TAVR remains a complex procedure that may result in serious intraprocedural complications. In many of these circumstances, venoarterial extracorporeal membrane oxygenation (V-A ECMO) helps to manage complications, provides a hemodynamic back-up, and bridges to an emergency open heart surgery. The clinical outcomes of 27 patients who underwent prophylactic implantation of peripheral V-A ECMO (pV-A ECMO) during high-risk transcatheter aortic valve replacement (TAVR) cases are described.

From June 2012 to October 2022, 590 consecutive patients underwent TAVR at our center. Of these, 27 patients (4.5%) underwent TAVR with pV-AECMO because they were deemed very high risk for periprocedural complications and formed the study population.

There were no pV-A ECMO, hemodynamic or TAVR implantation complications. Decannulation of the ECMO system was performed in 92.6% of cases at the end of the procedure in the hybrid-operating theatre. The mean duration of pV-A ECMO for procedure support was 51.4 ± 10.3 min. There were no ECMO-related vascular or bleeding complications.

This study shows that the prophylactic placement of awake peripheral V-A ECMO provides excellent temporary cardio-circulatory and pulmonary support during very high-risk TAVR procedures.

Cardiopulmonary bypass (CPB) is a complex biomechanical engineering undertaking and an essential component of cardiac surgery. However, similar to all complex bioengineering systems, CPB activities are prone to a variety of safety and biomechanical issues. In this narrative review article, the authors discuss the preventative and intraoperative management strategies for a number of intraoperative CPB emergencies, including cannulation complications (dissection, malposition, gas embolism), CPB equipment issues (heater-cooler failure, oxygenator issues, electrical failure, and tubing rupture), CPB circuit thrombosis, medication issues, awareness during CPB, and CPB issues during transcatheter aortic valve replacement.

Aortic stenosis is the most common valve disease in adults. Transcatheter aortic valve implantation (TAVI) is being increasingly applied for intermediate- to low-risk patients. Here, we describe an uncommon complication of delayed right coronary obstruction in a transapical TAVI case.

A 73-year-old woman with a EuroSCORE II of 1.21% underwent transapical TAVI because of severe aortic stenosis. The surgical procedure was uneventful. However, during routine monitoring after valve placement, the patient had a sudden onset of slow heart rate, the systolic blood pressure dropped sharply from 115 to 60 mmHg, and the central venous pressure abruptly increased from 10 to 33 cmH2O. The patient had a poor response to vasoactive agents. Transesophageal echocardiography revealed poor myocardial contractility, and electrocardiography showed a significant depression of ST-segment. Another angiography was performed immediately, which suggested complete obstruction of the right coronary artery. An emergency protocol was initiated. Cardiopulmonary bypass was established immediately. An aortic biological valve replacement under cardiopulmonary bypass was performed.

Perioperative monitoring, early recognition, and diagnosis of obstruction of coronary arteries in TAVI are important. Transesophageal echocardiography is a useful diagnostic and monitoring tool in this situation. Emergency protocols should be established during TAVI.

This study sought to evaluate the outcomes and factors associated with aborted procedures among patients undergoing elective transcatheter aortic valve replacement (TAVR).

Elective TAVR procedures can be aborted because of device limitations or aborted for other reasons, including patient and procedural factors. Little is known about 30-day outcomes and factors associated with aborted procedures and procedures aborted because of device limitations (ADs).

Patients undergoing elective TAVR procedures from 2011 to 2017 in the Society of Thoracic Surgeons/American College of Cardiology TVT (Transcatheter Valve Therapy) Registry were examined. The incidence of aborted procedures, both ADs and procedures aborted for other reasons (AOs), was examined. Rates of 30-day all-cause death or stroke and a composite of vascular complications and bleeding events were compared between patients with and those without aborted procedures and between patients with ADs and those with AOs. Multivariate modeling identified factors associated with aborted procedures and ADs.

Among 106,169 patients who underwent TAVR between 2011 and 2017, procedures were aborted in 1,150 (1.1%) (581 ADs and 569 AOs). Patients with aborted procedures were more likely female with peripheral artery disease and more often treated at lower volume centers compared with those with nonaborted procedures (p < 0.01 for all). The incidence of aborted procedures and ADs decreased over the study period (p < 0.01). The adjusted rates of 30-day death and stroke were greater for aborted versus nonaborted procedures (odds ratio: 5.02; 95% confidence interval: 4.13 to 6.11). Peripheral artery disease, alternative access, and low institutional TAVR volume were factors associated with aborted procedures and ADs (p < 0.05 for all).

The incidence of aborted procedures is declining, but peripheral artery disease and low institutional TAVR volume remain associated with aborted procedures. A thorough pre-procedural assessment and referral of challenging cases to high-volume centers may be strategies to minimize aborted procedures.

This simulation on cardiac tamponade and complete heart block in the context of severe aortic stenosis presents the learner with a rare (cardiac tamponade) and a common (complete heart block) complication in the intraoperative setting of transfemoral aortic valve implantation in a high-fidelity, low-risk simulation environment. Based on an amalgam of index cases, the simulation was developed to address a recognized area of need for cardiothoracic anesthesia scenarios in the simulation curriculum of our home institution.

The simulation case file covered the case narrative, learning objectives, a summary of critical actions performed, and supplemental figures needed to complete the educational activity. A high-fidelity patient simulator, an anesthesia machine, monitors, and a computer capable of displaying standard computer slide presentation software and movie files provided the optimal environment for simulation.

Fifteen anesthesia residents experienced the simulation over the 2016-2017 and 2017-2018 academic years. The trainees who experienced this simulation improved their understanding of tamponade hemodynamic pathophysiology and recognition of hemodynamically unstable bradycardia.

This case has been an effective addition to the repertoire of simulation scenarios at the University of Iowa and has been incorporated into the general curriculum of simulation cases for mid-training junior and senior anesthesia residents.

The emergence of the global pandemic of chronic diseases necessitates critical assessment of interventions that can be targeted at both the individual and population levels. Among cardiovascular diseases, the increasing prevalence of valvular heart diseases such as aortic stenosis parallels the rising burden of atherosclerotic cardiovascular diseases. As an alternative to surgical aortic valve replacement, technological innovation has allowed development of minimally invasive transcatheter aortic valve replacement (TAVR). This review examines whether TAVR can be applicable in low-resource regions across the world. Although revolutionary, TAVR is currently complex and requires a "Heart Team" approach for optimized patient care. We propose the emergence of telemedicine networks, newer valve designs that allow implementation of minimal approaches, and the use of minimal numbers of specialists for adapting TAVR to settings where surgical backup is not available. With efforts to reduce resource utilization, these alternate strategies have the potential to affect implementation of TAVR globally.

The superiority of transcatheter aortic valve replacement (TAVR) compared with medical therapy for patients with aortic stenosis (AS) who are not suitable candidates for surgery had been proven. Cardiopulmonary bypass (CPB) is rarely used in TAVR. Reports of early use of extracorporeal membranous oxygenator (ECMO) have promising outcomes. ECMO offers the option of cardiac support rescue in case of intraoperative hemodynamic instability and can be instituted in advance when hemodynamic instability is expected. Here we review the English literature about the use of ECMO in TAVR procedures, and discuss the indications and rationale for its use as well as its advantages.