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Critical care cardiology is a steadily and rapidly developing sub-specialization within cardiovascular medicine, since the first emergence of a coronary care unit in the early 1960s. Today, modern cardiac intensive care units (CICU) serve a complex patient population with a high burden of cardiovascular and non-cardiovascular critical illnesses. Tr...
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... As a result, formulating the best possible therapeutic approach continues to rely predominantly on expert opinion and local standard operating procedures. Fostering the full potential of CCC and the maturation of the next generation of decision-makers in this field calls for an updated training concept, that encompasses the extensive knowledge and skills required to care for critically ill cardiac patients while remaining adaptable to the trainee's individual career planning and existing educational programs (4)(5)(6)(7). In the present manuscript, we suggest a standardized training phase in preparation of the first intensive care unit (ICU) rotation, propose a modular CCC core curriculum, and outline how training components could be conceptualized within three subspecialization tracks for aspiring cardiac intensivists. ...
... In conjunction with the knowledge acquired during rotations in cardiac imaging, electrophysiology, and to the catheterization laboratory, the content of Table 1 represents key milestones for the cardiovascular fellow's integration into the cardiac ICU roster as a junior team member. For example, trainees must gain a common understanding of cardiac interventions that enables them to systematically screen for and manage complications on a basic level (5,14). Also, the hemodynamic principles of cardiogenic shock along with treatment concepts and underlying diseases, as well as general handling of mechanical circulatory support (MCS) devices are nowadays core elements of training in cardiovascular medicine (14). ...
Critical care cardiology (CCC) in the modern era is shaped by a multitude of innovative treatment options and an increasingly complex, ageing patient population. Generating high-quality evidence for novel interventions and devices in an intensive care setting is exceptionally challenging. As a result, formulating the best possible therapeutic approach continues to rely predominantly on expert opinion and local standard operating procedures. Fostering the full potential of CCC and the maturation of the next generation of decision-makers in this field calls for an updated training concept, that encompasses the extensive knowledge and skills required to care for critically ill cardiac patients while remaining adaptable to the trainee’s individual career planning and existing educational programs. In the present manuscript, we suggest a standardized training phase in preparation of the first ICU rotation, propose a modular CCC core curriculum, and outline how training components could be conceptualized within three sub-specialization tracks for aspiring cardiac intensivists.
Cardiac intensive care has been a constantly evolving area of research and innovation since the beginning of the 21st century. The story began in 1961 with Desmond Julian's pioneering creation of a coronary intensive care unit to improve the prognosis of patients with myocardial infarction, considered the major cause of death in the world. These units have continued to progress over time, with the introduction of new therapeutic means such as fibrinolysis, invasive hemodynamic monitoring using the Swan-Ganz catheter, and mechanical circulatory assistance, with significant advances in percutaneous interventional coronary and structural procedures. Since acute cardiovascular disease is not limited to the management of acute coronary syndromes and includes other emergencies such as severe arrhythmias, acute heart failure, cardiogenic shock, high-risk pulmonary embolism, severe conduction disorders, and post-implantation monitoring of percutaneous valves, as well as other non-cardiac emergencies, such as septic shock, severe respiratory failure, severe renal failure and the management of cardiac arrest after resuscitation, the conversion of coronary intensive care units into cardiac intensive care units represented an important priority. Today, the cardiac intensive care units (CICU) concept is widely adopted by most healthcare systems, whatever the country's level of development. The main aim of these units remains to improve the overall morbidity and mortality of acute cardiovascular diseases, but also to manage other non-cardiac disorders, such as sepsis and respiratory failure. This diversity of tasks and responsibilities has enabled us to classify these CICUs according to several levels, depending on a variety of parameters, principally the level of care delivered, the staff assigned, the equipment and technologies available, the type of research projects carried out, and the type of connections and networking developed. The European Society of Cardiology (ESC) and the American College of Cardiology (ACC) have detailed this organization in guidelines published initially in 2005 and updated in 2018, with the aim of harmonizing the structure, organization, and care offered by the various CICUs. In this state-of-the-art report, we review the history of the CICUs from the creation of the very first unit in 1968 to the discussion of their current perspectives, with the main objective of knowing what the CICUs will have become by 2023.
The modern cardiothoracic intensive care unit (CTICU) developed as a result of advances in critical care, cardiology, and cardiac surgery. Patients undergoing cardiac surgery today are sicker, frailer, and have more complex cardiac and noncardiac morbidities. CTICU providers need to understand postoperative implications of different surgical procedures, complications that can occur in CTICU patients, resuscitation protocols for cardiac arrest, and diagnostic and therapeutic interventions such as transesophageal echocardiography and mechanical circulatory support. Optimum CTICU care requires a multidisciplinary team with collaboration between cardiac surgeons and critical care physicians with training and experience in the care of CTICU patients.
Although Acute Limb Ischemia (ALI) is a relatively common complication in patients supported with peripheral veno-arterial extracorporeal membrane oxygenation (vaECMO), it continues to pose a significant challenge, which can lead to major amputations and increased mortality rates. In this chapter, the pathophysiologic mechanisms and the risk factors for peripheral vaECMO-associated ALI are discussed, whereas clinical assessment and diagnostic strategies are presented. Furthermore, an extensive review of the currently suggested preventive measures and their efficacy is provided. Finally, the currently available operative and endovascular revascularization techniques of a viable, acutely ischemic limb are highlighted.
Worldwide, ECMO therapy has become an essential device for patients suffering from cardiac arrest or respiratory failure. Patients under ECMO therapy need special care and trained staff. Specialized centers offer training programs for nurses on ECMO therapy. Still, specialization, additional designation or board certification for physicians do not exist yet. As ECMO health care staff consists of workers from different disciplines, there is no structured educational curriculum. This chapter addresses the vision of a potential new medical discipline, ECMOlogy.
Medical simulation is a broad topic but at its core is defined as any effort to realistically reproduce a clinical procedure, team, or situation. Its goal is to allow risk-free practice-until-perfect, and in doing so, augment performance, efficiency, and safety. In medicine, even complex clinical situations can be dissected into reproducible parts that may be repeated and mastered, and these iterative improvements can add up to major gains. With our modern cardiac intensive care units treating a growing number of medically complex patients, the need for well-trained personnel, streamlined care pathways, and quality teamwork is imperative for improved patient outcomes. Simulation is therefore a potentially life-saving tool relevant to anyone working in cardiac intensive care. Accordingly, we believe that simulation is a priority for cardiac intensive care, not just a luxury. We offer the following primer on simulation in the cardiac intensive care environment.
