Efficacy and safety assessment of an ultrasound-based thermal treatment of varicose veins in a sheep model

Efficacy and safety assessment of an ultrasound-based thermal treatment of varicose veins in a sheep model

Purpose Varicose veins are a common pathology that can be treated by endovenous thermal procedures like radiofrequency ablation (RFA). Such catheter-based techniques consist in raising the temperature of the vein wall to 70 to 120 °C to induce vein wall coagulation. Although effective, this treatmen...

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Main Authors: Nesrine Barnat, Anthony Grisey, Bjoern Gerold, Sylvain Yon, Jérémie Anquez, Jean-François Aubry
Format: Article
Language:English
Published: Taylor & Francis Group 2020-01-01
Series:International Journal of Hyperthermia
Subjects:
high-intensity focused ultrasound
thermal ablation
veins
vein wall coagulation
radiofrequency
Online Access:http://dx.doi.org/10.1080/02656736.2020.1734672
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spelling doaj-9cee88344d0a4489a99ecbb7cfc555e32021-08-09T15:50:01ZengTaylor & Francis GroupInternational Journal of Hyperthermia0265-67361464-51572020-01-0137123124410.1080/02656736.2020.17346721734672Efficacy and safety assessment of an ultrasound-based thermal treatment of varicose veins in a sheep modelNesrine Barnat0Anthony Grisey1Bjoern Gerold2Sylvain Yon3Jérémie Anquez4Jean-François Aubry5Physics for Medicine Paris, Inserm, ESPCI Paris, CNRS, PSL Research UniversityTheraclionTheraclionTheraclionTheraclionPhysics for Medicine Paris, Inserm, ESPCI Paris, CNRS, PSL Research UniversityPurpose Varicose veins are a common pathology that can be treated by endovenous thermal procedures like radiofrequency ablation (RFA). Such catheter-based techniques consist in raising the temperature of the vein wall to 70 to 120 °C to induce vein wall coagulation. Although effective, this treatment option is not suited for all types of veins and can be technically challenging. Materials and methods In this study, we used High-Intensity Focused Ultrasound (HIFU) as a non-invasive thermal ablation procedure to treat varicose veins and we assessed the long-term efficacy and safety of the procedure in a sheep model. In vivo experiments were first conducted on two saphenous veins to measure the temperature rise induced at the vein wall during HIFU ablation and were compared with reported RFA-induced thermal rise. Thermocouples were inserted in situ to perform 20 measurements during 8-s ultrasound pulses at 3 MHz. Eighteen saphenous veins of nine anesthetized sheep (2–2.5 % Isoflurane) were then exposed to similar pulses (85 W acoustic, 8 s). After treatments, animals recovered from anesthesia and were followed up 30, 60 and 90 days post-treatment (n = 3 animals per group). At the end of the follow-up, vein segments and perivenous tissues were harvested and histologically examined. Results Temperatures induced by HIFU pulses were found to be comparable to reported RFA treatments. Likewise, histological findings were similar to the ones reported after RFA and laser-based coagulation necrosis of the vein wall, thrombotic occlusions and vein wall fibrosis. Conclusion These results support strongly the effectiveness and safety of HIFU for ablating non-invasively veins.http://dx.doi.org/10.1080/02656736.2020.1734672high-intensity focused ultrasoundthermal ablationveinsvein wall coagulationradiofrequency
collection DOAJ
language English
format Article
sources DOAJ
author Nesrine Barnat
Anthony Grisey
Bjoern Gerold
Sylvain Yon
Jérémie Anquez
Jean-François Aubry
spellingShingle Nesrine Barnat
Anthony Grisey
Bjoern Gerold
Sylvain Yon
Jérémie Anquez
Jean-François Aubry
Efficacy and safety assessment of an ultrasound-based thermal treatment of varicose veins in a sheep model
International Journal of Hyperthermia
high-intensity focused ultrasound
thermal ablation
veins
vein wall coagulation
radiofrequency
author_facet Nesrine Barnat
Anthony Grisey
Bjoern Gerold
Sylvain Yon
Jérémie Anquez
Jean-François Aubry
author_sort Nesrine Barnat
title Efficacy and safety assessment of an ultrasound-based thermal treatment of varicose veins in a sheep model
title_short Efficacy and safety assessment of an ultrasound-based thermal treatment of varicose veins in a sheep model
title_full Efficacy and safety assessment of an ultrasound-based thermal treatment of varicose veins in a sheep model
title_fullStr Efficacy and safety assessment of an ultrasound-based thermal treatment of varicose veins in a sheep model
title_full_unstemmed Efficacy and safety assessment of an ultrasound-based thermal treatment of varicose veins in a sheep model
title_sort efficacy and safety assessment of an ultrasound-based thermal treatment of varicose veins in a sheep model
publisher Taylor & Francis Group
series International Journal of Hyperthermia
issn 0265-6736
1464-5157
publishDate 2020-01-01
description Purpose Varicose veins are a common pathology that can be treated by endovenous thermal procedures like radiofrequency ablation (RFA). Such catheter-based techniques consist in raising the temperature of the vein wall to 70 to 120 °C to induce vein wall coagulation. Although effective, this treatment option is not suited for all types of veins and can be technically challenging. Materials and methods In this study, we used High-Intensity Focused Ultrasound (HIFU) as a non-invasive thermal ablation procedure to treat varicose veins and we assessed the long-term efficacy and safety of the procedure in a sheep model. In vivo experiments were first conducted on two saphenous veins to measure the temperature rise induced at the vein wall during HIFU ablation and were compared with reported RFA-induced thermal rise. Thermocouples were inserted in situ to perform 20 measurements during 8-s ultrasound pulses at 3 MHz. Eighteen saphenous veins of nine anesthetized sheep (2–2.5 % Isoflurane) were then exposed to similar pulses (85 W acoustic, 8 s). After treatments, animals recovered from anesthesia and were followed up 30, 60 and 90 days post-treatment (n = 3 animals per group). At the end of the follow-up, vein segments and perivenous tissues were harvested and histologically examined. Results Temperatures induced by HIFU pulses were found to be comparable to reported RFA treatments. Likewise, histological findings were similar to the ones reported after RFA and laser-based coagulation necrosis of the vein wall, thrombotic occlusions and vein wall fibrosis. Conclusion These results support strongly the effectiveness and safety of HIFU for ablating non-invasively veins.
topic high-intensity focused ultrasound
thermal ablation
veins
vein wall coagulation
radiofrequency
url http://dx.doi.org/10.1080/02656736.2020.1734672
work_keys_str_mv AT nesrinebarnat efficacyandsafetyassessmentofanultrasoundbasedthermaltreatmentofvaricoseveinsinasheepmodel
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AT sylvainyon efficacyandsafetyassessmentofanultrasoundbasedthermaltreatmentofvaricoseveinsinasheepmodel
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AT jeanfrancoisaubry efficacyandsafetyassessmentofanultrasoundbasedthermaltreatmentofvaricoseveinsinasheepmodel
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