Introduction: Radio waves and lasers can be used as heat sources during endovenous thermal ablation (EVTA) for saphenous vein insufficiency. A morphological comparison of veins that had been treated with EVTA was performed between those treated with an endovenous closure system (a radiofrequency [RF] system) and those treated with a Radial 2Ring fiber connected to a 1470-nm laser generator (2R). Methods: The experiment was conducted in a system that reproduces the physiological conditions found in the saphenous veins during EVTA. The 2R experiment was performed at two different power levels, 60 J/cm (2R-60) and 90 J/cm (2R-90). The heated vessels were morphologically examined in detail, and the detected morphological changes were classified into three groups: low-temperature changes (LTC), mid-temperature changes (MTC), and high-temperature changes (HTC). The thickness of the layers exhibiting each type of change was measured. Results: In the 2R groups, HTC, MTC, and LTC were observed from the superficial to deep layers. In the 2R-60 group, the layers exhibiting LTC, MTC, and HTC were 17 ± 3.2, 42 ± 10.5, and 190 ± 14.6 µm thick, respectively. In the 2R-90 group, these layers were 14 ± 4.0, 105 ± 64.2, and 363 ± 71.3 µm thick, respectively. In the RF group, only LTC were observed (thickness: 251 ± 72.6 µm). Conclusions: The RF device was able to heat the target vessels more efficiently than the laser device. (This article is a translation of Jpn J Phlebol 2015; 26: 23-8.).
Introduction: Radio waves and lasers can be used as heat sources during endovenous thermal ablation (EVTA) for saphenous vein insufficiency. A morphological comparison of veins that had been treated with EVTA was performed between those treated with an endovenous closure system (a radiofrequency [RF] system) and those treated with a Radial 2Ring fiber connected to a 1470-nm laser generator (2R). Methods: The experiment was conducted in a system that reproduces the physiological conditions found in the saphenous veins during EVTA. The 2R experiment was performed at two different power levels, 60 J/cm (2R-60) and 90 J/cm (2R-90). The heated vessels were morphologically examined in detail, and the detected morphological changes were classified into three groups: low-temperature changes (LTC), mid-temperature changes (MTC), and high-temperature changes (HTC). The thickness of the layers exhibiting each type of change was measured. Results: In the 2R groups, HTC, MTC, and LTC were observed from the superficial to deep layers. In the 2R-60 group, the layers exhibiting LTC, MTC, and HTC were 17 ± 3.2, 42 ± 10.5, and 190 ± 14.6 µm thick, respectively. In the 2R-90 group, these layers were 14 ± 4.0, 105 ± 64.2, and 363 ± 71.3 µm thick, respectively. In the RF group, only LTC were observed (thickness: 251 ± 72.6 µm). Conclusions: The RF device was able to heat the target vessels more efficiently than the laser device. (This article is a translation of Jpn J Phlebol 2015; 26: 23-8.).
Authors: D Dexter; L Kabnick; T Berland; G Jacobowitz; P Lamparello; T Maldonado; F Mussa; C Rockman; M Sadek; L E Giammaria; M Adelman Journal: Phlebology Date: 2012-03 Impact factor: 1.740
Authors: Thomas Schwarz; Eva von Hodenberg; Christian Furtwängler; Aljoscha Rastan; Thomas Zeller; Franz-Josef Neumann Journal: J Vasc Surg Date: 2010-03-29 Impact factor: 4.268
Authors: Mustafa Amzayyb; Renate R van den Bos; Vitali M Kodach; D Martijn de Bruin; Tamar Nijsten; H A Martino Neumann; Martin J C van Gemert Journal: Lasers Med Sci Date: 2010-02-10 Impact factor: 3.161
Authors: Peter Gloviczki; Anthony J Comerota; Michael C Dalsing; Bo G Eklof; David L Gillespie; Monika L Gloviczki; Joann M Lohr; Robert B McLafferty; Mark H Meissner; M Hassan Murad; Frank T Padberg; Peter J Pappas; Marc A Passman; Joseph D Raffetto; Michael A Vasquez; Thomas W Wakefield Journal: J Vasc Surg Date: 2011-05 Impact factor: 4.268
Authors: Ana Paula Pires Silva; Daniel Mendes Pinto; Vanessa Aline Miranda Vieira Milagres; Leonardo Ghizoni Bez; Júlio César Arantes Maciel; Caetano de Souza Lopes Journal: J Vasc Bras Date: 2021-04-28