The hybrid approach has become the most effective treatment option for restoring sinus rhythm and reducing the risk of atrial fibrillation (AF) recurrence. However, several issues remain to be clearly defined, including the appropriate timing of the staged procedure and the most effective strategy.Over a 12-year period of activity, we performed 609 AF ablation procedures via a right mini-thoracotomy. From this general population, 60 patients underwent a hybrid procedure with catheter ablation performed at least 4 weeks after the surgical procedure to confirm if effective complete electrical isolation of pulmonary veins was achieved. In 20 patients, the second stage procedure was performed during the same hospitalization due to patient's electrical instability. The results obtained in immediate versus staged patients were compared.All patients were discharged after the first stage procedure in sinus rhythm. The 20 immediate patients had a shorter hospital stay compared with the staged patients, in whom the two hospitalizations resulted in a longer hospital stay (immediate 5.5 ± 1.6 days versus staged 8.7 ± 1.4, P < 0.001). A significantly higher number of immediate patients had an associated ablation of the Bachmann's bundle (n = 16 in the immediate group [80%] versus n = 14 in the staged group [45%]; P = 0.001). After a mean follow-up of 74 months, there was no significant difference in the risk of AF relapse between groups (immediate 1/20 [5%] versus staged 7/40 [17.5%]; P = 0.18).The hybrid approach for the treatment of AF was safe and effective in immediate restoring sinus rhythm and in its maintenance at follow-up. Our preliminary results show that both immediate and staged procedures show similar efficacy but this result is strongly influenced by the concomitant ablation of the Bachmann's bundle, which appears to be the most important component of the treatment strategy in order to reduce the risk of recurrent AF.
We sought to determine if a modified technique for ascending aorta replacement with sinotubular junction reduction and stabilization was safe.This technique was performed by suspension of the three commissures, invagination of the aortic Dacron graft and advancing the graft into the ventricles. We included patients with dilatation of the ascending aorta, normal sinuses of Valsalva dimension (<45 mm), with or without aortic annulus enlargement (>25 mm) and with various degree of aortic insufficiency (from grade 1 to 3).From April to October 2019, 20 patients were recruited from two centers; mean age was 66.9 ± 12.8 years, 13 were male; grade 1, 2 and 3 was present in 12, 2 and 6 patients, respectively. All patients underwent ascending aorta replacement with modified technique; an additional open subvalvular ring was used in 8 patients with aortic insufficiency ≥ 2; cusps repair was performed in 6 patients (5 plicating central stitches/1 shaving); concomitant coronary artery bypass grafting was performed in 10 patients. There was no 30-day mortality. One patient was re-explored for bleeding. All patients completed six-month follow-up; at the transthoracic echocardiography, there was no aortic insufficiency ≥ 1 except one patient with aortic insufficiency grade 1 who underwent ascending aorta replacement and subvalvular ring; no patients underwent reintervention.This modified technique for ascending aorta replacement and sinotubular junction stabilization was safe. It could be associated with other aortic valve sparing techniques. However, such remodeling approach has to be validated in a larger cohort of patients with longer follow-up.
Surgical treatment of atrial fibrillation generally consists in the isolation of the pulmonary veins (“box-lesion”). Bachmann's bundle is a cardiac structure that may play an important role in the genesis of the atrial fibrillation. Surgical isolation of such bundle has not been reported before. We aim to describe how to perform minimally invasive epicardial pulmonary vein isolation along with the isolation of the Bachmann's bundle. Adding the surgical ablation line of Bachmann's bundle is a feasible, fast, and easy procedure that may be contribute to the reduction of atrial fibrillation relapses.
Background: Measuring the chordae tendineae for mitral valve reconstruction is feasible with various techniques. However, the effect of different strategies on the durability of plastics at follow-up is unknown. The study aims to compare a conventional surgical technique for measuring artificial chordae length with our new approach, defined "track technique". Methods: We compared the results of patients with anterior leaflet prolapse/flail who underwent mitral valve reconstruction by implanting artificial chordae from January 2020 to January 2022; 22 patients were operated on with a conventional technique, and 25 with our new alternative, "track technique". Clinical and transesophageal echocardiography data were collected postoperatively and at 2 years of follow-up. The primary outcome was freedom from mitral regurgitation. Secondary outcomes were presentation with New York Heart Association (NYHA) class <2 and leaflet coaptation length ≥10 mm. Results: The patients of the 2 groups had comparable preoperative risk factors regarding the LogEuroSCORE (p = 0.33). Moreover, no difference was observed in terms of the mechanism of mitral valve insufficiency. No hospital or follow-up deaths were recorded for either group. At discharge, no echocardiographic differences were observed in the regarding degree of residual mitral regurgitation, but the measurement of coaptation length was in favor of the alternative group (8.6 ± 1.8 vs. 11 ± 1.4; p = 0.04). At 2 years of follow-up (25 ± 9; range 13–37), the NYHA class was not different; however, the number of patients with 1–2+ recurrent mitral regurgitation was significantly higher in the conventional group (8 vs. 4 patients; p = 0.02), and the coaptation length was in favor of the alternative group (8.8 ± 1.7 vs. 11 ± 1.7; p = 0.04). Conclusions: We devised both techniques to prove effective in achieving good valvular continence, but a significantly greater coaptation length was obtained with our track technique at the 2 years follow-up.
High-fidelity mitral valve simulators can often be cost-prohibitive and their role in surgical minimally invasive mitral training has yet to be validated. Here, we describe an alternative, a low-cost, low-fidelity minimally invasive mitral valve simulator that can be assembled from components that are readily available in the operating room.
Conventional surgical treatment of a ruptured aortic arch aneurysm is a challenging approach with a high rate of adverse outcomes. The midsternotomy can be complicated by total aortic disruption with often fatal massive hemorrhage. A preliminary cardiopulmonary bypass with peripheral cannulation and cooling is often preferred. Endovascular stents have been used in patients with thoraco-abdominal aneurysms, with good results. Its lone utilization for rupture of aortic arch aneurysm is not feasible because of the unavoidable occlusion of cerebral vessels' origins. A previous aorto-bicarotid bypass is mandatory and it requires the midsternotomy. Hence, we developed a combined technique. We performed a hybrid approach in a 74-year-old patient, affected by an aortic arch aneurysm, ruptured in its antero-inferior portion. First we ensured brain perfusion with a temporary surgical extra-anatomic (femoral-bicarotid) bypass. Then an endovascular stent graft was expanded from the distal portion of ascending aorta to the proximal one of the thoracic aorta, thus excluding the ruptured portion of the aortic arch. Then the patient underwent the definitive aorto-carotid bypass. This specific combined technique allows the complete treatment of a ruptured arch aneurysm, lowering the risks connected with sternothomic approach, mainly with previous cardiopulmonary bypass and deep hypothermic circulatory arrest.
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