View clinical trials related to Shock.
Filter by:Shocked patients require prompt and accurate assessment of their hemodynamic status to guide appropriate management. Echocardiography is a valuable tool for assessing cardiac function, while laboratory parameters such as mixed venous oxygen saturation and arterial blood lactate provide insights into tissue perfusion and oxygen metabolism. This study aims to compare echocardiographic findings, including cardiac index, speckle tracking parameters, and tissue Doppler indices, with laboratory findings in the evaluation of hemodynamic monitoring in shocked patients.
Preterm infants (born at less than 37 weeks of pregnancy) sometimes develop a serious blood infection leading to low blood pressure, which does not respond to saline or to the standard medicines for increasing blood pressure, such as dopamine and epinephrine. The goal of this research study is to compare the effect of giving an injectable medicine called Methylene blue (MB) versus not giving MB to such preterm infants who are unresponsive to standard treatment. The main questions that this study aims to answer is: 1. Whether MB treatment reduces death to any cause as compared to no MB treatment. 2. Whether treatment with MB reduces the time to achieve normal blood pressure 3. Whether treatment with MB reduces the time to stoppage of all blood pressure medications, steroids and normal saline. 4. Whether treatment with MB improves heart function as measured by echocardiography at 24 and 48 hours.
Rudiger and Singer suggested strategies for refining adrenergic stress (decatecholaminization). They proposed the use of dexmedetomidine and vasopressin to reduce the catecholamine load during sepsis. The investigators will use vasopressin as the primary vasopressor and a heart rate-calibrated dexmedetomidine infusion in septic shock patients. The investigators of the current study will use DEXPRESSIN in septic shock patients to investigate the effects of decatecholaminization on in-hospital mortality.
The aim of the study is to increase our knowledge of energy dysfunction in the cardiovascular dysfunction observed during shock states by analysing the omics molecules involved.
Acute kidney injury (AKI) is a common complication of septic shock and together these conditions carry a high mortality risk. In septic patients who develop severe AKI renal cortical perfusion is deficient despite normal macrovascular organ blood flow. This intra-renal perfusion abnormality may be amenable to pharmacological manipulation, which may offer mechanistic insight into the pathophysiology of septic AKI. The aim of the current study is to investigate the effects of vasopressin and angiotensin II on renal microcirculatory perfusion in a cohort of patients with septic shock.
It is well recognized the association between fluid volume administered and positive fluid balance with adverse outcomes . Active fluid removal is widely practiced in an attempt to mitigate this potential damage. However, it is not clear which is the best approach for the post-resuscitation phase in critically ill patients. In this context, Point-of-Care ultrasound (POCUS) through Venous Excess Ultrasound (VExUS) would allow the assessment of the degree of venous congestion, through the visualization of vascular anatomy and blood velocity using Doppler, being potentially useful to guide fluid removal. The investigators will evaluate whether fluid management after the initial phase of VExUS-guided resuscitation is able to improve outcomes compared to usual therapy in patients with septic shock. This is a single center, prospective, open and randomized clinical study in which patients admitted to intensive care will be included after the first 24 hours of resuscitation. A total of 200 patients will be randomized either to volume management guided by VExUS or to the standard therapy arm as per usual practice.
Assess the effectiveness and safety of using dynamic arterial elastance as a tool for weaning vasopressor support in patients with septic shock, compared to a control group
This study is being conducted to evaluate the safety and effectiveness of VBI-S in elevating the blood pressure of septic shock patients with absolute or relative hypovolemia.
The goal of this clinical trial is to investigate the effect of different anatomical variations in terms of root angulation, alveolar bone and basal bone morphology on soft and hard tissue alterations in patients with non-restorable teeth in the inter-canine region undergoing immediate implantation. The main question it aims to answer are: - Will the amount of collapse be greater when the root is proclined or outside the bone housing? - Will no additional intervention be needed with immediate implants in the esthetic zone if we have better anatomy that will help hinder the collapse? Participants will receive immediate dental implants with customized healing abutments
The current trial aims to assess the effect of istaroxime in patients with SCAI Stage C Cardiogenic Shock (CS). These patients look unwell, frequently with a sudden change in mental status, mottled and cool extremities, and delayed capillary refill, as well as signs of congestion and relative low blood pressure and signs of hypoperfusion (reduced oxygen to organs) which frequently require support with rescue therapies including inotropes, vasopressors, or mechanical devices. Windtree Therapeutics, Inc. has been studying istaroxime, which has the potential to treat patients in this condition without some of the disadvantages of existing therapies being used to treat patients with acute heart failure and CS. Participants enrolled in this trial will receive standard of care (SoC) therapy for heart failure and CS. Additionally, half of the participants will be randomly chosen to receive istaroxime. Istaroxime has the potential to increase blood pressure and improve cardiac function.