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. 2024 Apr;17(2):417-425.
doi: 10.1007/s12265-023-10424-3. Epub 2023 Aug 24.

An Animal Model of Functional Tricuspid Regurgitation by Leaflet Tethering Using Image-Guided Chordal Encircling Snares

Daisuke Onohara  1   2 Michael Silverman  1   2 Kirthana Sreerangathama Suresh  1   2 Dongyang Xu  1   2 Qi He  1   2 Chase L King  1   2 Stephanie K Tom  1   2 Kanika Kalra  2 Muralidhar Padala  3
Affiliations

An Animal Model of Functional Tricuspid Regurgitation by Leaflet Tethering Using Image-Guided Chordal Encircling Snares

Daisuke Onohara et al. J Cardiovasc Transl Res. 2024 Apr.

Abstract

Several interventional therapies are in development to treat functional tricuspid regurgitation. Most have failed to achieve adequate efficacy, as animal models of this lesion are lacking. We developed a new image-guided technique in swine, by tethering the tricuspid valve chordae using echo-guided chordal encircling snares. Five swine underwent baseline echocardiographic assessment of tricuspid valve function, followed by echo-guided placement of snares that encircle the chordae inserting into the anterior and posterior tricuspid valve leaflets. Tethering these snares and stabilizing them on the right ventricle caused the regurgitant fraction to increase from 8.48±5.38% to 48.76±12.5%, and the valve tenting area to increase from 60.26±52.19 to 160.9±86.92 mm2. Image-guided chordal encircling snares could reproducibly induce clinically significant levels of functional tricuspid regurgitation and create a valve geometry like that seen in patients, providing a new animal model for use to study novel interventional devices.

Keywords: Right heart failure; Transcatheter tricuspid valve repair; Transcatheter tricuspid valve replacement; Tricuspid regurgitation.

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