BACKGROUND: Percutaneous pulmonary valve replacement has recently been introduced and is under investigation in humans. This technique is, however, limited to patients with a right ventricular outflow tract that does not exceed 22 mm in diameter. We report our experience of off-pump pulmonary valve replacement using a hybrid approach in animals with large right ventricular outflow tracts. METHODS: Eight ewes were included in the protocol and were equally divided into 2 groups. A left thoracotomy was first performed, and the main pulmonary artery was banded by using 2 radiopaque rings with a diameter of 18 mm that allowed for further pulmonary valve replacement. We then intended to implant a valved stent either percutaneously (group 1) or through a transventricular approach (group 2). All animals were killed after valve implantation. The operation allowed the pulmonary diameter to be reduced from 30 to 17.6 mm. RESULTS: The right ventricular pressure did not significantly increase after reduction of the pulmonary artery diameter (25 vs 36 mm Hg). Subsequent pulmonary valve replacement through a percutaneous or a transventricular approach was always possible without any requirement for extracorporeal circulation. All devices were successfully delivered inside the pulmonary artery banding and were functioning perfectly at early evaluation. CONCLUSIONS: Implantation of a pulmonary valve is possible in ewes through a hybrid approach when the right ventricular outflow tract exceeds 22 mm in diameter. This involves both surgeons and interventionists and allows for a staged procedure in which the valvulation is performed percutaneously or, for a combined hybrid approach, in which the valve is implanted off pump transventricularly during the same operation.
BACKGROUND: Percutaneous pulmonary valve replacement has recently been introduced and is under investigation in humans. This technique is, however, limited to patients with a right ventricular outflow tract that does not exceed 22 mm in diameter. We report our experience of off-pump pulmonary valve replacement using a hybrid approach in animals with large right ventricular outflow tracts. METHODS: Eight ewes were included in the protocol and were equally divided into 2 groups. A left thoracotomy was first performed, and the main pulmonary artery was banded by using 2 radiopaque rings with a diameter of 18 mm that allowed for further pulmonary valve replacement. We then intended to implant a valved stent either percutaneously (group 1) or through a transventricular approach (group 2). All animals were killed after valve implantation. The operation allowed the pulmonary diameter to be reduced from 30 to 17.6 mm. RESULTS: The right ventricular pressure did not significantly increase after reduction of the pulmonary artery diameter (25 vs 36 mm Hg). Subsequent pulmonary valve replacement through a percutaneous or a transventricular approach was always possible without any requirement for extracorporeal circulation. All devices were successfully delivered inside the pulmonary artery banding and were functioning perfectly at early evaluation. CONCLUSIONS: Implantation of a pulmonary valve is possible in ewes through a hybrid approach when the right ventricular outflow tract exceeds 22 mm in diameter. This involves both surgeons and interventionists and allows for a staged procedure in which the valvulation is performed percutaneously or, for a combined hybrid approach, in which the valve is implanted off pump transventricularly during the same operation.
Authors: J Daniel Robb; Matthew A Harris; Masahito Minakawa; Evelio Rodriguez; Kevin J Koomalsingh; Takashi Shuto; Yoav Dori; Robert C Gorman; Joseph H Gorman; Matthew J Gillespie Journal: J Heart Valve Dis Date: 2012-03
Authors: Ruth Thalmann; Elena M Merkel; Bassil Akra; Rene Bombien; Rainer G Kozlik-Feldmann; Christoph Schmitz Journal: Comp Med Date: 2019-06-20 Impact factor: 0.982
Authors: J Daniel Robb; Matthew A Harris; Masahito Minakawa; Evelio Rodriguez; Kevin J Koomalsingh; Takashi Shuto; David C Shin; Yoav Dori; Andrew C Glatz; Jonathan J Rome; Robert C Gorman; Joseph H Gorman; Matthew J Gillespie Journal: Circ Cardiovasc Interv Date: 2011-01-04 Impact factor: 6.546
Authors: Norihiko Kamioka; Vasilis C Babaliaros; John C Lisko; Anurag Sahu; Subhadra Shashidharan; Matthew R Carazo; Maan Jokhadar; Fred H Rodriguez; Wendy M Book; Patrick T Gleason; William B Keeling; Wissam Jaber; Peter C Block; Robert J Lederman; Adam B Greenbaum; Dennis W Kim Journal: JACC Cardiovasc Interv Date: 2020-12-14 Impact factor: 11.195