Literature DB >> 24292197

Temperature profiles of 980- and 1,470-nm endovenous laser ablation, endovenous radiofrequency ablation and endovenous steam ablation.

W S J Malskat1, M A L Stokbroekx, C W M van der Geld, T E C Nijsten, R R van den Bos.   

Abstract

Endovenous thermal ablation (EVTA) techniques are very effective for the treatment of varicose veins, but their exact working mechanism is still not well documented. The lack of knowledge of mechanistic properties has led to a variety of EVTA protocols and a commercially driven dissemination of new or modified techniques without robust scientific evidence. The aim of this study is to compare temperature profiles of 980-and 1,470-nm endovenous laser ablation (EVLA), segmental radiofrequency ablation (RFA), and endovenous steam ablation (EVSA). In an experimental setting, temperature measurements were performed using thermocouples; raw potato was used to mimic a vein wall. Two laser wavelengths (980 and 1,470 nm) were used with tulip-tip fibers and 1,470 nm also with a radial-emitting fiber. Different powers and pullback speeds were used to achieve fluences of 30, 60, and 90 J/cm. For segmental RFA, 1 cycle of 20 s was analyzed. EVSA was performed with two and three pulses of steam per centimeter. Maximum temperature increase, time span of relevant temperature increase, and area under the curve of the time of relevant temperature increase were measured. In all EVLA settings, temperatures increased and decreased rapidly. High fluence is associated with significantly higher temperatures and increased time span of temperature rise. Temperature profiles of 980- and 1,470-nm EVLA with tulip-tip fibers did not differ significantly. Radial EVLA showed significantly higher maximum temperatures than tulip-tip EVLA. EVSA resulted in mild peak temperatures for longer durations than EVLA. Maximum temperatures with three pulses per centimeter were significantly higher than with two pulses. RFA temperature rises were relatively mild, resulting in a plateau-shaped temperature profile, similar to EVSA. Temperature increase during EVLA is fast with a high-peak temperature for a short time, where EVSA and RFA have longer plateau phases and lower maximum temperatures.

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Year:  2013        PMID: 24292197     DOI: 10.1007/s10103-013-1449-4

Source DB:  PubMed          Journal:  Lasers Med Sci        ISSN: 0268-8921            Impact factor:   3.161


  19 in total

Review 1.  Laser incisional surgery.

Authors:  B S Biesman; J Khan
Journal:  Clin Plast Surg       Date:  2000-04       Impact factor: 2.017

2.  Endovenous laser ablation of great saphenous veins using a 1470 nm diode laser and the radial fibre--follow-up after six months.

Authors:  F Pannier; E Rabe; J Rits; A Kadiss; U Maurins
Journal:  Phlebology       Date:  2010-12-09       Impact factor: 1.740

3.  Endovenous treatment of the great saphenous vein using a 1,320 nm Nd:YAG laser causes fewer side effects than using a 940 nm diode laser.

Authors:  Thomas M Proebstle; Thomas Moehler; Doendue Gül; Sylvia Herdemann
Journal:  Dermatol Surg       Date:  2005-12       Impact factor: 3.398

Review 4.  Endovenous therapies of lower extremity varicosities: a meta-analysis.

Authors:  Renate van den Bos; Lidia Arends; Michael Kockaert; Martino Neumann; Tamar Nijsten
Journal:  J Vasc Surg       Date:  2008-08-09       Impact factor: 4.268

Review 5.  Minimally invasive techniques in the treatment of saphenous varicose veins.

Authors:  Tamar Nijsten; Renate R van den Bos; Mitchel P Goldman; Michael A Kockaert; Thomas M Proebstle; Eberhard Rabe; Neil S Sadick; Robert A Weiss; Martino H A Neumann
Journal:  J Am Acad Dermatol       Date:  2008-10-02       Impact factor: 11.527

Review 6.  Endovenous laser ablation: mechanism of action.

Authors:  C-M Fan; R Rox-Anderson
Journal:  Phlebology       Date:  2008       Impact factor: 1.740

7.  Randomized clinical trial comparing endovenous laser ablation, radiofrequency ablation, foam sclerotherapy and surgical stripping for great saphenous varicose veins.

Authors:  L H Rasmussen; M Lawaetz; L Bjoern; B Vennits; A Blemings; B Eklof
Journal:  Br J Surg       Date:  2011-08       Impact factor: 6.939

8.  Comparison of 980 nm laser and bare-tip fibre with 1470 nm laser and radial fibre in the treatment of great saphenous vein varicosities: a prospective randomised clinical trial.

Authors:  S Doganci; U Demirkilic
Journal:  Eur J Vasc Endovasc Surg       Date:  2010-05-23       Impact factor: 7.069

9.  Proof-of-principle study of steam ablation as novel thermal therapy for saphenous varicose veins.

Authors:  Renate R van den Bos; Rene Milleret; Martino Neumann; Tamar Nijsten
Journal:  J Vasc Surg       Date:  2011-01       Impact factor: 4.268

10.  Mathematical modeling of endovenous laser treatment (ELT).

Authors:  Serge R Mordon; Benjamin Wassmer; Jaouad Zemmouri
Journal:  Biomed Eng Online       Date:  2006-04-25       Impact factor: 2.819
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  4 in total

1.  Comparing 1470- and 980-nm diode lasers for endovenous ablation treatments.

Authors:  Aykut Recep Aktas; Orhan Celik; Ugur Ozkan; Mustafa Cetin; Mert Koroglu; Sevda Yilmaz; Birsen U Daphan; Levent Oguzkurt
Journal:  Lasers Med Sci       Date:  2015-05-20       Impact factor: 3.161

2.  No significant difference between 1940 and 1470 nm in endovenous laser ablation using an in vitro porcine liver model.

Authors:  Mark S Whiteley; Amy C Cross; Victoria C Whiteley
Journal:  Lasers Med Sci       Date:  2021-10-23       Impact factor: 3.161

3.  Ins and outs of endovenous laser ablation: afterthoughts.

Authors:  H A Martino Neumann; Martin J C van Gemert
Journal:  Lasers Med Sci       Date:  2014-01-08       Impact factor: 3.161

4.  Photoacoustic Imaging for Image-guided Endovenous Laser Ablation Procedures.

Authors:  Yan Yan; Samuel John; Mahboobeh Ghalehnovi; Loay Kabbani; Nicole A Kennedy; Mohammad Mehrmohammadi
Journal:  Sci Rep       Date:  2019-02-27       Impact factor: 4.379
  4 in total

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