The purpose of this study is to compare the risk of hypotension following induction of anesthesia in high-risk patients (American Society of Anesthesiologists risk scores III and IV) using target-controlled infusion (TCI) of propofol versus standard manual induction of anesthesia. Our previously published study compared TCI and manual induction of anesthesia in a general patient population and found that hypotension developed less with TCI induction. This study is a continuation of the other study and will be conducted in high-risk patients.
Hypotension after induction of anesthesia is a very common condition. Despite well-known risk factors and advanced monitoring techniques, hypotension after induction of anesthesia occurs in approximately 30% of patients. The risk of hypotension increases in patients with comorbidities such as hypertension, heart failure, renal failure, diabetes mellitus, patients with high ASA (American Society of Anesthesiologists ) risk scores, geriatric patients, patients undergoing major surgery, and patients with prolonged fasting periods. In order to prevent post-induction hypotension, the risk factors of the patient (such as comorbidities, and surgery) cannot be changed, but this risk can be reduced with different anesthesia induction techniques. Since anesthetic agents are administered at a fixed dose and rate adjusted according to the patient's weight in standard anesthesia induction, it may cause hypotension in patients with low cardiovascular performance. The fall in blood pressure is due to a decrease in systemic vascular resistance or cardiac output and may be increased by the concomitant use of other drugs such as remifentanil. Target-controlled infusions (TCI) have been developed to overcome these drawbacks of standard anesthesia induction and maintenance. TCI systems enable titration of anesthetic agents according to the needs of each patient by using pharmacokinetic models through perfusers with special microprocessors. With these features, TCI can provide better control of hemodynamic variations during induction and maintenance of anesthesia. Patients will undergo hemodynamic monitoring using the pressure analytic recording method (PRAM). The functional hemodynamic data provided by this monitoring technique will allow us to better analyze the causes and consequences of hypotension. In this study, investigators aimed to monitor and compare the hemodynamic effects of TCI induction and manual anesthesia induction through PRAM parameters by monitoring patients with high ASA scores before and after induction. Investigators anticipate that these 2 technologies (TCI and PRAM) can provide a better hemodynamic profile in the high-risk patient group with high ASA scores thanks to the advanced monitoring provided to the patient in our anesthesia practice.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
SCREENING
Masking
NONE
Enrollment
200
In manual anesthesia induction, anesthetic agents are administered at a fixed dose and rate adjusted according to the patient's weight
Target controlled infusion (TCI) system aims to reach the theoretically targeted blood or brain concentration of anesthetic agents based on the patient's age, weight, and height, with computer-assisted algorithms.
The pulse contour device MostCare (Vytech, Vygon, Padova, Italy) provides functional hemodynamic monitoring using the pressure recording analytical method.
Acibadem Altunizade Hospital
Istanbul, Turkey (Türkiye)
RECRUITINGSystolic arterial pressure (SAP), measured before and after anesthesia induction was assessed to determine of post-induction hypotension in patients undergoing general anesthesia induction with TCI (target controlled infusion) or manual
Systolic arterial pressure (SAP- mm/Hg) was monitored using the uncalibrated pulse contour device MostCare (Vytech, Vygon, Padova, Italy). SAP is a parameter used to assess the pressure of the arterial system during cardiac systole
Time frame: The duration of the study was defined from one minute before induction to 10 minutes after induction
Diastolic arterial pressure (DAP), measured before and after anesthesia induction was assessed to determine of post-induction hypotension in patients undergoing general anesthesia induction with TCI (target controlled infusion) or manual
Diastolic arterial pressure (DAP, mm/Hg) was monitored using the uncalibrated pulse contour device MostCare (Vytech, Vygon, Padova, Italy). DAP is a parameter used to assess the pressure of the arterial system during cardiac diastole
Time frame: The duration of the study was defined from one minute before induction to 10 minutes after induction
Mean arterial pressure (MAP), measured before and after anesthesia induction was assessed to determine of post-induction hypotension in patients undergoing general anesthesia induction with TCI (target controlled infusion) or manual
Mean arterial pressure (MAP, mm/Hg) was monitored using the uncalibrated pulse contour device MostCare (Vytech, Vygon, Padova, Italy). MAP is a parameter used to assess organ perfusion
Time frame: The duration of the study was defined from one minute before induction to 10 minutes after induction
Arterial elastance (Ea) measured before anesthesia induction was investigated whether is a predictive parameter for post-induction hypotension in patients undergoing general anesthesia with TCI or manual
Ea ((mmHg m-2ml-1)is an indicator of cardiac afterload and arterial tone and can be calculated by the ratio of the end-systolic pressure (ESP) and stroke volume (SV) obtained from arterial wave analysis. Ea was monitored using the uncalibrated pulse contour device MostCare (Vytech, Vygon, Padova, Italy) before the anesthesia induction
Time frame: The duration of the study was defined from one minute before induction to 10 minutes after induction
Stroke volume variation (SVV), measured before anesthesia induction were assessed for prediction of post-induction hypotension in patients undergoing general anesthesia induction with TCI and manual
Stroke volume variation (SVV,%), was monitored using the uncalibrated pulse contour device MostCare (Vytech, Vygon, Padova, Italy). SVV is a parameter used to asses cardiac preload and fluid responsiveness
Time frame: The duration of the study was defined from one minute before induction to 10 minutes after induction
Pulse pressure variation (PPV), measured before anesthesia induction were assessed for prediction of post-induction hypotension in patients undergoing general anesthesia induction with TCI or manual
Pulse pressure variation (PPV,%) was monitored using the uncalibrated pulse contour device MostCare (Vytech, Vygon, Padova, Italy). PPV is a parameter used to asses cardiac preload and fluid responsiveness.
Time frame: The duration of the study was defined from one minute before induction to 10 minutes after induction
Cardiac power output (CPO), measured before anesthesia induction were assessed for prediction of post-induction hypotension in patients undergoing general anesthesia induction with TCI or manual
Cardiac power output (CPO, Watt) was monitored using the uncalibrated pulse contour device MostCare (Vytech, Vygon, Padova, Italy). CPO is a parameter used to asses cardiac reserve
Time frame: The duration of the study was defined from one minute before induction to 10 minutes after induction
Cardiac index (CI), measured before anesthesia induction were assessed for prediction of post-induction hypotension in patients undergoing general anesthesia induction with TCI or manual
Cardiac index (CI, L/min/m2), was monitored using the uncalibrated pulse contour device MostCare (Vytech, Vygon, Padova, Italy). CI is a parameter used to asses cardiac stroke volume
Time frame: The duration of the study was defined from one minute before induction to 10 minutes after induction
Dp/Dt, measured before anesthesia induction were assessed for prediction of post-induction hypotension in patients undergoing general anesthesia induction with TCI or manual
Dp/Dt(mmHg/msn), was monitored using the uncalibrated pulse contour device MostCare (Vytech, Vygon, Padova, Italy). Dp/Dt is a parameter used to asses cardiac contractility
Time frame: The duration of the study was defined from one minute before induction to 10 minutes after induction
Heart rate (HR), measured before anesthesia induction were assessed for prediction of post-induction hypotension in patients undergoing general anesthesia induction with TCI or manual
Heart rate (HR/bpm) was monitored using the uncalibrated pulse contour device MostCare (Vytech, Vygon, Padova, Italy). HR is a parameter used to assess the cardiac rate.
Time frame: The duration of the study was defined from one minute before induction to 10 minutes after induction
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