Introduction Propensity score analysis of midterm outcomes after isolated aortic valve replacement through right anterior mini-thoracotomy and partial upper sternotomy could provide information about the most beneficial minimally invasive technique for the patient based on the preoperative risk factors. Methods Between March 2015 and February 2021, 694 minimally invasive isolated aortic valve surgeries were performed at our institution. Among these, 441 right anterior mini-thoracotomies and 253 partial upper sternotomies were performed. A propensity score analysis was performed in 202 matched pairs. Results Cardiopulmonary bypass time and cross-clamp time were significantly shorter in the right anterior mini-thoracotomy group than in the partial upper sternotomy group ( p = 0.001 and p < 0.001, respectively). Time to first mobilization and hospital stay were significantly shorter in the right anterior mini-thoracotomy group than in the partial upper sternotomy group ( p = 0.005, p = 0.001, respectively). A significantly lower incidence of revision surgery was noted in the right anterior mini-thoracotomy group than in the partial upper sternotomy group ( p = 0.046). No significant differences in 30-day mortality ( p = 1.000) and 1-year mortality ( p = 0.543) were noted. Kaplan-Meier survival estimates were 96.3% in the right anterior mini-thoracotomy group and 92.7% in the partial upper sternotomy group after 4 years (log rank 0.169), respectively. Conclusions Despite the technical challenges, right anterior mini-thoracotomy can be chosen as first-line strategy for isolated aortic valve replacement. For patients unsuitable for this technique, the partial upper sternotomy remains a safe method that can be performed by a wide range of surgeons. Supplementary Information The online version contains supplementary material available at 10.1007/s12325-022-02263-6.
Introduction: Aortic valve replacement (AVR) via right anterior mini-thoracotomy (RAMT) is less traumatic than via other surgical routes; using a novel aortic valve may confer long-term resistance against valve deterioration, and thus be useful in younger, more active patients. Here we aim to validate using the INSPIRIS RESILIA valve with minimally invasive RAMT. Methods: Between April 2017 and June 2019, 100 patients underwent video-assisted minimally invasive AVR by RAMT, using the INSPIRIS RESILIA aortic valve. Cannulation for cardiopulmonary bypass (CPB) was through femoral vessels. Clinical data were prospectively entered into our institutional database. Results: Cardiopulmonary bypass (CPB) and cross-clamping times were 79 ± 38 and 41 ± 17 min. Surgical access was successful in 100% of cases. There were no cases of intraoperative mortality, 30-day mortality, cerebrovascular events, rethoracotomy for bleeding, valve-related reoperation, right internal mammary artery injury, or conversion to sternotomy. Intensive care and hospital stays were 2 ± 1 and 6 ± 3 days, respectively. One patient had a pacemaker fitted. Postoperative dialysis was necessary in one patient. Trace to mild aortic valve regurgitation occurred in two patients. No structural valve deterioration (SVD) and paravalvular leak were seen. At 1-year follow-up mean effective orifice area (EOA) was 1.8 ± 0.1 cm 2 , peak gradient was 22.1 ± 3.1 mmHg, and mean gradient was 11.5 ± 2.3 mmHg. Conclusion:Our preliminary experience suggests that RAMT for AVR using the INSPIRIS RESILIA aortic valve is safe, effective, and reproducible. Larger studies are needed to evaluate the long-term efficacy and durability of this new valve.
Objective Right anterior minithoracotomy is a promising technique for aortic valve replacement and has shown excellent results in terms of mortality and morbidity. Against this background, we analyzed our institutional experience in this technique during the last 3 years. Methods Between April 2017 and March 2019, 513 consecutive all comers with aortic valve disease underwent video-assisted minimally invasive aortic valve replacement through a 3-cm skin incision as right anterior minithoracotomy at our institution. A camera and automatic fastener technology were used for the valve implantation in all patients. Clinical data were prospectively entered into our institutional database. Results Cardiopulmonary bypass time accounted for 68 ± 24 min and the myocardial ischemic time 38 ± 12 minutes. Thirty-day mortality and overall mortality was 0.4% (2 patients) and 1.4% (7 patients), respectively. Postoperative cerebrovascular events were noted in 8 patients (1.5%). Intensive care stay and hospital stay were 2 ± 2 and 9 ± 7 days, respectively. Pacemaker implantation, injury of the right internal mammary artery, and conversion to full sternotomy were noted in 7 patients (1.4%), 3 patients (0.6%), and 1 patient (0.2%), respectively. Paravalvular leak need to intervention was noted in 2 patients (0.4%). Rethoracotomy rate was 2% (11 patients). Transient postoperative dialysis was necessary for 14 patients (3%). Conclusions Video-assisted minimally invasive aortic valve replacement through the right anterior minithoracotomy is a safe approach and yields excellent outcomes in high-volume centers. The use of a camera and automatic fastener technology facilitates this procedure.
OBJECTIVES Both surgical and percutaneous femoral accesses for the establishment of extracorporeal circulation are used in minimally invasive cardiac surgeries. The goal of this study was to compare the outcomes with the MANTA vascular closure device after percutaneous arterial decannulation via the surgical approach. METHODS Between November 2018 and January 2021, a total of 490 consecutive patients underwent minimally invasive cardiac operations at our institution. Cannulation and decannulation of femoral vessels were under direct vision surgically or percutaneously. The MANTA system was used to close the femoral artery in all patients with percutaneous cannulation. Demographic, clinical and procedural data were collected retrospectively. RESULTS Surgical cut-down and suture closure of the femoral artery was performed in 222 patients (45.3%); percutaneous access and closure with the MANTA system was used in 268 patients (54.7%). The surgical group presented a significantly higher incidence of any access site complication compared to the percutaneous group [18 patients (8.1%) vs 6 patients (2.2%); P = 0.003]. Lymph fistula and wound healing disorders occurred more frequently in the surgical group (3.2% vs 0% [P = 0.004] and 3.6% vs 0% [P = 0.002], respectively). Median procedural duration and stays in the intensive care unit were significantly lower in the percutaneous group {127 [interquartile range (IQR) 97–158] min vs 150 (IQR 117–185) min (P < 0.001) and 1 (IQR 1–2) day vs 2 (IQR 1–3) days (P = 0.008), respectively}. CONCLUSIONS Percutaneous access and closure with the MANTA system are feasible, safe and associated with lower incidences of all-cause access site complications and shorter stays in the intensive care unit compared to surgical access and closure in minimally invasive cardiac surgeries.
Background To more minimize the minimally invasive valve surgeries, percutaneous vascular access and closure has been used for the establishment of extracorporeal circulation. This study investigates early clinical outcomes of patients who received MANTA for femoral artery closure as first experiences in minimally invasive valve surgery. Methods Between January 2019 and July 2019, 103 consecutive patients (mean age: 58 ± 11 years) underwent video-assisted minimally invasive valve surgery through right anterior minithoracotomy at two cardiac surgery referral centers in Germany. Percutaneous cannulation for cardiopulmonary bypass and femoral artery closure with MANTA were performed in all patients: 18-F and 14-F MANTA were used in 88 (85.4%) and 15 (14.6%) patient, respectively. Mitral, aortic, tricuspid, and double valve surgeries were performed in 51 (49.5%), 39 (37.9%), 7 (6.8%), and 6 (5.8%), patients, respectively. Clinical data were prospectively entered into our institutional database. Results Cardiopulmonary bypass time and cross-clamping time were 69 ± 23 and 38 ± 14 minutes, respectively. Except for two patients with late pseudoaneurysm on 15th and 23th postoperative day, neither major nor minor vascular complications nor vascular closure device failure according to the Valve Academic Research Consortium-2 definition criteria was observed. Additionally, no wound healing disorders or conversion to surgical closure was observed. Conclusions MANTA as percutaneous femoral artery closure after decannulation of cardiopulmonary bypass is a safe, feasible, and effective approach and yields excellent early outcomes. Larger size studies are needed to evaluate more the efficacy and safety of MANTA.
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