View clinical trials related to Hemodynamic Instability.
Filter by:Net ultra filtration (NUF) is one of the most important parameters during renal replacement therapy (RRT) whose role is to control fluid balance by water removal. To our knowledge, there are no prospective studies or guidelines about the setting of this parameter. In the NEPTUNE study, we aim to compare the hemodynamic effect of three NUF rates during RRT: 1 ml/kg/h, 2 ml/kg/h and 3 ml/kg/h. The research hypothesis is that one of the three flow rates evaluated induces the fewest hemodynamic instabilities related to RRT, while guaranteeing the best possible fluid balance.
Fluid management is one of the key issues in the initial management of septic shock (SS). Fluid overload and hypovolemia have been associated with increased mortality in several trials. Transthoracic echocardiography (TTE) and lung ultrasound are recommended for haemodynamic assessment in critically ill patients. However, the benefit of hemodynamic optimisation using echography has not been yet evaluated. The purpose of this multicenter, controlled, randomized trial is to assess the impact of an echocardiographic algorithm of hemodynamic optimization on fluid management in septic patients during the first 4 days of therapy.
Jugular vein collapsibility index and shock indices (Shock index, Modified Shock Index, Diastolic Shock Index) may be useful in estimating post spinal hypotension in cesarean section operations. Evaluation on the accuracy and effectiveness of these indices can contribute to the early diagnosis and management of hypotension. The main purpose of this study is to evaluate the effectiveness of shock indices in predicting the possibility of post spinal hypotension in cesarean section operations.
A prospective, open-label, randomized controlled trial will be conducted to evaluate a novel TDM-guided therapy in management of DT-GNB infections. We hypothesize that TDM-guided antibiotic therapy will reduce 14-day all-cause mortality by 6% (absolute risk reduction) in septic patients with DT-GNB infections, when compared to standard therapy. TDM for 11 antibiotics will be performed for all trial patients although test information will be withheld for the standard therapy arm. The primary aim is to compare the 14-day all-cause mortality rates of novel TDM-guided antibiotic dosing versus standard therapy.
The aim of this study is to investigate the effects of intravenous infusion of lidocaine at different doses (1 mg/kg/h vs. 2 mg/kg/h) in the intraoperative period in patients undergoing lumbar stabilization, whether postoperative pain, postoperative opioid use, opioid-related side effects are reduced, and its effects on intraoperative hemodynamics
In this study, the investigators will deploy a software-based clinical decision support tool (eCARTv5) into the electronic health record (EHR) workflow of multiple hospital wards. eCART's algorithm is designed to analyze real-time EHR data, such as vitals and laboratory results, to identify which patients are at increased risk for clinical deterioration. The algorithm specifically predicts imminent death or the need for intensive care unit (ICU) transfer. Within the eCART interface, clinical teams are then directed toward standardized guidance to determine next steps in care for elevated-risk patients. The investigators hypothesize that implementing such a tool will be associated with a decrease in ventilator utilization, length of stay, and mortality for high-risk hospitalized adults.
When the literature was reviewed, many studies were found in which various non-pharmacologic interventions such as reflexology, music therapy, slow and deep breathing exercises, relaxation exercises and cold application were examined in the control of pain associated with chest tube removal. However, a limited number of studies have examined the effect of acupressure on the control of pain caused by chest tube removal; there are no studies in which LI4, LI11 and HT7 acupressure points were used and anxiety level and hemodynamic variables were examined along with procedural pain. Thus, the aim of this study was to investigate the effect of acupressure on procedural pain, anxiety and hemodynamic variables after chest tube removal after open heart surgery.
There is need for a whole blood analog for use when banked blood is unavailable or undesirable. In civilian trauma, hemorrhage accounts for ~ 35% of pre-hospital deaths; moreover, ~ 20% of military casualties are in hemorrhagic shock on arrival to field hospitals and an additional 5% require urgent transfusion. A recent review concluded that hemorrhage accounted for ~ 90% of potentially survivable battlefield deaths - lives that could be saved with better hemorrhage control capabilities and improved, field-ready blood, blood components, or blood substitutes. While study of ideal composition for resuscitative fluids is ongoing, it is evident that for those in hemorrhagic shock, volume replenishment alone (without O2 carrying capacity) is insufficient. Alternatively, with massive blood loss or with ongoing bleeding from non-compressible injuries, resuscitation with an O2 carrier alone may be complicated by acquired coagulopathy (either dilutional or trauma-induced). Development of a balanced resuscitation fluid that treats both shock and coagulopathy (comprising a field-deployable O2 carrier with lyophilized humoral hemostatic components and platelets) is essential to allow on-scene treatment during the critical 'golden-hours' after injury. As such, the whole blood analog described herein could be this product, thus transforming care in both civilian and military settings.The scientific purpose of this study is to develop a combined whole blood substitute from individual artificial prototypes that have been separately developed for each blood component (i.e., combining an artificial oxygen carrier, with an artificial plasma analogue and an artificial platelet analogue). Together, these combined components will recapitulate the composition and performance of natural whole blood. Blending and combination experiments of the individual artificial prototypes will be performed to test compatibility and optimize efficacy. State of the art in vitro (bench top) assays will be performed to assess physicochemical and functional performance (hemodynamics, oxygen delivery, hemostasis), with data being compared to experiments performed on fresh and stored whole blood.
Thousands of peripheral venous accesses are inserted every day all over the world. Some of them, such as those inserted in emergency and / or in critical patients, are absolutely vital. In the particular context of prehospital care, the rate of failure of the first attempt to insert a peripheral venous access has been evaluated at 25%. Success rates of successive attempts were about 75%. Nevertheless, the final success rate is close to 100%. Failure or delay in obtaining venous access can be life-threatening. Thus, alternatives to peripheral venous access have been proposed including intraosseous route recently made easier by the development of an automated puncture device (EZ-IO®), but still rarely used, especially on conscious patient. Currently, the place of intraosseous venous access in critical patients is not determined.
Intravenous fluids are often given to increase stroke volume and thereby improve global oxygen delivery. The effect is however often transient, but the effect of a fluid bolus on stroke volume and other hemodynamic variables over time are poorly described. The volume effect of a fluid bolus (effect on blood volume) can be calculated by measuring Haemoglobin. The purpose of this study is to elucidate the hemodynamic effects of a fluid bolus during normovolemia and hypovolemia in healthy volunteers. Study details include: • Study Duration: 2 visits of approximately 2 h duration each + follow-up visit. Visits 1 and 2 are at least 2 days apart. Number of Participants: A maximum of 15 participants will be enrolled to study intervention such that 12 evaluable participants complete the study