Ex vivo comparison of the tissue effects of six laser wavelengths for potential use in laser supported partial nephrectomy

Laparoscopic/robotic partial nephrectomy (LPN) is increasingly considered for small renal tumors (RT). This demands new compatible surgical tools for RT-resection, such as lasers, to optimize cutting and coagulation. This work aims to characterize ex vivo handling requirements for six medically appr...

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Bibliographic Details
Published in:Journal of biomedical optics 2012-06, Vol.17 (6), p.068005-1-068005-3
Main Authors: Khoder, Wael Y, Zilinberg, Katja, Waidelich, Raphaela, Stief, Christian G, Becker, Armin J, Pangratz, Thomas, Hennig, Georg, Sroka, Ronald
Format: Article
Language:English
Subjects:
Ablation
Absorption
Animals
Coagulation
Cutting
Cutting parameters
Devices
Equipment Design
Fibers
Hemostasis
Ischemia - pathology
Kidney - pathology
Kidney Neoplasms - therapy
Laparoscopy - methods
Laser Therapy - instrumentation
Laser Therapy - methods
Lasers
Nephrectomy - instrumentation
Nephrectomy - methods
Optics and Photonics - methods
Perfusion
Reproducibility of Results
Swine
Wavelengths
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Summary:Laparoscopic/robotic partial nephrectomy (LPN) is increasingly considered for small renal tumors (RT). This demands new compatible surgical tools for RT-resection, such as lasers, to optimize cutting and coagulation. This work aims to characterize ex vivo handling requirements for six medically approved laser devices emitting different light wavelengths (940, 1064, 1318, 1470, 1940, and 2010 nm) amenable for LPN. Incisions were made by laser fibers driven by a computer-controlled stepping motor allowing precise linear movement with a preset velocity at a fixed fiber-tip distance to tissue. Optical parameters were measured on 200 μm tissue slices. Cutting quality depended on power output, fiber velocity and fiber-tip distance to tissue. Contact manner is suitable for cutting while a noncontact manner (5 mm distance) induces coagulation. Ablation threshold differs for each wavelength. Ablation depth is proportional to power output (within limit) while axial and superficial coagulation remains mostly constant. Increased fiber velocity compromises the coagulation quality. Optical parameters of porcine kidney tissue demonstrate that renal absorption coefficient follows water absorption in the 2 μm region while for other spectral regions (900 to 1500 and 1 μm) the tissue effects are influenced by other chromophores and scattering. Tissue color changes demonstrate dependencies on irradiance, scan velocity, and wavelength. Current results clearly demonstrate that surgeons considering laser-assisted RT excisions should be aware of the mentioned technical parameters (power output, fiber velocity and fiber-tip tissue-distance) rather than wavelength only.
ISSN:1083-3668
1560-2281
DOI:10.1117/1.JBO.17.6.068005