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NCT05327556
The use of peri-arrest bolus epinephrine (PBE) has emerged as a rescue strategy for life-threatening hypotension in pediatric intensive care units (ICU) despite scant published data supporting its use in this setting. As optimal dosing of PBE in this population is unclear, we aim to determine if an initial dose of 0.5 mcg/kg versus 1.0 mcg/kg yields differences in hemodynamic outcomes. The EPI Dose Study is a single-center, prospective, randomized, double-blind, dose-effect trial measuring systolic blood pressure (SBP) before and after PBE is given. We hypothesize that the 1.0 mcg/kg group will have more robust increases in SBP.
NCT06729827
Single shot spinal anesthesia (SA) is the most commonly used technique for Caesarean section (CS) . SA is associated with maternal hypotension (Post Spinal Hypotension - PSH) often accompanied by nausea, vomiting, bradycardia and fetal acidosis. Preventive administration of vasopressors is widely used to counterbalance hypotension. Routine prophylactic infusion of phenylephrine and norepinephrine raises concerns for unnecessary treatment, reactive hypertension, baroreceptor-mediated bradycardia, and effects on fetal acidosis. Non-invasive continuous measurement of arterial pressure using a finger cuff is well established. Hypotension Prediction Index - HPI is an algorithm that could predict the onset of hypotension in working on invasive and non-invasive arterial waveform signal. The aim of this prospective randomized study is to compare the amount of PSH during elective caesarean section among two groups of patients receiving standard intermittent hemodynamic monitoring versus continuous ClearSight-HPI monitoring. The primary hypothesis is that hemodynamic management HPI-guided reduces the incidence, entity and duration of post-spinal hypotension, defined as mean arterial pressure (MAP) lower than 65 mmHg lasting more than one minute. The secondary aim was to study the impact of maternal PSH during CS on foetal outcome evaluated by comparing neonatal Apgar scores at 1 and 5 minutes after birth, and umbilical cord arterial and venous pH in the two groups.
NCT07328958
Elderly patients are frequently burdened with age-associated comorbidities and frailty, accompanied by physiological changes such as vascular stiffening, cardiac dysfunction, and impaired autonomic regulation. These factors not only increase the risk of adverse perioperative outcomes but also heighten sensitivity to anesthetic agents, making elderly patients particularly susceptible to anesthesia-related complications, especially hypotension. Consequently, optimizing anesthesia strategies for this high-risk population has become a critical goal in perioperative management. Titrated anesthesia, which individualizes anesthetic drug delivery based on patient response to achieve predefined endpoints, offers a potential approach to mitigating anesthetic risks. Ciprofol, a novel intravenous anesthetic, has been associated with less hemodynamic suppression compared with traditional agents; however, higher single doses may still predispose patients to hypotension. Remifentanil, an ultra-short-acting opioid, exerts significant cardiovascular depressive effects, further contributing to perioperative hypotension. It is hypothesized that titrated administration of anesthetic agents during both the induction and maintenance phases, compared with conventional fixed-dose protocols, may reduce the incidence of perioperative hypotension in elderly patients.
NCT05908760
Neurogenic orthostatic hypotension (nOH) is a chronic condition associated with increased cardiovascular risk and reduced quality of life. On standing, patients with nOH experience a large reduction in blood pressure (BP; at least ≥20/10mmHg, but often much more), which is often accompanied by debilitating symptoms and syncope. A previous study (unpublished) showed that hypercapnia significantly increases standing BP in patients with nOH. Human bodies naturally produce and exhale CO2. Rebreathe devices offer a simple, cost-effective technology to increase arterial CO2. In brief, rebreathe devices work by capturing expired CO2, which is then re-inhaled. The net effect is a transient increase in CO2. A CO2 rebreathing device may offer a novel hemodynamic therapy for patients with nOH. This is a pilot, proof-of-concept study to evaluate a CO2 rebreather to improve blood pressure and orthostatic tolerance in patients with nOH. The hypothesis is that a rebreather will increase CO2 sufficiently enough to improve BP in patients with nOH. Male and female patients (n=28) will be asked to complete two randomized 70° head-up tilt (HUT) tests breathing either room air or using a CO2 rebreather. Hemodynamics (BP, heart rate, stroke volume, brain blood flow) and orthostatic symptoms will be assessed throughout. Breath-by-breath data will include O2, CO2, respiration rate and tidal volume. The primary outcome measure will be the magnitude of the BP response (ΔBP = HUT - Supine) during Room Air vs. Hypercapnia. The primary outcome will be compared between room air and hypercapnia using a paired t-test.
NCT03497949
The incidence of hypotension perioperatively during operation of an acute hip fracture is unknown. As a surrogate factor the usage of vasopressor support is more adequate as the registration of vasopressor drugs are many times not complete in records. The investigators retrospectively investigated the anesthetic journals of 1100 patients with an acute hip fracture (AHF) noting confounding factors and the usage of vasopressors either by injections or infusions and then correlated these results to mortality at 30-, 90- and 365- days
NCT07539896
Spinal anesthesia is widely preferred for elective cesarean delivery due to its favorable safety profile and superior postoperative analgesia. However, post-spinal hypotension (PSH) remains a common complication, with reported incidence rates ranging from 40% to 70%, potentially compromising maternal hemodynamic stability and uteroplacental perfusion. Early identification of patients at high risk for PSH is therefore of critical clinical importance. This prospective observational study aims to evaluate the predictive performance of preoperative internal jugular vein collapsibility index (IJV-CI), assessed by ultrasonography, and baseline perfusion index (PI), obtained via pulse oximetry, for the development of PSH in patients undergoing elective cesarean section under spinal anesthesia. While IJV-CI reflects intravascular volume status and preload, PI represents peripheral vascular tone; thus, their combined use may improve predictive accuracy. Study Design This is a single-center, prospective observational study conducted in patients scheduled for elective cesarean delivery under spinal anesthesia. No additional intervention will be applied, and all anesthetic management will follow standard clinical practice. Objectives Primary Objective: To assess the ability of preoperative IJV collapsibility index (IJV-CI) and baseline perfusion index (PI) to predict post-spinal hypotension. Secondary Objectives: To evaluate the relationship between IJV-CI and PI with: Duration and number of hypotensive episodes Minimum systolic and mean arterial pressure Total vasopressor requirement Incidence of intraoperative nausea and vomiting Pregnant women aged 18-45 years, ASA II, with singleton pregnancies scheduled for elective cesarean section under spinal anesthesia. Inclusion Criteria Age 18-45 years Elective cesarean section Planned spinal anesthesia ASA physical status II Singleton pregnancy Exclusion Criteria Hypertensive disorders of pregnancy (e.g., preeclampsia, HELLP) Significant cardiac or pulmonary disease Chronic kidney disease Multiple pregnancy Emergency cesarean delivery Conversion to general anesthesia Conditions preventing IJV ultrasonographic assessmentBaseline PI will be recorded preoperatively using standard pulse oximetry. IJV diameters will be measured via ultrasound, and the collapsibility index will be calculated as: IJVI: (Dmax-Dmin/Dmax)X100 Hemodynamic parameters will be recorded at 3-minute intervals from spinal anesthesia administration until delivery. Statistical analysis will include ROC curve analysis, correlation analysis, and logistic regression to evaluate predictive performance.
NCT07502599
To characterize the impact of orthostatic hypotension (OH) and Vasovagal syncope on signals measured using a wearable Holter monitor in the clinic and ambulatory setting. To evaluate the relationship of signals measured from the Holter monitor with reported symptom severity of orthostatic intolerance per standard data collection, analysis, and questionnaires.
NCT07396636
Intraoperative hypotension, defined as a drop in blood pressure during surgery, is a frequent event in patients undergoing general anesthesia. Even brief episodes of low blood pressure may reduce blood flow to vital organs such as the brain, heart, and kidneys, and have been associated with an increased risk of postoperative complications, prolonged recovery, and worse clinical outcomes. Despite its clinical importance, the management of intraoperative hypotension is often based on general guidelines and individual clinician experience rather than patient-specific physiological mechanisms. Low blood pressure during surgery can occur for different underlying reasons, including reduced circulating blood volume, excessive vasodilation caused by anesthetic agents, impaired heart contractility, or abnormalities in heart rate. In routine practice, these mechanisms are not always clearly distinguished, and similar treatment strategies may be applied to patients with different physiological causes of hypotension. As a result, the response to treatment can vary widely between patients. This prospective observational study aims to improve the understanding of intraoperative hypotension by collecting detailed hemodynamic data during surgery and analyzing these data using machine learning methods. The study is designed to observe current clinical practice without altering or interfering with routine patient care. All decisions regarding anesthesia management and treatment of hypotension will be made by the attending anesthesiologists according to standard clinical practice. The research team will not provide treatment recommendations during surgery. Adult patients undergoing elective surgery under general anesthesia with continuous invasive arterial blood pressure monitoring will be included. During the intraoperative period, blood pressure, heart rate, cardiac output, stroke volume, systemic vascular resistance, and other advanced hemodynamic parameters will be continuously recorded at regular intervals. When hypotension occurs, the onset, duration, and severity of the episode will be documented, along with the treatment applied, such as fluid administration, vasopressor agents, or inotropic medications. The time required for blood pressure to recover to an acceptable level will also be recorded. The collected data will be analyzed using machine learning techniques to identify distinct subtypes of intraoperative hypotension based on physiological patterns. These subtypes may reflect different underlying mechanisms, such as hypovolemia, vasodilation, myocardial depression, or heart rate-related causes. In addition, the study will evaluate how different treatment strategies perform across these hypotension subtypes and how quickly hemodynamic stability is restored. Patient-related factors such as age, sex, body mass index, physical status classification, and comorbid conditions will also be examined to determine their relationship with the occurrence, severity, and treatment response of hypotension episodes. By combining patient characteristics, physiological data, and treatment responses, the study aims to generate data-driven insights into personalized hypotension management. The ultimate goal of this research is to support the development of individualized treatment recommendations for intraoperative hypotension based on objective physiological data rather than a one-size-fits-all approach. The findings of this study are expected to provide a strong scientific foundation for future clinical decision-support systems that can assist anesthesiologists in selecting the most appropriate treatment strategy for each patient. By improving the precision of blood pressure management during surgery, this approach has the potential to enhance patient safety and perioperative outcomes while maintaining standard clinical workflows.
NCT06694688
Orthostatic hypotension (OH) is associated with an increased risk of myocardial infarction, stroke, heart failure and neurocognitive disorders. In the elderly, OH is an independent predictor of falls and mortality. Non-drug treatments are used as the first-line treatments. Among non-drug treatments, compression of the lower limbs and abdominal compression have been shown to help reduce OH and associated symptoms. As these studies were solely based on ankle-to-thigh bandages, the effectiveness of other medical devices developed, such as compression socks and tights, needs to be evaluated. In addition, data comparing the efficacy and tolerability of several approaches, single or combined, of several levels of compression, provided by socks, tights and an abdominal belt are scarce. The HYPOFLEX study aims to provide new data to enable better management of OH.
NCT07481851
Spinal anesthesia-induced hypotension is a common and clinically significant complication in elderly patients undergoing oncologic surgery. Early identification of patients at risk for hemodynamic instability remains a major challenge in perioperative management. Skin conductance reflects sympathetic nervous system activity and may provide a noninvasive indicator of autonomic responses. This prospective observational study aims to evaluate whether skin conductance measurements can predict the development of hypotension following spinal anesthesia in geriatric oncology patients undergoing urologic surgery. The findings may contribute to improved perioperative monitoring and early risk stratification in this vulnerable patient population.
NCT05051293
Cirrhosis is an end stage in liver disease leading to replacement of normal liver tissue with regenerative nodules surrounded by fibrous bands in response to chronic liver injury. It is the eighth leading cause of death in the United States and the thirteenth leading cause of death globally. Patients with cirrhosis have decreased spontaneous vascular resistance leading to hypotension. The mechanism of hypotension in cirrhosis is thought to be a complex result of the presence of increased level of circulating vasodilators such a nitric oxide coupled with reduced resistance to vasoconstrictors and increased sensitivity to vasodilators.
NCT07460050
Propofol and Isoflurane are commonly used sedative agents in general anaesthesia.Both these drugs have a side effect of decreasing blood pressure which when used optimally can be used to acheive controlled hypotention. So, it provides a better visiblity of surgical filed to the surgeons.This RCT compares propofol infusion vs isoflurane inhalation for inducing controlled hypotension during endoscopic sinus surgery. The goal is to assess which agent better controls blood pressure, improves surgical field visibility, and impacts recovery. It likely measures outcomes like hemodynamics, bleeding, and surgeon satisfaction.
NCT06753097
This is a randomized trial (1) investigating whether continuous finger-cuff - compared to intermittent oscillometric - arterial pressure monitoring reduces the amount of intraoperative hypotension (specifically, from the start of induction of general anesthesia until the end of surgery) in low-to-moderate risk patients having elective non-cardiac surgery.
NCT07458893
This prospective observational study aims to evaluate whether non-invasive hemodynamic parameters, including the plethysmographic variability index (PVI) and perfusion index (PI), can predict post-induction hypotension in patients undergoing diagnostic direct laryngoscopy under general anesthesia. Patients aged 18-75 years with ASA physical status I-III scheduled for elective direct laryngoscopy will be included. PVI and PI values will be recorded before anesthesia induction and in the early post-induction period. The relationship between these indices and the decrease in mean arterial pressure after induction will be analyzed to determine their predictive value for hypotension.
NCT06772727
Lidocaine-based anesthesia had been recently reported as a successful regimen for induction of anesthesia in elderly population with better hemodynamic profile than opioid-based induction. The investigators hypothesize that lidocaine-based induction of anesthesia would provide superior hemodynamic profile compared to conventional opioid-based induction of anesthesia in emergency laparotomy.
NCT06695923
Finding relationship between different ultrafiltration rates and intradialytic hypotension in attempt to find the optimal cut off points.
NCT05564741
The systemic effects of spinal anesthesia is not fully known. Our aim of this study is to assess whether there is a difference in hemodynamic effects if the spinal dose is given fast (15s) or slow (90s) in elderly patients with acute hip fracture (AHF). Ninety (n=90) patients with AHF planned for surgery within 72h at our hospital will be enrolled in the study and randomly devided into two groups. The patients will receive one predetermined dose of spinal anesthesia followed by an advanced minimally-invasive hemodynamic monitoring through an arterial line using FloTrac-system. The hemodynamic parameters will be conducted 10 minutes prior to the spinal anaesthesia and 30 minutes after the spinal block is given. Hypotension was defined as a fall in MAP \> 30 % or a MAP \<65mmHg.
NCT07089043
This is a study to evaluate the effects of CST-3056 on orthostatic symptoms and signs in subjects with neurogenic orthostatic hypotension (nOH).
NCT05707442
The aim of this study is to assess the efficacy of stent implantation versus medical therapy on idiopathic intracranial hypertension with venous sinus stenosis.
NCT07370103
Baseline Measurements For the ultrasound parameters, it is the average of three readings In supine position . The investigators will continuously monitoring during induction and 10 minutes after. Hemodynamic Monitoring: * Heart rate from ECG * SpO2 * Etco2 * Blood pressure . invasive Blood pressure * The radial artery level is the site of continuous arterial pressure monitoring with an arterial catheter. * Ultrasound Measurements: The patient will be positioned in a supine position, with the right side of the neck completely exposed. The transverse part Of the main carotid artery beneath the thyroid cartilage will be precisely identified using ultrasound device (sonosite edge portablp.fojy usa)via a linear array probe (4-15 MHz), with the marker directed toward the patient's head. Thus, the sampling line will be positioned at the center of the carotid lumen, around 2 cm from the carotid bifurcation, and the electronic angle correction cursor will be pointed in the direction of blood flow. Insonation angles between the ultrasound beam and blood flow will be maintained at or \< 60°. Next, the carotid blood flow waveform will be acquired, and the consecutive stable carotid pulse Doppler flow spectrum will be determined with an optimal level of image quality. The Correction: To get the corrected carotid flow time (ccFT), the measured FT will be adjusted for the patient's heart rate (HR). A commonly used formula is Wodey's formula. A single, experienced sonographer will perform all measurements, and a subset of measurements will be reviewed by a second blinded observer to assess inter-rater reliability." Peak Velocity: Measure the peak systolic blood flow velocity at the same location. Respiratory Variation (ΔVpeak): Calculate the difference between the maximum and minimum peak velocities during a single respiratory cycle: \\Delta V\_{peak} = (V\_{peak(max)} - V\_{peak(min)}) / ((V\_{peak(max)} + V\_{peak(min)})/2) \\times 100\\%. The patient should be asked to breathe normally during this measurement. Flow time (FT), which is known as the time period between the systolic increase phase and dicrotic notch, was calculated and then adjusted for heart rate (HR) via equations outlined below. Wodey's (W) equation∶ FTc(W) = FT + 1.29 ∗ (HR - 60) Anasthesia: Patients will have routine fasting for at least 6 to 8 h and will not allowed to drink any solution or fluid 2 to 4 h prior to surgery. No premedication will be given A standardized induction protocol will be used. At the operating theatre, a three-lead electrocardiogram (ECG), pulse oximetry (SpO2), and noninvasive arterial pressure monitoring will be applied. After pre-oxygenation for 5 min anesthesia induction of propofol 1\_2mg , fentanyl 1 ug/kg, and 0.15 mg/kg cisatracurium . After 3 min of mask ventilation, direct laryngoscopy will be employed for tracheal intubation. . Respiratory setting of anesthesia machine (Aestiva, GE/Datex-Ohmeda) will be set as follows: volume-controlled ventilation (VCV), inspiratory-expiratory (I:E) ratio of 1:2, respiratory rate of 8-10 bpm, tidal volume of 8 mL/kg of ideal weight \[45.5 + 0.91x (height in cm-152.4)\], and PEEP of 5 cm H2O in 50% oxygen with air. Respiratory settings will be adjusted to maintain the PETCO2 at less than 50 mmHg. Anesthesia will be maintained with sevoflurane (1.5-2.5%) and intermittent injection of cisatracurium 0.02mg/kg as needed to keep the entropy scale between 40 and 60 and for muscle relaxation. The mean arterial pressure was kept between 60 and 80 mmHg. Hemodynamic Data Collection: Invasive mean arterial pressure (MAP) will be continuously recorded for 5-10 minutes post-induction. Hypotension Definition: Hypotension will be defined as a decrease in MAP by \>20% from the baseline value or an absolute MAP of \<65 mmHg for more than one minute.This definition is clinically relevant and widely used in the anesthesia literature. Postinduction hypotension will be treated with 250 ml saline iv boluse repeated if successfully restore blood pressure. If refractory to fluid we will inject intravenous ephedrine in 3 mg bolus doses and repeated when necessary. Significant bradycardia (heart rate \< 40 beats/min) will be treated with intravenous boluses of atropine (0.5 mg). Study duration 3 months or end of recruitment of sample