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Further improvement in health-related quality of life as well as functional capacity can be achieved safely in patients with advanced HF through patient participation in ExCR. Device therapy and MCS can reduce HF hospitalizations and improve survival. In fact, early survival with MCS approaches that of heart transplantation. Despite their being transplant ineligible, there are a variety of treatment options available to patients to improve their quality of life, decrease hospitalizations, and potentially improve mortality. Cardiogenic shock (CS) accounts for 15% of all admissions to cardiac intensive care units, with acute myocardial infarction cardiogenic shock (AMICS) accounting for 30% of these. In contrast to other areas in cardiac care in which survival has continued to improve over the last two decades, CS still carries a mortality of around 40%. Temporary mechanical circulatory support (tMCS) therapies have shown inconsistent results in improving outcomes in CS, with the overall evidence not supporting its use, at least in unselected patients. Some of the main stumbling blocks leading to disappointing results of tMCS in CS are challenging patient identification and selection; delayed timing; lack of a systematic approach; inappropriate use of adjunct therapies and tools; lack of escalation/de-escalation and long-term planning; and disparities in regional/centre access to MCS. Among the most promising solutions to this challenge is the cardiogenic shock team (CST), which takes a standardized multidisciplinary approach to the acute management of CS. This paradigm brings expertise from advanced heart failure, interventional cardiology, cardiac surgery, cardiac intensive care, nursing, and others to address all of the aforementioned issues effectively. Unsurprisingly, hurdles to implementation exist, such as establishing effective team dynamics, maintenance of competence, and securing and maintaining adequate resources. However, although the shock-team approach is still in the early stages of clinical evolution, preliminary studies have been encouraging and suggest the value of broader application and evaluation. Cardiogenic shock is classically defined by systemic hypotension with evidence of hypoperfusion and end organ dysfunction. In modern practice, however, these metrics often incompletely describe cardiogenic shock because patients present with more advanced cardiovascular disease and greater degrees of multiorgan dysfunction. Understanding how perfusion, congestion, and end organ dysfunction contribute to hypoxia at the cellular level are central to the diagnosis and management of cardiogenic shock. Although, in clinical practice, increased lactate level is often equated with hypoxia, several other factors might contribute to an elevated lactate level including mitochondrial dysfunction, impaired hepatic and renal clearance, as well as epinephrine use. To this end, we present the evidence underlying the value of lactate to pyruvate ratio as a potential discriminator of cellular hypoxia. We will then discuss the physiological implications of hypoxia and congestion on hepatic, intestinal, and renal physiology. Organ-specific susceptibility to hypoxia is presented in the context of their functional architecture. We discuss how the concepts of contractile reserve, fluid responsiveness, tissue oxygenation, and cardiopulmonary interactions can help personalize the management of cardiogenic shock. Finally, we highlight the limitations of using lactate for tailoring therapy in cardiogenic shock. Mechanical circulatory support (MCS) has made rapid progress over the last 3 decades. selleckchem This was driven by the need to develop acute and chronic circulatory support as well as by the limited organ availability for heart transplantation. The growth of MCS was also driven by the use of extracorporeal membrane oxygenation (ECMO) after the worldwide H1N1 influenza outbreak of 2009. The majority of mechanical pumps (ECMO and left ventricular assist devices) are currently based on continuous flow pump design. It is interesting to note that in the current era, we have reverted from the mammalian pulsatile heart back to the continuous flow pumps seen in our simple multicellular ancestors. This review will highlight key physiological concepts of the assisted circulation from its effects on cardiac dynamic to principles of cardiopulmonary fitness. We will also examine the physiological principles of the ECMO-assisted circulation, anticoagulation, and the haemocompatibility challenges that arise when the blood is exposed to a foreign mechanical circuit. Finally, we conclude with a perspective on smart design for future development of devices used for MCS. In this update, we focus on selected topics of high clinical relevance for health care providers who treat patients with heart failure (HF), on the basis of clinical trials published after 2017. Our objective was to review the evidence, and provide recommendations and practical tips regarding the management of candidates for the following HF therapies (1) transcatheter mitral valve repair in HF with reduced ejection fraction; (2) a novel treatment for transthyretin amyloidosis or transthyretin cardiac amyloidosis; (3) angiotensin receptor-neprilysin inhibition in patients with HF and preserved ejection fraction (HFpEF); and (4) sodium glucose cotransport inhibitors for the prevention and treatment of HF in patients with and without type 2 diabetes. We emphasize the roles of optimal guideline-directed medical therapy and of multidisciplinary teams when considering transcatheter mitral valve repair, to ensure excellent evaluation and care of those patients. In the presence of suggestive clinical indices, health care providers should consider the possibility of cardiac amyloidosis and proceed with proper investigation. Tafamidis is the first agent shown in a prospective study to alter outcomes in patients with transthyretin cardiac amyloidosis. Patient subgroups with HFpEF might benefit from use of sacubitril/valsartan, however, further data are needed to clarify the effect of this therapy in patients with HFpEF. Sodium glucose cotransport inhibitors reduce the risk of incident HF, HF-related hospitalizations, and cardiovascular death in patients with type 2 diabetes and cardiovascular disease. A large clinical trial recently showed that dapagliflozin provides significant outcome benefits in well treated patients with HF with reduced ejection fraction (left ventricular ejection fraction ≤ 40%), with or without type 2 diabetes.

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