | Karl K Haase Stefan Hassenstein Stephan Duda Manfred Wehrmann Erwin Steiger Karl R Karsch |
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Institution: | (1) Department of Medicine, Division of Cardiology, University of Tübingen, Otfried Müllerstrasse 10, 7400 Tübingen, Germany;(2) Department of Radiology, University of Tübingen, Otfried Müllerstrasse 10, 7400 Tübingen, Germany;(3) Department of Pathology, University of Tübingen, Otfried Müllerstrasse 10, 7400 Tübingen, Germany;(4) E. Steiger Lasertechnik, 8130 Starnberg, Germany |
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Abstract: | Pulsed ultra-violet excimer laser radiation is capable of tissue ablation with only minimal thermal injury of adjacent tissue structures. Since difficult fibre optic coupling of energy was observed, alternative Q-switched laser sources capable of ablation of atherosclerotic plaque are under current investigation. To evaluate tissue effects of Alexandrite laser radiation, 160 arterial segments with macroscopic evidence of atherosclerotic disease were treated. The laser light was transmitted via silica based quartz fibres with different diameters. Using the Q-switched Alexandrite laser at the fundamental wavelength (748 nm) with a pulse duration of 300 ns the energy density threshold for tissue ablation was found to be in the range of 63 to 126 J cm–2 using a 300m fibre. On macroscopic examination only limited thermal and acoustic injury was found in crater adjacent tissue structures. Crater edges were even and did not reveal signs of crater charring or debris in the crater lumen. However, the histological cross-sections revealed thermal injury extending from 100 up to 200m lateral into adjacent tissue. The crater margins revealed fissuring as a result of shock wave injury. Thermal damage was most evident if irradiation of atherosclerotic tissue was performed in blood. |
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Keywords: | Atherosclerosis Alexandrite Angioplasty |
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