View clinical trials related to Hypotension.
Filter by:Prospective trial including full term parturients scheduled for a cesarean section under spinal anesthesia. patients are being randomly assigned into 2 groups: LE group: will be positioned in 15° left tilt with leg elevation with a 30cm height pillow under the heels, this position will be hold after spinal anesthesia until fetal extraction. Control group: will be positioned in supine with 15° left tilt. the 2 groups will receive a 10ml/kg of crystalloid co-load intravenously, and the spinal anesthesia will be performed in sitting position with the same dose of Bupivacain, morphine and sufentanil.
The automated inflatable abdominal binder is an investigational device for the treatment of orthostatic hypotension (low blood pressure on standing) in patients with autonomic failure. The purpose of this study is to determine safety and effectiveness of the automated abdominal binder in improving orthostatic tolerance in these patients.
This study aims at describing the systemic arterial hypotension secondary to intraoperative beach chair positioning. This is a non-interventional prospective study. The primary endpoint will be the intraoperative systemic arterial pressure measured at the arm. The secondary endpoints will include postoperative mortality, intensive care admission, post anesthesia care unit length of stay,
Post-exercise hypotension (PEH) is a established phenomenon as one of the non-pharmacological ways of reducing blood pressure, producing important impacts, particularly in hypertensive individuals. However, the factors involved in the magnitude and duration of this effect are relatively little studied. Thus, the bioavailability of vasodilatation mediators may maximize the duration and magnitude of PEH. In this sense, the objective of the present project will be to verify the impact of L-citrulline associated with L-arginine supplementation on the acute blood pressure response after an aerobic exercise session. Approximately 80 adults (40 normotensive and 40 hypertensive) will be selected. The sample will be submitted to measurements of body mass, height and resting blood pressure. After the minimum interval of 48 h, subjects will be randomly submitted to four experimental situations (exercise/L-citrulline, exercise/L-arginine, exercise/placebo, exercise/L-citrulline + L-arginine). The exercise sessions (40 min in treadmill at 60% of FCres) will be performed with a minimum interval of 48 h. After each session, the blood pressure of the sample will be recorded during 24 hours. For data analysis, blood pressure values will be plotted in average of the wakefulness and average of the sleep periods and average of the 24 hours. The comparisons will be made through the ANOVA (repeated measures), following the recommended assumptions. It is hoped that the results of this project will collaborate to the knowledge regarding non-pharmacological models aimed at the prevention and treatment of hypertension in normotensive and hypertensive patients.
The main objective is to establish a statistical predictive model of the risk of intradialytic hypotension during hemodialysis (HD) or hemodiafiltration (HDF) sessions based on the measurement of residual blood volume and excess extracellular hydration. The secondary objective is to study the impact of dysfunction in the mechanisms of compensation for decreased blood volume (heart disease, neuropathy, drugs) on the risk of intradialytic hypotension.
Arterial hypotension during induction of general anesthesia is a risk factor for developing postoperative cardiovascular complications. After induction of general anesthesia patients have a high risk of developing arterial hypotension due to anesthetic drugs who can depress cardiac contractility and determine vasodilatation. Previous studies have shown that even short periods of hypotension with a mean arterial pressure of less than 55 mmHg during surgery is associated with an increased incidence of cardiac injury and acute kidney injury in the postoperative period. The volemic status of the patients in the preoperative period is very difficult to quantify and can vary due to comorbidities of the patient, chronic treatment, preoperative fasting. Bioimpedance is recognized by over 30 years as a simple and non invasive technique to determine the volemic status especially in the hemodialysed patients. A new device BCM- Body Composition Monitoring (Fresenius Medical Care) offers a simple method to determine extracellular water and total body water. These volumes are determined by measuring impedance at 50 different frequencies thru electrodes placed at the ankle and wrist. BCM can also determine lean tissue mass and adipose tissue mass. Increasing arterial stiffness is the main characteristic of arterial aging; this increase determines the increase of the afterload, left ventricular hypertrophy, the decrease of coronary and tissue perfusion. Arterial applanation tonometry is a non-invasive technique that has been shown to reliably provide indices of arterial stiffness. In this study investigators wish to determine if there is a correlation between the hidric status determined by BCM, carotid-femural pulse wave velocity determined with SphygmoCor system and the development of hypotension during induction of general anesthesia. The measurements will be obtained before induction of general anesthesia in the pre-surgical area. During induction of general anesthesia with standard induction agents and Bispectral index monitoring, brachial blood pressure will be measured by a cuff every minute after the loss of verbal contact with the patient up to ten minutes after tracheal intubation. A hypotensive response to anesthesia will be defined as a drop in mean arterial pressure below 55mmHg or a drop in mean arterial pressure with more than 40% than the base line value of the patient before the surgery. Measurement of the hidric status and aortic stiffness may represent a valid indicator of the risk of hypotension during anesthesia induction.
The study will determine the 90% effective seated time after intrathecal injection of hyperbaric bupivacaine to avoid hypotension in patients undergoing cesarean delivery.
The main aim of the study is to compare the proposed algorithm for preventing and treating spinal hypotension with normal anesthesia management of a spinal anesthesia. The proposed algorithm mainly will depend upon the left ventricular end diastolic area measurement by transthoracic echocardiography to assess the left ventricular preload status and its usefulness in preventing and treating spinal hypotension.
Although propofol is widely used as an induction agent for a general anesthesia, it can induce a profound hypotension, which leads to the hypo-perfusion of end organs and eventually increases morbidities. Theoretically, applying Trendelenburg position (head down and leg up position) increases cardiac preloads and cardiac outputs. However, in past researches, changing to Trendelenburg position alone is not enough and does not prevent propofol induced hypotension. Previous studies proved that leg wrapping effectively prevent hypotension after neuraxial anesthesia during Cesarean section. The leg wrapping prevents hypotension by increasing vascular resistance of lower extremities. The investigators made a hypothesis that applying both Trendelenburg position and leg wrapping prevent propofol induced hypotension more effectively than either applying Trendelenburg position only or taking no preventive measures.
The purpose of this study is to compare norepinephrine and phenylephrine on the effects of maintaining the cardiac output in Cesarean section under spinal anesthesia.