Comprehensive Training Model for Procedural Guidance of Transcatheter Mitral Valve Edge-to-Edge Repair: Divide and Conquer Approach.

Transcatheter edge-to-edge repair (TEER) of the mitral valve is a complex procedure requiring continuous image guidance with 2-dimensional and 3-dimensional transesophageal echocardiography. In this context, the role of the echocardiographer is of paramount importance. Training in interventional echocardiography for procedures such as TEER requires comprehending the complicated workflow of the hybrid operating room and advanced imaging skills that go beyond traditional echocardiography training to guide the procedure. Despite TEER being more commonly performed, the training structure for interventional echocardiographers is lagging, with many practitioners not having any formal training in image guidance for this procedure. In this context, novel training strategies must be developed to increase exposure and aid training. In this review, the authors present a step-wise approach to training for image guidance during TEER of the mitral valve. The authors have deconstructed this complex procedure into modular components and have incremental stages of training based on different steps of the procedure. At each step, trainees must demonstrate proficiency before advancing to the next step, thus ensuring a more structured approach to attaining proficiency in this complex procedure.

Overview of the Interatrial Septum: Review of Cardiac Nomenclature for Transseptal Puncture.

Transseptal puncture is an increasingly common procedure undertaken to gain access to the left side of the heart during structural heart disease interventions. Precision guidance during this procedure is paramount to ensure success and patient safety. As such, multimodality imaging, such as echocardiography, fluoroscopy, and fusion imaging, is routinely used to guide safe transseptal puncture. Despite the use of multimodal imaging, there is currently no uniform nomenclature of cardiac anatomy between the various imaging modes and proceduralists, and echocardiographers tend to use imaging modality-specific terminology when communicating among the various imaging modes. This variability in nomenclature among imaging modes stems from differing anatomic descriptions of cardiac anatomy. Given the required level of precision in performing transseptal puncture, a clearer understanding of the basis of cardiac anatomic nomenclature is required by both echocardiographers as well as proceduralists; enhanced understanding can help facilitate communication across specialties and possibly improve communication and safety. In this review, the authors highlight the variation in cardiac anatomy nomenclature among various imaging modes.

A Sequential Approach for Echocardiographic Guidance of Transseptal Puncture: The PITLOC Protocol.

With advancements in technology and progress in interventional procedures, left-sided structural heart disease (SHD) interventions have become part of everyday clinical practice. One of the most important steps for a successful left-sided structural heart intervention is the transseptal puncture (TSP). Appropriate transesophageal echocardiographic (TEE) guidance of TSP requires extensive supervised hands-on experience prior to attaining proficiency. Whereas some TEE skills are acquired during cardiac anesthesia fellowships, continuous procedural guidance during SHD interventions requires substantial hands-on experience. Several studies have emphasized the value of advanced training in imaging for SHD interventions; however, the pathways and advanced training to ensure proficiency in interventional echocardiography have not yet been clearly established. In an effort to achieve a uniform and consistent approach to TSP imaging that is homogeneous and complementary to the component steps of the TSP procedure from an interventional point-of-view, the authors have developed a protocol for providing image guidance for TSP - the PITLOC protocol (Practice, Identification of septal puncture needle, Tracking of needle tip, Localization of needle tip in fossa ovalis, Optimizing septal indentation, and, finally, Crossing the interatrial septum under direct vision). This protocol aims to standarize image guidance for TSP while complementing the the steps of the procedure as performed and described by interventionalists.

Anesthesia Considerations in Neurological Emergencies.

Airway obstruction and respiratory failure are common complications of neurological emergencies. Anesthesia is often employed for airway management, surgical and endovascular interventions or in the intensive care units in patients with altered mental status or those requiring burst suppression. This article provides a summary of the unique airway management and anesthesia considerations and controversies for neurologic emergencies in general, as well as for specific commonly encountered conditions: elevated intracranial pressure, neuromuscular respiratory failure, acute ischemic stroke, and acute cervical spinal cord injury.

Bivalirudin utilization in cardiac surgery: shifting anticoagulation from indirect to direct thrombin inhibition.

PURPOSE: Bivalirudin use for anticoagulating patients undergoing cardiac surgery, particularly those with or at risk for heparin-induced thrombocytopenia, has expanded over the past several years. The purpose of this review is to provide a summary of the following: the differences between indirect and direct thrombin inhibition, unfractionated heparin's limitations (i.e., heparin-induced thrombocytopenia), bivalirudin's pharmacology, recent cardiac surgery trials comparing bivalirudin and unfractionated heparin as anticoagulants, the growing role of bivalirudin-mediated anticoagulation for various surgical procedures, and the potential of bivalirudin-mediated vascular graft patency. SOURCE: A systematic search of the English literature was performed using PubMed from the United States National Library of Medicine. Pertinent articles from 1992-2010 were obtained from this search, and their reference lists were used to retrieve additional relevant articles. PRINCIPAL FINDINGS: In small studies in the cardiac surgery arena, bivalirudin has demonstrated a similar safety and efficacy profile compared with unfractionated heparin. Bivalirudin's role as an anticoagulant in various cardiac surgical procedures (i.e., heart transplant) and vascular surgical procedures is growing and reviewed. Additionally, the molecular basis for the potential for bivalirudin-mediated improvement in vascular graft patency after coronary artery bypass graft procedures is discussed. CONCLUSION: Although bivalirudin is not approved for cardiac surgery in the United States, it can be used in this setting in Canada as an anticoagulant in patients with heparin-induced thrombocytopenia provided the cardiac anesthesiologist is knowledgeable about potential complications from its use and knows how to manage or mitigate their incidence appropriately. During cardiopulmonary bypass, bivalirudin anticoagulation protocols must be thoroughly followed to attain optimal clinical outcomes. Additionally, further studies with bivalirudin are needed to determine the best monitoring modality and dosing regimen.