Prophylactic Left Atrial Appendage Exclusion in Cardiac Surgery Patients With Elevated CHA2DS2-VASc Score: Results of the Randomized ATLAS Trial.

OBJECTIVE: Patients with elevated CHA2DS2-VASc scores are at high risk for atrial fibrillation (AF) and thromboembolic events (TE) after cardiac surgery. Left atrial appendage exclusion (LAAE) is a permanent, continuous approach to stroke prevention in AF, overcoming limitations of oral anticoagulation (OAC). We report ATLAS trial results focused on LAAE technical success and perioperative safety and TE rates with and without LAAE in cardiac surgery patients who developed postoperative AF (POAF). METHODS: ATLAS (NCT02701062) was a prospective, multicenter, feasibility trial. Patients age ≥18 years, undergoing structural heart procedure, with no preoperative AF, CHA2DS2-VASc ≥2, and HAS-BLED ≥2 were randomized 2:1 to LAAE or no LAAE. Patients who developed POAF and/or received LAAE were followed for 1 year. LAAE was evaluated with intraoperative transesophageal echocardiography. RESULTS: A total of 562 patients were randomized to LAAE (n = 376) or no LAAE (n = 186). Mean CHA2DS2-VASc (3.4 vs 3.4) and HAS-BLED (2.8 vs 2.9) scores were similar for LAAE and no LAAE groups. LAAE success (no flow nor residual stump >10 mm) was 99%. One LAAE-related serious adverse event (0.27%) occurred and was resolved without sequelae. There were 44.3% of patients who developed POAF. Through 1 year, 3.4% of LAAE patients and 5.6% of no LAAE patients had TE. OAC was used by 32.5% of POAF patients. Bleeding was higher with OAC than without (16.1% vs 5.4%, P = 0.008). CONCLUSIONS: ATLAS demonstrated a high rate of successful LAAE with low LAAE-related serious adverse events in cardiac surgery patients. Study results should be considered in future trial design to further evaluate prophylactic LAAE for stroke prevention in cardiac surgery patients with elevated stroke risk.

First Dedicated Minimally Invasive Right Atrial Retractor.

INTRODUCTION: The importance of correcting tricuspid valve insufficiency in patients with left-sided valve disease is clear. In the United States, up to 30% of mitral valve operations are minimally invasive, while the data for isolated tricuspid valve is not known. A minimally invasive approach to the tricuspid valve provides faster recovery with lower transfusion rates and lower length of stay. MATERIALS AND METHODS: There are no dedicated right atrial (RA) retractors for minimally invasive tricuspid valve (TV) operations. TV exposure is different from mitral given the proximity of the tricuspid anterior annulus to the cut edge of the atrium. An RA retractor should be shallow while preventing slippage of the RA roof and should be quick to deploy and remove. We created a dedicated minimally invasive RA retractor to expose the TV and RA structures (fossa ovalis and coronary sinus). The retractor is a fenestrated shallow and wide retractor with bilateral articulating "wings" to expose left and right of the atrium. This retractor is compatible with the left atrial system by USB Medical Limited (Hatboro, Pennsylvania) and has tilting capability. A three-dimensional (3D)-printed prototype was modified after evaluation by two experienced minimally invasive surgeons (MCS and RKV). Once modifications were finalized, the retractor was then deployed in surgery. RESULTS: The RA retractor was used in isolated TV repairs, RA myxoma resection, RA clot removal, removal of RA migrated stents, select mitral valve operations, and closure of atrial septal defects. The retractor proved effective, safe, and fast to deploy and remove and allowed for full visualization of the tricuspid valve, interatrial septum, ostia of both vena cavas, and coronary sinus. The retractor was useful in mitral valve operations with existing aortic valve prosthesis and in the small left atria. CONCLUSION: The minimally invasive RA retractor affords excellent, stable exposure of the right atrial structures with fast deployment and removal.

Minimally Invasive Mitral Valve Surgery After Transcatheter Edge-to-Edge Repair.

OBJECTIVE: Up to 28% of patients may need mitral valve (MV) surgery after transcatheter edge-to-edge repair (TEER). This study evaluates the outcomes of minimally invasive MV surgery after TEER. Methods: International multicenter registry of minimally invasive MV surgery after TEER between 2013 and 2020. Subgroups were stratified by the number of devices implanted (≤1 vs >1), as well as time interval from TEER to surgery (≤1 year vs >1 year). Results: A total of 56 patients across 13 centers were included with a mean age of 73 ± 11 years, and 50% were female. The median Society of Thoracic Surgeons Predicted Risk of Mortality (STS PROM) score for MV replacement was 8% (Q1-Q3 = 5% to 11%) and the ratio of observed to expected mortality was 0.9. The etiology of mitral regurgitation (MR) prior to TEER was primary MR in 75% of patients and secondary MR in 25%. There were 30 patients (54%) who had >1 device implanted. The median time between TEER and surgery was 252 days (33 to 636 days). Hemodynamics, including MR severity, MV area, and mean gradient, significantly improved after minimally invasive surgery and sustained to 1-year follow-up. In-hospital and 30-day mortality was 7.1%, and 1-year actuarial survival was 85.6% ± 6%. Conclusions: Minimally invasive MV surgery after TEER may be achieved as predicted by the STS PROM. Most patients underwent MV replacement instead of repair. As TEER is applied more widely, patients should be informed about the potential need for surgical intervention over time after TEER. These discussions will allow better informed consent and post-procedure planning.

Abnormal ventricular contractile pattern associated with late systolic mitral prolapse: a two-dimensional speckle tracking study.

We sought to study the mechanics of ventricular contraction in patients with and outward basal movement. Using echocardiographic parasternal long-axis views we retrospectively screened 760 echocardiograms to enroll 50 individuals with late systolic bileaflet prolapse, papillary muscle traction, and outward movement of the sub-annular base and posterior mitral annulus in late systole. Two-dimensional speckle tracking echocardiography was used to analyze the mechanics of contraction. Global and regional longitudinal strain values between the study group and 45 healthy control subjects were compared. The study group's global strain was lower compared to the control group. We identified a pattern of weak contraction of the inferior and lateral walls in the late systolic bileaflet prolapse group. The weakest segment in the study group was the basal-inferolateral segment (- 15.8% vs. - 21.5%, p < 0.001). There was no relationship between the mitral annular size, degree of leaflet prolapse, or degree of basal weakness. Late systolic bileaflet mitral prolapse and papillary muscle traction are accompanied by an outward movement of the sub-annular base and posterior mitral annulus in late systole. We demonstrated an abnormal contractile pattern in these ventricles characterized by a weaker contraction of the base, most significant at the inferolateral segment. This weakness of contraction may contribute to the outward movement of the base and posterior annulus.

Fifty Percent Reduction in Narcotic Use After Minimally Invasive Cardiac Surgery Using Liposomal Bupivacaine.

OBJECTIVE: Minimally invasive cardiac surgery via a right minithoracotomy (RMT) is a common approach to different valve pathologies, tumor resection, and atrial septal defect (ASD) closure. We studied intraoperative field block using liposomal bupivacaine (LB) in these operations. METHODS: Consecutive 171 minimally invasive RMTs (fourth intercostal space) were studied, and patients in cardiogenic or septic shock, intravenous drug abuse, and those re-explored were excluded (n = 12). An early cohort was treated with standard postoperative analgesia while another underwent intraoperative field block with LB immediately after incision. We compared postoperative pain level, narcotic utilization (morphine milligram equivalent), and intensive care unit (ICU) and hospital length of stay. RESULTS: The procedures included 48 isolated mitral valve replacements (MVR); 2 MVR with other procedures; 93 mitral valve repairs (MVRr); 9 MVRr with other procedures; 4 isolated tricuspid valve repairs; 2 myxoma resections; 1 ASD closure. There were 13 patients in the non-LB group and 146 patients in the LB group. Use of LB decreased mean postoperative narcotic utilization by 50% (P = 0.003). The LB group had lower pain levels on postoperative day 1 (P = 0.039), which continued through postoperative day 5 (P = 0.030). We found no difference in ICU or hospital length of stay between groups. There were no complications from LB field block. CONCLUSIONS: LB field block decreases postoperative pain and narcotic utilization after cardiac surgery via a RMT, but it does not reduce length of stay. The technique is safe and should be considered in all patients undergoing RMT cardiac surgery.

Imaging in Minimally Invasive Mitral Valve Repair.

Minimally invasive mitral valve (MV) repair and replacement techniques have evolved as increasingly used alternatives to open heart surgery especially in patients unsuitable for surgery or at high perioperative risk. The vast majority of these techniques are still under development, and only a limited number of devices are approved for clinical use; however, they do show promising results in terms of minimizing complications and improving clinical outcome. The complex anatomy of the MV and the annulus complicates not only the development of devices for minimally invasive MV repair or replacement but also complicates preprocedural planning, which is mandatory for minimization of postprocedural complications. Although echocardiography still plays a crucial clinical role, cross-sectional imaging modalities such as coronary computed tomography (CCT) and cardiac magnetic resonance imaging (CMR) are increasingly gaining importance for preprocedural planning. Specifically, CCT seems to be more practicable for preinterventional planning and device sizing, whereas CMR has been shown useful in detecting increased risk for adverse clinical outcomes through delayed gadolinium enhancement and the monitoring of cardiac morphology and function in the framework of follow-up examinations. This article describes recent techniques currently available or under development for minimally invasive repair or replacement of the MV and reviews the current state of CCT and CMR imaging for preinterventional and postinterventional diagnostic workup.

Outcomes of repeat mitral valve surgery in patients with pulmonary hypertension.

OBJECTIVE: We sought to study the outcomes of redo-mitral valve surgery in patients with pulmonary hypertension. METHODS: We reviewed data on redo mitral valve surgery in patients with pulmonary hypertension measured by Swan-Ganz catheter (mean pulmonary artery pressure ≥ 25 mm Hg or systolic pulmonary artery pressure ≥ 40 mm Hg). RESULTS: Between 1996 and 2010, 637 patients underwent 658 redo mitral valve operations; 138 of them had pulmonary hypertension. The mean patient age was 61.3 (13.9) years, with mean left ventricular ejection fraction of 47.6% (13.2%). The mean systolic pulmonary artery pressure was 61.5 (16.8) mm Hg, and mean pulmonary artery pressure was 40.8 (11.6) mm Hg. Patients had one (71%, 98/138), two (23.9%, 33/138), and three (5.1%, 7/138) previous mitral valve operations. Thirty-day mortality was 10.1% (14/138). Multivariate predictors of 30-day mortality were chronic renal failure [odds ratio (OR), 8.041; P = 0.022], peripheral vascular disease (OR, 5.976; P = 0.025), previous mitral valve replacement (OR, 9.034; P = 0.014), and increasing age (OR, 1.077; P = 0.013). The severity of pulmonary hypertension did not impact 30-day (P = 0.314) or late mortality (P = 0.860). Kaplan-Meier survival rates at 1, 3, and 5 years were 76.6% (n = 99), 65.7% (n = 62), and 55.9% (n = 41), respectively. CONCLUSIONS: Patients with pulmonary hypertension that undergo redo mitral valve surgery have a 55.9% 5-year survival rate. Increasing age, chronic renal insufficiency, peripheral vascular disease, and preexisting mitral valve prosthesis are associated with early mortality. The severity of pulmonary hypertension does not affect operative mortality rates, but it may decrease 1-, 3-, and 5-year survival.

Left main disease progression following left branch vessel percutaneous intervention in patients who are referred for coronary artery bypass grafting.

BACKGROUND AND AIM OF THE STUDY: We studied patients presenting for coronary artery bypass grafting (CABG) with significant left main coronary artery disease (LMD) despite previously documented minimal or no LMD at percutaneous coronary intervention (PCI) for left-sided branch coronary artery disease. METHODS: Patients undergoing CABG for LMD with previous PCI were separated into fast or slow stenosis progression using percent change in LMD from first PCI to CABG divided by time (progression velocity). Outcomes and Kaplan-Meier survival were compared between the two groups. RESULTS: Between September 1997 and June 2010, 4837 patients underwent CABG with 1235 of them having previous PCI of which 118 had LMD and previous left-sided branch PCI. Using median progression velocity fast and slow progression groups were identified (0.53 ± 0.18 and 4.5 ± 4.8%/month, p < 0.001). Mean follow-up was 4.9 ± 3.6 years and 6.9 ± 3.9 years, respectively. Fast progression patients were younger (p = 0.042), with higher baseline LMD at PCI (16.4% vs. 9% stenosis, p = 0.025), and a mean of 2.5 years to LMD compared to 10.6 years for the slow group (p < 0.001). There was no difference between the groups in number or type of PCI and number or type of vessel intervened. Kaplan-Meier survival was similar at one, three, and five years. CONCLUSIONS: Fast LMD progression patients were younger and made up 4.7% (59/1235) of patients undergoing CABG with a history of PCI. Rapid progression was not related to number, type of PCI, or branch vessel intervened.

Advances in transcatheter valve therapies.

The surgical treatment for valvular heart disease is well established with excellent long-term outcomes in appropriately selected patients. For patients at elevated risk for surgical intervention, options have traditionally been limited to medical therapy with disappointing results. The advent of transcatheter techniques of valvular repair or replacement has revolutionized treatment options for these patients at significantly elevated risk for surgery. In both the aortic and mitral realms, landmark clinical trials and real-world registries have begun to define the roles of these therapies, and the development of multidisciplinary heart teams have helped optimize patient treatment pathways and outcomes. Transcatheter treatment of aortic stenosis and mitral regurgitation has emerged as an approved option for properly selected patients, and guidelines have evolved to include these therapies. Further procedural refinement, device development, and clinical trials will continue to evolve this field.