Commentary: Novel and innovative operative techniques continue to evolve.

Abstract

Central MessageMinimally invasive robotic-assisted MV surgery in a hybrid room provides the opportunity to replace the mitral and aortic valve using a technique with the potential to lower risks and complications.See Article page 36. Minimally invasive robotic-assisted MV surgery in a hybrid room provides the opportunity to replace the mitral and aortic valve using a technique with the potential to lower risks and complications. See Article page 36. Novel technology and new techniques are always of interest to cardiac surgeons. Double valve (aortic and mitral valves replacement) remains a complex cardiac operation with significant risks of mortality and morbidity. To date, a reliable minimal access approach has not been developed. However, balloon-expandable valve prosthesis, hybrid catheterization laboratory/operating room suites, and a less-invasive robotic-assisted valve approach provide the opportunity for new approaches to reduce risks of mortality and morbidity and to shorten the recovery period after multiple valve–replacement procedures. In this issue of JTCVS Techniques, Felmly and colleagues1Felmly L.M. Johnson S.D. Steinberg D. Katz M.R. Hybrid double-valve replacement.J Thorac Cardiovasc Surg Tech. 2020; 2: 36-37Scopus (2) Google Scholar publish their Techniques article titled “Hybrid Double-Valve Replacement.” The patient had calcific aortic stenosis and mitral stenosis with severe mitral annular calcifications (MACs). The patient needed a double valve (aortic and mitral), but the severe MAC presented significant increased technical complexity and mortality/morbidity. In the case report, this 84-year-old woman was operated on in a hybrid room. The mitral valve was accessed with a robotic-assisted deployment of a balloon-expandable valve in the mitral position during cardioplegic arrest. The valve size was measured by computed tomography scan preoperatively. The A-2 segment of the anterior leaflet was excised to prevent left ventricular anterior flow obstruction. Felt strips were used to augment the annular landing zone to minimize perivalvular leak. A 26-mm SAPIEN S3 valve was balloon expanded. With the patient remaining on cardiopulmonary bypass but with the heart beating, a 26-mm CoreValve Evolut R was delivered via the femoral artery to perform the aortic valve replacement. The clinical and postoperative recovery was uneventful. This report should stimulate our creative desire to devise new but safe and effective operative procedures with rapidly evolving percutaneous valve technology and delivery systems. The robotic platform for mitral valve surgery provides excellent visualization of the mitral valve, enabling the MAC annulus to be prepared with felt reinforcement and anterior leaflet resection. Three major issues are as follows: (1) perivalvular leak, (2) left ventricular outflow tract treat obstruction, and (3) secure fixation are solved. Then, taking advantage of the imaging in the hybrid room, aortic valve replacement can be safely performed with the patient on cardiopulmonary bypass. The advantage of a single setting to perform the entire procedure is great. The heart valve team should identify potential patients. The presence of a hybrid room is essential. The surgical technical capability of transcatheter aortic valve replacement and robotic port access mitral surgery are all essential ingredients to optimize the success of this approach. These patients should be followed closely to ensure we are actually improving surgical care and optimizing outcomes. Hybrid double-valve replacementJTCVS TechniquesVol. 2PreviewThe presence of mitral annular calcification (MAC) has been reported to increase risk of perioperative morbidity and mortality in mitral valve replacement (MVR).1 With the advent of transcatheter MVR, many patients with MAC have been treated successfully with transcatheter valve deployment.2 Access options include trans-septal, transapical, and transatrial. The “Achilles heel” of trans-septal and transapical access is left ventricular outflow tract obstruction (LVOTO), as valve deployment may displace the anterior mitral leaflet into the ventricular outflow tract, causing hemodynamic compromise. Full-Text PDF Open Access