View clinical trials related to Shock, Cardiogenic.
Filter by:Prevalence of cardiogenic shock in acute coronary syndrome patients is reported at about 5-8% with high fatality. Revascularization approach has already known as the standard of care, but the usage of intra-aortic balloon pump (IABP) as mechanical circulatory support is still a controversy. IABP SHOCK II trial revealed that short-term mortality did not improved by IABP but there are several essential variabels related to mortality that are not considered in the study which are IABP initiation time and weaning protocol.This study aim to evalute the effect of IABP prior to revascularization on mortality of patients with myocardial infarction complicated with shock. 92 subjects will be enrolled in this randomized controlled trial into two groups, with and without IABP. IABP group will be receiving the intervention prior to revascularization. The primary outcomes to be sought are in-hospital and 30-day mortality after revascularization. IABP effects measured by various indicators such as Global Longitudinal Strain by echocardiography on the 1st and 3rd day, NTproBNP and ST2 level on the 1st, 3rd and 5th day, effective lactate clearance and ureum creatinine level on the 1st and 3rd day and will be compared between two groups. Continous variabel will be presented in mean ± deviation standard or median, and analized with Student's t test or Mann-Whitney U test as appropriate.
This study aims to evaluate the effect of statin for primary prevention, towards lowering the incidence of recurrent myocardial infarction, cardiogenic shock and mortality in ACS patients.
Extracorporeal membrane oxygenation (ECMO) is of great value in supporting patients with cardiac shock. More than 80% ECMO patients will develop renal catastrophe that continuous renal replacement therapy (CRRT) is required. The evidence is conflict as to whether early CRRT improves outcomes. Early CRRT before a definite indication developed may prevent side effects of toxicity and fluid overload and therefore, bring survival benefit for the patient. This hypothesis need to be tested in RCT. Plasma catecholamine levels can be very high in patients under VA-ECMO, which maybe toxic to the cardiac myocardium. Beta-blockers can antagonize the effects of catecholamine. In patients with VA-ECMO, the protective effect of beta-blocker may improve the patients' outcome. This hypothesis also need to be tested in RCT. ELITE (Evaluation of Early CRRT and Beta-blocker InTerventions in Patients with ECMO) study is a factorial designed RCT with the purpose to test the benefit of early CRRT and beta-blocker in patients treated with V-A ECMO. In the CRRT arm, patients will be randomized to simultaneous CRRT (not late than 24 hours after the initiation of ECMO) or routine therapy (CRRT when indicated). In the beta-blocker arm, patients will be randomized to beta-blocker treatment with a heart rate target of 75±5 bpm or routine therapy. The primary outcome is all-cause mortality at 30 days. Patients discharged alive will be followed for 1 year. Data of mortality and quality of life which are secondary outcomes of this study, will be collected.
Cardiogenic shock is usually defined as primary cardiac dysfunction with low cardiac output leading to critical organ hypo perfusion and tissue hypoxia. Despite progress in the management of cardiogenic shock, mortality remains unacceptably high. This significant mortality, close to 40 %, is partly due to profound alterations of microcirculatory blood flow in cardiogenic shock, leading to multi organ failure, despite restoration of macro-hemodynamic parameters such as blood pressure and cardiac output. The microcirculation is the terminal vascular network of the systemic circulation consisting of microvessels with diameters < 20 μm including arterioles, capillaries, and venules. This part of the circulation is critical as it is responsible for nutrient delivering and oxygen transfer from the erythrocytes in the capillaries to the parenchymal cells to meet their metabolic demands, but it is also the area where water, other gases, hormones and waste products are exchanged. Hence, the evaluation of clinical signs of peripheral hypoperfusion reflecting microvascular perfusion is of interest. We aimed to study these parameters such as skin capillary refill time (CRT), mottling and central-to-toe temperature difference (ΔTc-p) in a cardiogenic shock population. Assessing the prognosis of these microcirculation parameters and their interaction with macrocirculation parameters such as arterial pressure, cardiac index, left ventricular ejection fraction is also the aim of this study. Lastly, looking at the prognostic value of these markers seems interesting.
Refractory cardiogenic shock is characterized by a decreased in cardiac output with hypo-responsiveness to increasing doses of catecholamines resulting in a profound tissular ischemia. VAECMO, by restoring a circulatory flow, could be associated to a major reperfusion syndrome which may lead some patients to multiple organ failures and death. Pathophysiology of this syndrome includes 1/an hyper-adrenergic state secondary to the over activation of the sympathetic system and 2/ a major release of pro-inflammatory cytokines. As adrenoreceptors are also exhibited on immunes cells, the pro-inflammatory state might be enhanced by the over-activation of the sympathetic system.
Study of immunosuppression biomarkers in patients with ARDS or cardiogenic shock with ECMO / ECLS, compared to patients with ARDS or cardiogenic shock without ECMO / ECLS
The investigators are interested in determining if there is a meaningful difference between two of the most commonly used medications used to improve the pumping function of the heart among critically ill patients admitted to the Coronary Care Unit (CCU) at the University of Ottawa Heart Institute (UOHI). To do this, the investigators will randomly assign patients who are felt to require use of these medications by their treating physicians to one of the two most commonly used agents in Canada: Milrinone or Dobutamine. Each patient will be closely monitored by their healthcare team, and their medication will be adjusted based on each patient's clinical status. Information from blood work (e.g. kidney and liver function, complete blood counts, and other markers of how effectively blood is circulating in the body), assessment of end-organ function (e.g. urine output, mentation), abnormal heart rhythms noted on monitoring and results of imaging studies (e.g. angiogram, echocardiograms.) will be collected for analysis. All patients will be followed for the duration of their hospital stay at UOHI.
The objective of this study is to determine ventricular loading conditions during and after PulseCath® iVAC2L support, and assess its impact on specific load dependent humoral factors and cardiac enzymes. These specific patterns are so far unknown and will be evaluated invasively.
The purpose of the study is to compare patients with cardiogenic shock who receive standard therapy plus therapeutic hypothermia (TH) to patients with cardiogenic shock who receive standard medical therapy alone in order to assess the safety of TH in patients with cardiogenic shock. This study will also help understand the physiologic effects of TH in patients with cardiogenic shock. This will be a pilot study to establish the initial safety of TH and to assess tolerability of TH in this patient population.
The use of echocardiography in intensive care is a developing field. In expert hands echocardiography has proven its utility in diagnosing cardiac pathology, differentiating shock states and in haemodynamic monitoring. However, whether the results obtained by experts can be generalized to trainees or specialists with limited training remains unclear. Further, concerns around training time and cost for intensive care staff have been a factor in limiting the uptake of echocardiography in intensive care. The investigators aim to assess the diagnostic accuracy of Australian ICU doctors in training after completion of the current minimum training. After completing a structured teaching program and 30 mentored training scans trainees will be assessed on their accuracy with echocardiography. In the research phase trainees will complete a further 40 scans with each one matched with an expect scan. The results from the expert and trainee scans will be compared to determine the trainee's accuracy.