View clinical trials related to Hypotension on Induction.
Filter by:In this clinical proof-of-concept study, the aim is to investigate the efficacy of a hypotension avoidance strategy to prevent post-induction hypotension. Specifically, it will be investigate how much postinduction hypotension occurs when using a hypotension avoidance strategy - combining continuous intraarterial blood pressure monitoring, careful administration of anesthetic drugs, and continuous administration of norepinephrine to treat hypotension - in high-risk patients having elective non-cardiac surgery.
Hypotension is a common side-effect of general anesthesia induction, and is related to adverse outcomes, including a significantly increased risk of one-year mortality. Hypovolemia is a significant risk factor, and optimized fluid therapy remains the cornerstone of its treatment. Ultrasound measurements of inferior vena cava (IVC) diameter with respiration have been recommended as rapid and noninvasive methods for estimating volume status. Several recent studies reported that preoperative IVC ultrasound has a reliable predicting ability of arterial hypotension after the induction of general anesthesia. The practical effect of optimizing fluid status before surgery using this ability has not been studied. Our hypothesis is that preoperative ultrasound-guided intravenous fluid bolus administration may reduce the incidence of hypotension after the induction of general anesthesia in adults presenting for elective non-cardiac, non-obstetric surgery
The purpose of the study is to evaluate the predictive value of the inferior vena cava collapsibility index and caval aorta index for detecting hypotension after induction of general anesthesia.
The influence of hemodynamic aberrations during anesthesia on adverse outcomes is an important clinical issue. There is evidence that hypotension and hypertension during general anesthesia are independently associated with adverse outcomes in patients having both noncardiac and cardiac surgery.One of the intervals of general anesthesia during which hypotension is prevalent is the period after the induction of anesthesia but before the onset of surgical stimulation. This period is particularly prone to decreased vigilance with regard to hemodynamic changes. Statistically significant predictors of hypotension 0-10 min after anesthetic induction included: ASA III-V, baseline MAP <70 mm Hg, age > or =50 years, the use of propofol for induction of anesthesia, and increasing induction dosage of fentanyl.While the potential preoperative factors associated with hypotension 5-10 min after the induction of anesthesia in patients with ASA I-II included baseline MAP 70 mm Hg, age > 50 years, use of propofol during induction, and magnitude of fentanyl dose during induction. Perfusion index (PI) is a relatively new parameter estimating the pulsatility of blood in the extremities, calculated using infrared spectrum as part of plethysmography waveform processing. It is a simple,cost-effective and non-invasive method of assessing peripheral perfusion determined by the percentage of pulsatile to non-pulsatile blood flow in the extremities. PI indicates the status of the microcirculation which is densely innervated by sympathetic nerves, and therefore, is affected by multiple factors responsible for vasoconstriction or vasodilatation of the microvasculature.It is an indicator of systemic vascular resistance (SVR). PI is said to be useful in monitoring depth of anesthesia, hypothermia, successful epidural placement in parturients, adequate relief from ureteric obstruction, response to fluid therapy in critically ill and intraoperative patients and adequacy of circulation in newborn.The value of PI is inversely related to the vascular tone, though not in a linear fashion. Therefore, vasodilatation reflecting higher baseline PI has been associated with reductions in blood pressure (BP) following spinal anesthesia.The resting SVR can influence incidence and severity of post-spinal hypotension in parturients. It has been established that a positive correlation between pre-anesthetic plethysmographic variability index (PVI) and reduction in BP following induction of anesthesia using propofol in healthy adults, that is, higher PVI was associated with more mean arterial pressure (MAP) reductions. Similarly, a significant proportion of hypotension after induction of anesthesia with propofol can be attributed to the baseline SVR. Mehandale SG. and Rajasekhar P. underwent A prospective observational study on fifty adults for the use of Perfusion index as a predictor of hypotension following propofol induction and revealed that a baseline PI <1.05 predicted incidence of hypotension at 5 min with sensitivity 93%, specificity 71%, positive predictive value (PPV) 68% and negative predictive value (NPV) 98%. the hypothesised was that it is possible to define a threshold baseline value of PI that predicts hypotension based on individual's pre-induction SVR in patients > 65 years old following anesthetic induction with propofol and fentanyl as multifactorial risk for postinduction hypotension. Outcomes: A cut-off value of baseline PI below which hypotension at 5 min post induction could be predicted will be the primary outcome, while positive and negative predictive values at 15 minutes will be secondary outcomes.
Comparison between ultrasound measurement of IVCD-AOd index in prediction of post induction hypo tension
Children generally undergo induction of anesthesia by inhalation of sevoflurane. Children with Down Syndrome experience bradycardia with induction of anesthesia using sevoflurane. It is unknown if this bradycardia is isolate or results in hypotension, thus requiring treatment. Isolate bradycardia without hypotension does not require treatment and should be avoided as many of these patients have underlying cardiac anomalies.
Intra operative hypotension is a risk factor in pediatric anesthesia (McCann ME et al.Pediatr Anesth 2014; 24: 68-73). In summary, the study aims at examine if ultrasound assessment of the diameter and collapsibility index of the subclavian vein is correlated to fasting time and if they are correlated to the degree of hypotension seen post anesthesia induction in children undergoing general anesthesia.
Background During anaesthesia for repair of a broken hip, many patients experience low blood pressure. There have been many studies showing that patients who experience low blood pressure during anaesthesia are at increased risk of sustaining kidney or heart damage, strokes, having a post-operative infection, or dying. During anaesthesia, in most cases blood pressure is monitored using a cuff which inflates on the arm (the 'normal' way blood pressure is measured in a GP practice or hospital ward). This gives a reading each time the cuff goes up and down, every 3-5 minutes typically. There is a less well used way to measure blood pressure, using an additional cuff on the finger which gives a constant, continuous measure of blood pressure. We think that using this monitor, rather than the 'standard' monitor, will mean that low blood pressure is recognised more quickly, therefore treated more quickly, and will lead to patients having less exposure to dangerously low blood pressures. If this is the case, we hope that it will reduce how often patients experience kidney or heart damage, have an infection after surgery, suffer a stroke, and reduce the risk of death. Methodology To test this, we would need to run a large clinical trial comparing the continuous monitor to the standard monitor. This would be expensive and involve a great deal of work in a large number of hospitals, and so first we wish to determine whether the trial we would like to run is practical, and possible to deliver in the real world. To do this we plan to run the trial first on a small-scale feasibility (pilot) study, where we will recruit 30 patients, half of whom will have the standard monitor, and half of whom will have the continuous monitor. We will see what proportion of the patients who could enter the trial actually do so and complete it, and use it as an opportunity to iron out problems with the trial. If we find it is possible to run the trial on a small scale, we will apply for funding to run a full study. This will aim to answer the question of whether the continuous monitor improves the patient outcomes which were agreed during development with the patient public involvement group locally; rate of kidney damage, heart damage, stroke, post-operative infections, risk of death, and hospital length-of-stay. Expected outcomes and implications. We anticipate we will find the trial to be feasible with amendments to the way it is run, and if this is the case, we will apply to run the full scale trial. If this shows that using the continuous monitor improves the patient outcomes above, then it would represent new, significant evidence that may lead to the NHS adopting it's use as 'standard care' during anaesthesia for repair of a broken hip, and would like lead to similar trials in other operations where patients may benefit in a similar way.
Complications are common during tracheal intubation of critically ill patients. Nearly one in five patients undergoing intubation in the intensive care unit experiences cardiovascular collapse, defined as severe hypotension, vasopressor administration, cardiac arrest or death. Cardiovascular collapse during intubation is associated with increased resource utilization and decreased survival. Administration of 500 mL of intravenous crystalloid solution beginning prior to induction may prevent cardiovascular collapse. The only prior trial examining fluid bolus administration during intubation found no effect on cardiovascular collapse or clinical outcomes overall, but a hypothesis-generating subgroup analysis suggested potential benefit to fluid bolus administration among patients receiving positive pressure ventilation between induction and laryngoscopy. Therefore, we propose a randomized trial comparing fluid bolus administration versus none with regard to cardiovascular collapse among critically adults undergoing intubation with positive pressure ventilation between induction and laryngoscopy.
The purpose of this study is to find out which of the variables related to fluid responsiveness (e. g., perfusion index [PI], pleth variability index [PVI], pulse oximetry plethysmographic variance [ΔPOP]) can best predict hypotension during induction of anesthesia.