This clinical trial aims to learn the impact of dexmedetomidine on the minimum alveolar concentration blunting the adrenergic response (MAC-BAR) of sevoflurane to carbon dioxide pneumoperitoneum in patients undergoing laparoscopic cholecystectomy. It will also learn about the effect of dexmedetomidine on hemodynamic parameters. The main questions are: * Does dexmedetomidine reduce the MAC-BAR of sevoflurane required to suppress the sympathetic response to carbon dioxide pneumoperitoneum? * Would dexmedetomidine administration dose-dependently reduce the minimum alveolar concentration blunting the adrenergic response of sevoflurane required to suppress the sympathetic response to carbon dioxide pneumoperitoneum? Researchers will compare low-dose dexmedetomidine to high-dose dexmedetomidine to see if dexmedetomidine works to treat postoperative negative behavior change and emergence delirium. Participants will: * Take intravenous dexmedetomidine or 0.9% saline (a look-alike substance that contains no drug) * Study drug infusions were initiated 15 minutes prior to anesthesia induction, allowing a minimum of 30 minutes to elapse before surgical incision to achieve steady-state plasma and brain concentrations.
Laparoscopic (minimally invasive) surgery has several advantages over open surgery, including less tissue damage, faster recovery, and fewer complications. This has led to widespread use of laparoscopic techniques. However, the inflated carbon dioxide gas used to create the surgical space during laparoscopic surgery causes significant changes in the body's normal blood pressure and heart function. The anesthetic drug sevoflurane is commonly used during these procedures, but higher doses are needed to adequately block the body's stress response to the inflated gas. The minimum alveolar concentration blunting the adrenergic response (MAC-BAR) measures the minimum anesthetic depth required to suppress the sympathetic/stress response in 50% of patients. Doctors use MAC-BAR values to help determine the appropriate anesthetic dose to maintain hemodynamic stability. Unfortunately, using higher sevoflurane doses to reach the necessary MAC-BAR increases the risk of low blood pressure, reduced heart function, and confusion after surgery. The drug dexmedetomidine has properties that can help manage the body's stress response during surgery. Researchers wanted to see if dexmedetomidine could allow the use of lower, more stable doses of sevoflurane during laparoscopic procedures by reducing the body's reaction to the inflated gas. The goal of this study was to evaluate how dexmedetomidine affects the MAC-BAR of sevoflurane needed to block the sympathetic/stress response to the inflated gas used in laparoscopic surgery.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
QUADRUPLE
Enrollment
90
The low-dose dexmedetomidine group received a 75 μg/h loading dose over 15 minutes, followed by 60 μg/h maintenance infusion intravenously.
The control group received volume-matched 0.9% saline infusions at identical rates.
The high-dose dexmedetomidine group received a 150 μg/h loading dose over 15 minutes, followed by 120 μg/h maintenance infusion intravenously.
Fujian Provincial Hospital
Fuzhou, Fujian, China
RECRUITINGMinimum alveolar concentration of sevoflurane to block the adrenergic response (MAC-BAR)
The MAC-BAR of sevoflurane for each group was determined using an up-and-down sequential allocation technique. One minute after establishing a stable pneumoperitoneum, the sympathetic adrenergic response was evaluated by changes in heart rate and mean artery pressure from pre-insufflation baseline values. A positive response was defined as a ≥ 20% increase in either heart rate or mean artery pressure from baseline.
Time frame: Within 30 minutes after intubation
Change in mean arterial pressure
Change in blood pressure was calculated as the difference between pre-pneumoperitoneum and post-pneumoperitoneum. Pre-pneumoperitoneum mean arterial pressure was averaged from 3 and 1 minutes baseline values, while post-pneumoperitoneum value was averaged over 1 and 3 minutes after establishing insufflation.
Time frame: Upon arrival in the operating room, at 3, 1 minutes before pneumoperitoneum and 1, 3 minutes after pneumoperitoneum
Change in heart rate
Change in blood pressure was calculated as the difference between pre-pneumoperitoneum and post-pneumoperitoneum. Pre-pneumoperitoneum heart rate was averaged from 3 and 1 minutes baseline values, while post-pneumoperitoneum value was averaged over 1 and 3 minutes after establishing insufflation.
Time frame: Upon arrival in the operating room, at 3, 1 minutes before pneumoperitoneum and 1, 3 minutes after pneumoperitoneum
Incidence of adverse events
Adverse events such as bradycardia, tachycardia, hypertension, hypotension, and hypoxia will be recorded during the trial.
Time frame: Up to 24 hours postoperatively
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