Radiofrequency vapor ablation for Barrett's esophagus: Feasibility, safety and proof of concept in a stepwise study with in vitro, animal, and the first in-human application

Publication date

2021-11

Authors

van Munster, Sanne N
Pouw, Roos E
Sharma, Virender
Meijer, Sybren
Weusten, Bas L A MISNI 0000000390865253
Bergman, Jacques Jghm

Editors

Advisors

Supervisors

Document Type

Article

Collections

Open Access logo

License

taverne

Abstract

Introduction The Radiofrequency Vapor Ablation (RFVA) System (AquaMedical, Inc., Santa Ana, CA) is a novel ablation system for eradication of Barrett's esophagus, that generates vapor at 100°C using an RF electrode located in the catheter tip.We performed in-vitro dosimetry studies and the first in-human feasibility study. Methods The system includes an RFVA generator with syringe pump and a through-the-scope-catheter. The RFVA system was tested in-vitro (lean-beef and porcine study) and ablation depth was compared to focal RFA. Two doses were selected for further in-vivo testing in dysplatic BE patients. Repeat endoscopy with histology was performed after 8 weeks to assess squamous conversion. Results In porcine, RFVA 3-seconds was comparable to RFA, whereas RFVA 5-seconds produced slightly deeper ablation. We selected a conservative 1-second and 3-seconds for human study. Fifty-three ablations were successfully applied in 15 patients with no adverse events. Follow-up endoscopy showed a median squamous conversion of 55% (IQR 33-74) and 98% (56-99) for 1 and 3-seconds, respectively. Conclusions In this 3-phase study with lean-beef, porcine and the first in-human application, the RFVA system was feasible for esophageal ablation and successfully and safely converted targeted BE areas into squamous epithelium.

Keywords

Taverne, Gastroenterology, Clinical Trial

Citation

van Munster, S, Pouw, R E, Sharma, V, Meijer, S, Weusten, B L A M & Bergman, J J 2021, 'Radiofrequency vapor ablation for Barrett's esophagus : Feasibility, safety and proof of concept in a stepwise study with in vitro, animal, and the first in-human application', Endoscopy, vol. 53, no. 11, pp. 1162-1168. https://doi.org/10.1055/a-1319-5550