View clinical trials related to Hypotension.
Filter by:Adequate free flap perfusion during Deep Inferior Epigastric Perforator (DIEP) flap breast reconstruction surgery requires maintaining blood pressure above 100 mmHg and avoiding excessive fluid administration. This study aims to determine whether the use of a measurement of preload dependency (Pulse Pressure Variation = PPV), can guide fluid therapy and if it decreases the risk of flap oedema. For this purpose, two fluid management strategies will be compared: - Static intraoperative fluid management: Administration of crystalloid fluids is limited to 5ml/kg/h - Dynamic intraoperative fluid management: Crystalloid fluids are only administered if PPV exceeds 12% The purpose of this study is to compare the static and dynamic (= targeted) fluid strategy and to evaluate the effect on flap oedema and flap perfusion.
This is a prospective, randomized control trial comparing norepinephrine versus phenylephrine for vasopressor support in patients undergoing elective spinal fusion surgery.
The goal of this clinical trial is to test a novel medical device (ISO-101) in patients diagnosied with orthostatic hypotension. The main question[s] it aims to answer are: - to determine whether the ISO-101 device demonstrates a signal of efficacy in people with OH and whether it is worthy of further clinical evaluation. - Assess the safety and performance of the ISO-101 device in patients with orthostatic hypotension. Participants will use the device under controlled conditions and have the following parameters measured before and after standing up: - blood pressure - markers of peripheal vascular resistence - sympathetic nervous system activity measure before and after standing up
Around 300 million surgical operations are performed globally, and of these, 40 to 50 million are performed in the USA. The perioperative period is characterized by hemodynamic instability and, most importantly, hypotension. Intraoperative hypotension is frequent, and the incidence ranges between 5% and 99% during non-cardiac surgery, depending on the definition. The aim of the study is determined as the relationship between two different time intervals of measurements and time spent hypotensive under harm thresholds in non-cardiac surgery in adults having non-cardiac surgery. Secondarily, it will be determined if more frequent non-invasive blood pressure measurement use decreases postoperative acute kidney injury. Exploratory, it will be evaluated if more frequent non-invasive blood pressure use causes pain or nerve injury in the arms or not.
This study was a single-center, prospective, 2-year observational cohort study. The study subjects were ICU patients requiring vasopressor drugs and requiring sedation. According to the use of ciprofol or propofol in the treatment plan (determined by the doctor in charge according to the condition of the subjects), they were divided into groups: ciprofol group and propofol group. A total of 456 subjects were planned to be enrolled, including 304 subjects in the cyclopofol group and 152 subjects in the propofol group. The data of this study were obtained by extracting the routine clinical diagnosis and treatment records of the enrolled subjects.
Post-induction hypotension (PIH) is a common occurrence during the period from induction of general anesthesia to initiation of incision. PIH has been identified as an independent risk factor for postoperative major complications. Identifying high-risk patients for PIH could potentially help prevent its occurrence. Several risk factors associated with PIH have been identified, including patient conditions and use of specific anesthetic agents. Ventricular-arterial coupling (VAC) is evaluated using the ratio Ea/Ees and represents the interaction between the left ventricle (LV) and the arterial system. It reflects how changes in LV contractility (Ees) and changes in arterial load (Ea) work together to maintain optimal LV performance. A study aims to investigate the relationship between preoperative Ea/Ees ratio and the incidence of PIH (defined as MAP < 65 mmHg).
The goal of this interventional crossover study is to determine the effects of transcutaneous spinal cord stimulation (TSCS) on the ability to perform moderate exercise and regulate core body temperature in the chronic spinal cord injury community. The main questions it aims to answer are: - What are the effects of active TSCS targeted for BP control on exercise endurance time and HR recovery during submaximal arm cycle ergometry (ACE) as compared to sham TSCS in participants with chronic, cervical SCI? - What are the effects of active TSCS on Tcore responses to cool ambient exposure and on subjective reporting of thermal comfort and thermal sensitivity as compared to sham TSCS. Participants will receive sham and active stimulation while using an arm bicycle or while in a cold room. Participants are free to participate in either the exercise phase, the cold room phase, or both phases of this study. Please note that there no expected long term benefits of this study.
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.
In recent studies, it has been reported that the renal resistive index is effective in detecting postoperative acute kidney injury in the early period. This study aims to evaluate the preoperative and postoperative renal resistive index variation with intraoperative controlled hypotension and research the renal resistive index's utility in the early detection of renal dysfunction that may develop after surgery.
The goal of this interventional study is to evaluate the safety and preliminary effectiveness of the ARC-IM Therapy to improve hemodynamic management in people with sub-acute or chronic spinal cord injury. Participants will be implanted with the ARC-IM Thoracic System which aim to deliver, at the low thoracic level, targeted epidural electrical stimulation that will support natural hemodynamic control.