View clinical trials related to Haemodynamic Instability.
Filter by:This is an observational, prospective, single-centre study that will focus on patients undergoing major non-cardiac surgery requiring invasive mechanical ventilation and invasive blood pressure monitoring Hypotheses: A positive TVC (tidal volume challenge) prior to the recruitment manoeuvre (RM) predicts a decrease in CI within 5 minutes of individualised PEEP establishment of at least 10%. 1. T0: Moment prior to the start of tidal volume challenge. Baseline values 2. T1: After tidal volume challenge, moment priorate the start of the recruitment manoeuvre (RM). Mostcare and ventilator values. From this moment on, the parameters obtained from Mostcare will be analysed continuously (minute by minute) until 15 minutes after establishing the individualised PEEP. 3. T2: At minute 5 of establishing individualised PEEP. All parameters derived from basic monitoring, Mostcare, and ventilator monitoring shall be monitored and recorded. Record whether any fluid bolus has been administered.
The goal of this clinical trial study is to compare dexmedetomidine versus the combination of dexmedetomidine with ketamine in hemodynamic changes and sedative effects in ARDS patients who are in need of mechanical ventilation. The main question[s] it aims to answer are: - [question 1]: Which dose that get the target in sedation, single and combined drugs? - [question 2]: In which drug group that hemodynamic did not affect Participants will be patients with ARDS that will be divided into two group the first ont will receive dexmedetomidine 0.5 µg/kg/h mixed with ketamine 0.5 mg/kg/h and the second one will receive dexmedetomidine at 0.5 µg/kg/h infusion only. In both the groups, studied drugs will be titrated to achieve target sedation.
Perinatal hypoxia in the form of hypoxic-ischaemic encephalopathy (HIE) is a frequent cause of cerebral impairment in neonates. HIE occurs in 3 to 5 of 1000 neonates in developed countries and is significantly higher in developing countries at 25 of 1000 neonates. Despite developments in medicine, increasing understanding of HIE pathophysiology and progress in neonatal intensive care as well as treatment of moderate or severe perinatal asphyxia, HIE continues to be associated with significant mortality and late neurological sequelae. Episodes of ischaemia-hypoxia in the perinatal period as well as the changes in the redistribution of blood may lead to decreased perfusion and ischaemia of the cardiac muscle. Additionally, there is a negative impact from the reduced contractility of the cardiac muscle secondary to acidosis and hypoxia. Therapeutic hypothermia (TH) improves the late effects in moderate and severe cases of hypoxia-ischaemia encephalopathy (HIE). The direct impact of TH on the cardiovascular system includes moderate bradycardia, increased pulmonary vascular resistance (PVR), inferior filling of the left ventricle (LV) and LV stroke volume. The above-mentioned consequences of TH and episodes of HI in the perinatal period are therefore exacerbation of respiratory and circulatory failure. The impact of the warming phase on the cardiovascular system is not well researched and currently few data has been published on this topic. Physiologically, warming increases heart rate, improves cardiac output and increases systemic pressure. The effect of TH and the warming phase on the cardiovascular values has a decisive impact on the metabolism of drugs, including vasopressors / inotropics, which in turn affects the choice of medication and fluid therapy
The study aims to assess internal jugular vein ultrasound derived measurements and indices prior to spinal anesthesia in elderly population who fulfills predetermined inclusion criteria and might greatly benefit from an appropriate hemodynamic control during orthopedic surgery. Therefore, it is evaluated the diagnostic performance of these indices in predicting spinal-induced hypotension in this subset of participants.
The study is going to be a single-centre prospective randomized trial. Patients will be randomly allocated to either control group (anesthetist-directed fluid therapy) or goal directed fluid therapy group, in which fluid therapy was guided by stoke volume (SV) algorithm with the use of Nexfin monitor. Primary outcome measures were the time to hospital discharge since surgery and the occurence of complications developed during the postoperative period. Secondary outcomes included the incidence of intraoperative hypotensive episodes (with MAP<65mmHg) in both groups and the requirement of vasoactive drugs to support blood pressure
The use of epidural catheters for postoperative analgesia in pancreatic surgery is recommended by the guidelines of the ERAS society. Some studies claim it may expose to hemodynamic alterations that may compromise outcome and increase postoperative complications, attributable to a malfunction of the catheter itself, often linked to a bad positioning, since this is usually positioned with LOS technique. Our hypothesis is that a positioning made using the radiographic guide the day before the intervention can significantly reduce the number of catheter's dysfunctions.
This is a feasibility study of the use of a novel technique called 'Inspiwave' to measure heart and lung function in adult patients in critical care. The preliminary work has already been undertaken in animal models and in healthy volunteers. The ultimate aim of this study is to develop a clinical tool for measuring (and therefore being able to make treatment changes based on) indices of heart and lung function in critical care patients. This study is the first assessment of the technique in this population, and whilst we know it works in patients undergoing general anaesthesia, we now need to assess whether Inspiwave can be used at all in critical care patients who may have much more physiological derangement. The purpose of this phase of the research is to determine whether it is feasible to use Inspiwave in critical care. Inspiwave generates a sinusoidally modulated tracer gas signal in the inspired air. It also measures the resulting signal in the expired air. The unique handling of this signal by the patient can used be to derive key variables related to cardiopulmonary function such as lung volume, pulmonary blood flow, the deadspace (wasted ventilation) and the degree to which ventilation and blood flow are non-uniform. These are 'vital signs' in sick patients, yet are currently technically difficult to measure, particularly non-invasively.