To Explore the Optimal Dose of Dexmedetomidine for Skull Pin Fixation in Intracranial Surgery
Status:
NOT_YET_RECRUITING
Trial end date:
2025-12-31
Target enrollment:
Participant gender:
Summary
Skull pin fixation is commonly used in intracranial surgery, which can increase the surgical field of view. Because skull pin fixation is a very irritating and painful medical treatment, it often results in tachycardia (\>150-160 beats per min, bpm) and high blood pressure (BP) (\>200/120 mmHg). Many strategies to reduce this painful stimulation include oral gabapentin, local injection of local anesthetics, scalp nerve blockade, and deepening the depth of anesthesia. Oral gabapentin must take 2 hr before surgery with many adverse effects such as nausea and vomiting. Local injection of local anesthetics and scalp nerve blockade require injections by neurosurgeons. Due to the manpower and time constraints, neurosurgeons cannot perform the two techniques. Therefore, it depends on anesthesiologists to prescribe more anesthetics to attenuate this intensity painful stimulation. Usually anesthesiologists will give propofol, opioids (fentanyl, alfentanil or remifentanil), 2 agonist (dexmedetomidine or clonidine), add inhalation anesthetics (sevoflurane or desflurane), and finally even use b-blocker to reduce hemodynamic instability (hyperdynamics).
Dexmedetomidine mainly produces a sedative effect by activating 2 adrenergic receptors in the central nervous system. Its 2:1 ratio is 1620:1, showing high affinity for 2 receptors. Unlike other hypnotic drugs during death, dexmedetomidine keeps the patient in an awakenable state and does not affect respiratory function during sedation. Therefore, general anesthesia can be enhanced, providing sedation and analgesia and improving sleep quality.
Target-controlled infusion (TCI) pump systems can automatically adjust drug infusion rates based on the patient's weight, age, and other physiological parameters to achieve more precise drug concentrations. It can maintain a stable drug concentration and reduce the impact of drug fluctuations on patients, especially when long-term anesthesia or sedation is required. Therefore, using a TCI pump system to administer dexmedetomidine can ensure that the concentration we want can be accurately achieved when performing skull pin fixation. Our hospital has routinely used the Dyck mode of the TCI pump system to infuse dexmedetomidine 0.2-0.4 ng/ml during intracranial surgery.
In view of this, we wanted to observe patients undergoing intracranial surgery with skull pin fixation using the Dyck mode by the TCI pump system under the monitoring of analgesic nociceptive index and hemodynamics. In order to find out the most appropriate dexmedetomidine concentration during skull pin fixation to reduce hemodynamic fluctuations and insufficient pain management as a basis for future anesthesia.
Phase:
PHASE4
Details
Lead Sponsor:
Kaohsiung Medical University Chung-Ho Memorial Hospital