propofol and Hypotension

propofol has been researched along with Hypotension in 291 studies

Propofol: An intravenous anesthetic agent which has the advantage of a very rapid onset after infusion or bolus injection plus a very short recovery period of a couple of minutes. (From Smith and Reynard, Textbook of Pharmacology, 1992, 1st ed, p206). Propofol has been used as ANTICONVULSANTS and ANTIEMETICS.
propofol : A phenol resulting from the formal substitution of the hydrogen at the 2 position of 1,3-diisopropylbenzene by a hydroxy group.

Hypotension: Abnormally low BLOOD PRESSURE that can result in inadequate blood flow to the brain and other vital organs. Common symptom is DIZZINESS but greater negative impacts on the body occur when there is prolonged depravation of oxygen and nutrients.

Research

Studies (291)

Authors

Clinical Trials (72)

Trial Overview

Trial Outcomes

Intensive Care Unit Free Days

comparison of intensive care unit free days between the two groups (NCT02105415)
Timeframe: hospital discharge or day 28, whichever comes first

Mechanical Ventilation Free Days

comparison of mechanical ventilation free days between the two groups (NCT02105415)
Timeframe: hospital discharge or day 28, whichever comes first

Mortality

In-hospital/28 day mortality among patients in ketamine/propofol combination compared to in-hospital/28-day mortality in etomidate. (NCT02105415)
Timeframe: Hospital Discharge or Day 28, whichever comes first

Number of Participants Experiencing Delirium Using Confusion Assessment Method in ICU

Comparison of number of participants who were positive for delirium using CAM-ICU between groups (NCT02105415)
Timeframe: up to 24 hours post study drug administration

Number of Participants With Adrenal Insufficiency

Incidence of adrenal insufficiency between ketamine/propofol admixture and etomidate. Adrenal insuffiency was evaluated with co-syntropin stimulation test. (NCT02105415)
Timeframe: up to 24 hours post study drug administration

Blood Product Transfusions

blood product transfusions [Red Blood Cells vs. non-Red Blood Cells] between the two groups (NCT02105415)
Timeframe: hospital discharge or day 28, whichever comes first

Mean Arterial Pressure

Mean arterial pressure for the ketamine/propofol group at a 1:1 dose ratio compared to the etomidate group within the first 15 minutes post-administration in patients in need of urgent and/or emergent endotracheal intubation, as defined by any intubation within the intensive care unit excluding intubations for elective procedural events and codes. (NCT02105415)
Timeframe: baseline and every 5 minutes up to 15 minutes minutes post study drug administration

Vasopressor Use

The use of vasoactive medications to restore the blood pressure post-administration in the ketamine/propofol combination as compared to the etomidate group. (NCT02105415)
Timeframe: up to 24 hours post study drug administration

Bradycardia During Bronchoscopic Sedation

The percentage of patients with bradycardia (heat beat per minute less than 60) (NCT03521505)
Timeframe: After starting sedation, up to 120 minutes.

Hypotension During Bronchoscopic Sedation

The percentage of patients with hypotension (mean arterial blood pressure (MAP) less than 65 mmHg with any duration. (NCT03521505)
Timeframe: After starting sedation, up to 120 minutes.

Hypoxemia During Induction

The percentage of patients with hypoxemia (oxyhemoglobin saturation (SpO2)<90%) during induction of bronchoscopic sedation (NCT03521505)
Timeframe: After starting induction, up to 30 minutes.

Hypoxemia During Maintenance

The percentage of patients with hypoxemia (oxyhemoglobin saturation (SpO2)<90%) during maintenance of Bronchoscopic sedation (NCT03521505)
Timeframe: After starting bronchoscopy, up to 120 minutes

Procedure Time and Recovery Time

The procedure time of bronchoscopy and recovery time from sedation to awake. (NCT03521505)
Timeframe: After starting bronchoscopy, up to 120 minutes.

The Cooperation of Patients From the View of Bronchoscopists

The Cooperation of Patients will be evaluated by 100-mm visual analogue scale (VAS, 0: well cooperation, 100: worst cooperation) after recovery. (NCT03521505)
Timeframe: After recovery from sedation, up to 120 minutes

The Global Tolerance for Bronchoscopy

The Global Tolerance of patients for bronchoscopy will be evaluated by 100-mm visual analogue scale (VAS, 0: no bother, 100: worst intolerable) after recovery (NCT03521505)
Timeframe: After recovery from sedation, up to 120 minutes

The Number of Patients With Hypoxemia During Flexible Bronchoscopy

"Hypoxemia is defined as:~Oxyhemoglobin saturation (SPO2) is less than 90 % with any duration" (NCT01101477)
Timeframe: During sedative induction and bronchoscopy

Number of Participants That Have Either Bradycardia or Hypotension

Number of participants observed with Bradycardia or Hypotension who required intervention (NCT02469961)
Timeframe: Participants will be followed from the start of sedation until discharge: approximately 3-5 hr

Number of Participants That Need an Airway Intervention.

airway manipulation or repositioning: apnea, oral airway, adjust head (NCT02469961)
Timeframe: Participants will be followed from the start of sedation until discharge: approximately 3-5 hr

Post Anesthesia Care Unit (PACU) Length of Stay

length of stay in minutes in the Post Anesthesia Care Unit before discharge (NCT02469961)
Timeframe: Arrival in the PACU until discharge either to home or to a hospital in-patient bed approximately 1-3 hr after the operation

Total Narcotic Used by Each Participant

the use for morphine and/or fentanyl and or Demerol converted to morphine equivalents (NCT02469961)
Timeframe: Participants will be followed from the start of sedation until discharge: approximately 3-5 hr

SVI (Stroke Volume Index) Value Change From Baseline Level at the End of the First 25 Minutes.

After propofol infusion started, according to sedation level, TCI targets were gradually titrated to reach a state of equilibrium at the end of the first 25 minutes. SVI were continuously monitored, at the end of the first 25 minutes, value change from baseline level were calculated. (NCT01759160)
Timeframe: The end of the first 25 minutes after propofol infusion

Association by Multiple Regression Between Changes in Internal Carotid Artery Blood Flow, Mean Arterial Pressure and Cardiac Output by Treatment of Anaesthesia-induced Hypotension.

"Association by multiple regression between changes in unilateral internal carotid artery blood flow [ml/min] as outcome variable and changes in mean arterial pressure [mmHg] and cardiac output [l/min] as covariates.~Internal carotid artery blood flow [ml/min] was assessed by duplex ultrasound. Mean arterial pressure [mmHg] was recorded by a transducer connected to an arterial line. Cardiac output [l/min] was evaluated by pulse contour analysis (Modelflow) that estimates cardiac output by analysis of the arterial pressure curve taking age, gender, height and weigth into account." (NCT02951273)
Timeframe: Two measurements; one measurement during anaesthesia-induced hypotension (mean arterial pressure < 65 mmHg) before administration of phenylephrine and one measurement 3-5 min after administration of phenylephrine.

Changes in Cardiac Output From Baseline Before Induction of Anaesthesia.

Cardiac output [l/min] as evaluated continuously by pulse contour analysis of the arterial pressure curve (Modelflow). (NCT02951273)
Timeframe: Continuous measurements from before induction of anaesthesia and until 2 hours after start of surgery.

Changes in Forehead Skin Blood Flow by Development of Mesenteric Traction Syndrome (MTS).

Forehead skin blood flow [PU] assessed by laser Doppler flowmetry as compared between those patients who develop mesenteric traction syndrome (defined as flushing within 60 min after the start of surgery) and those who do not. Laser Doppler flowmetry applies a laser placed on the forehead that penetrates the skin and is scattered with a Doppler shift by the red blood cells and return to a detector that evaluates the amount of backscattered light and Doppler shift. An effect of a MTS was evaluated by a repeated measure mixed model with the fixed effects time point, group according to development of MTS, and interaction between time and group. The reported result is the interaction factor for the time point 0 min after flushing and 20 min after the start of surgery in patients who did not develop MTS. (NCT02951273)
Timeframe: Six measurements during anaesthesia; 5 min before and after incision and 0, 20, 40, and 70 min after flushing and 20, 40, 60, and 90 min after the start of surgery in those patients who do not develop mesenteric traction syndrome.

Changes in Forehead Skin Oxygenation by Development of Mesenteric Traction Syndrome (MTS).

Forehead skin oxygenation [%] assessed by laser Doppler flowmetry as compared between those patients who develop a MTS (defined as flushing within 60 min after the start of surgery) and those who do not. An effect of a MTS was evaluated by a repeated measure mixed model with the fixed effects time point, group according to development of MTS, and interaction between time and group. The reported result is the interaction factor for the time point 0 min after flushing and 20 min after the start of surgery in patients who did not develop MTS. (NCT02951273)
Timeframe: Six measurements during anaesthesia; 5 min before and after incision and 0, 20, 40, and 70 min after flushing and 20, 40, 60, and 90 min after the start of surgery in those patients who do not develop mesenteric traction syndrome.

Changes in Frontal Lobe Oxygenation by Development of Mesenteric Traction Syndrome (MTS).

Near-infrared spectroscopy determined frontal lobe oxygenation [%] as compared between those patients who develop a MTS (defined as flushing within 60 min after the start of surgery) and those who do not. An effect of a MTS was evaluated by a repeated measure mixed model with the fixed effects time point, group according to development of MTS, and interaction between time and group. The reported result is the interaction factor for the time point 0 min after flushing and 20 min after the start of surgery in patients who did not develop MTS. (NCT02951273)
Timeframe: Six measurements during anaesthesia; 5 min before and after incision and 0, 20, 40, and 70 min after flushing and 20, 40, 60, and 90 min after the start of surgery in those patients who do not develop mesenteric traction syndrome.

Changes in Heart Rate From Baseline Before Induction of Anaesthesia.

Heart rate [bpm] as recorded continuously by a transducer connected to an arterial line. (NCT02951273)
Timeframe: Continuous measurements from before induction of anaesthesia and until 2 hours after start of surgery.

Changes in Internal Carotid Artery Blood Flow by Development of Mesenteric Traction Syndrome (MTS).

Unilateral internal carotid artery blood flow [ml/min] assessed by duplex ultrasound as compared between those patients who develop a MTS (defined as flushing within 60 min after the start of surgery) and those who do not. An effect of a MTS was evaluated by a repeated measure mixed model with the fixed effects time point, group according to development of MTS, and interaction between time and group. The reported result is the interaction factor for the time point 0 min after flushing and 20 min after the start of surgery in patients who did not develop MTS. (NCT02951273)
Timeframe: Six measurements during anaesthesia; 5 min before and after incision and 0, 20, 40, and 70 min after flushing and 20, 40, 60, and 90 min after the start of surgery in those patients who do not develop mesenteric traction syndrome.

Changes in Internal Carotid Artery Blood Flow by Induction of Anaesthesia.

Unilateral internal carotid artery blood flow [ml/min] assessed by duplex ultrasound. (NCT02951273)
Timeframe: Two measurements; one measurement 5-10 min before induction of anaesthesia and one measurement 5-20 min after induction of anaesthesia.

Changes in Internal Carotid Artery Blood Flow by Treatment of Anaesthesia-induced Hypotension

Unilateral internal carotid artery blood flow [ml/min] assessed by duplex ultrasound. (NCT02951273)
Timeframe: Two measurements; one measurement during anaesthesia-induced hypotension (mean arterial pressure < 65 mmHg) before administration of phenylephrine and one measurement 3-5 min after administration of phenylephrine.

Changes in Mean Arterial Pressure From Baseline Before Induction of Anaesthesia.

Mean arterial pressure [mmHg] as recorded continuously by a transducer connected to an arterial line. (NCT02951273)
Timeframe: Continuous measurements from before induction of anaesthesia and until 2 hours after start of surgery.

Changes in Stroke Volume From Baseline Before Induction of Anaesthesia.

Stroke volume [ml] as evaluated continuously by pulse contour analysis of the arterial pressure curve (Modelflow). (NCT02951273)
Timeframe: Continuous measurements from before induction of anaesthesia and until 2 hours after start of surgery.

Changes in the CO2 Reactivity of the Internal Carotid Artery From Before to After Induction of Anaesthesia.

"Unilateral internal carotid artery blood flow [ml/min] assessed by duplex ultrasound and arterial CO2 tension (PaCO2) [kPa] was evaluated by gas analysis. Changes in PaCO2 are guided by evaluation of end-tidal CO2 tension.~The CO2 reactivity to hypocapnia when awake and during anaesthesia is calculated as the percentage change in internal carotid artery blood flow per kPa change in PaCO2. The CO2 reactivity when awake and when anaesthetized is compared." (NCT02951273)
Timeframe: Four measurements; before induction of anaesthesia during normoventilation and during hyperventilation to reduce PaCO2 by 1.5 kPa and during anaesthesia at a PaCO2 at the value before induction of anaesthesia and 1.5 kPa below that value.

Percentage of Participants in the Control Group With an Oxygen Saturation Less Than 90 % Who Responded to Rescue NIPPV

We used non-invasive positive pressure ventilation (NIPPV) as a first rescue maneuver in control patients who developed an oxygen desaturation less than 90 % and reported on the percentage of participants who responded. The rescue was considered successful with recovery of oxygen saturation more than 90 % within 3 minutes. (NCT03529461)
Timeframe: 3 minutes following a desaturation event < 90 %

Percentage of Participants With an Oxygen Desaturation Event < 90%

Percentage of participants who develop a peripheral oxygen saturation event < 90%. (NCT03529461)
Timeframe: Time in seconds beginning with the start of procedure (anesthesia induction) ending with procedure completion (eyes open to verbal stimuli).

Percentage of Participants With an Oxygen Desaturation Event ≤ 94%

Percentage of participants who develop a peripheral oxygen saturation measured by pulse oximetry ≤ 94% (NCT03529461)
Timeframe: Time in seconds beginning with the start of procedure (anesthesia induction) ending with procedure completion (eyes open to verbal stimuli).

Number of Participants Who Experience Airway Maneuvers

In high risk patients (meeting at least of 1 of 3 criteria: ASA ≥ 3, BMI ≥ 30, those at risk for OSA) undergoing advanced endoscopy procedures, compare the number of participants who experience airway maneuvers (AMs) when sedated with propofol alone versus propofol in combination with benzodiazepines and opioids. (NCT01315158)
Timeframe: One day (during procedure)

Number of Participants Who Experience Other Sedation Related Complications

Compare the number of participants who experience other sedation related complications such as hypotension, hypoxemia and need for termination of the procedure between the two groups (NCT01315158)
Timeframe: One day (during procedure)

Number of Participants Who Experience Symptoms of Nausea and Vomiting Will be Compared Between the Two Groups

The number of participants who experience symptoms of nausea and vomiting in the two groups of patients will be recorded. This will be recorded during the follow-up phone call made 24-48 hours after the procedure. (NCT01315158)
Timeframe: 24-48 hours

Predictors of Sedation Related Complications as Measured by Early Procedure Termination for an Alternative Sedation Related Complication

(NCT01315158)
Timeframe: One year

Predictors of Sedation Related Complications as Measured by Hypopnea/Apnea (Defined as Fewer Than 6 Breaths/Minute Based on Capnography)

(NCT01315158)
Timeframe: One year

Predictors of Sedation Related Complications as Measured by the Incidences of Hypotension (Defined as Systolic Blood Pressure of Less Than 90mmHg or a Decrease of More Than 25% From Baseline)

(NCT01315158)
Timeframe: One year

Predictors of Sedation Related Complications as Measured by the Number of Participants Who Experience Hypoxemia (Defined as a Pulse Oximetry <90% for Any Duration)

(NCT01315158)
Timeframe: One year

Reviews

23 reviews available for propofol and Hypotension

Trials

127 trials available for propofol and Hypotension