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Dexmedetomidine in Thoracoscopic Surgery: Opioid-Sparing Strategy

K

Kaohsiung Veterans General Hospital

Status

Completed

Conditions

Postoperative Pain
Opioid Use

Treatments

Drug: Dexmedetomidine

Study type

Interventional

Funder types

Other

Identifiers

NCT05431322
KSVGH22-CT2-20

Details and patient eligibility

About

Numerous studies in recent years have shown that the use of opioid-free analgesia can reduce opioid use and length of stay in the recovery room, as published in the journals Anesthesia & Analgesia1. Compared with traditional opioid analgesic anesthesia, opioid-free analgesic anesthesia can be used to reduce postoperative respiratory complications, postoperative nausea and vomiting, and postoperative opioid needs. During surgery, opioid analgesics may have immunosuppressive effects, but different anesthesia/analgesia methods will change the individual's stress response, affect the human body's cellular immunity, and may even lead to changes in angiogenesis growth factors associated with cancer recurrence, so it is likely to affect the prognosis of cancer patients. In addition, Dexmedetomidine, a highly selective alpha-2 adrenergic receptor agonist, can replace opioids for pain relief during surgery, providing superior analgesia and reducing opioid use while reducing the need for general anesthetics amount, thus avoiding suppression of immune system function. A study in the Journal of Anaesthesiology Clinical Pharmacology pointed out that Dexmedetomidine can be used to replace opioid analgesics in surgical anesthesia, and there was no difference in the use of rescue opioid analgesics during and after surgery5. Several clinical studies have shown that opioid-free anesthesia is significantly associated with a lower incidence of respiratory complications and postoperative nausea and vomiting. Therefore, general anesthesia combined with Dexmedetomidine can be regarded as an opioid-free anesthesia strategy.

Full description

Study protocol

All patients received target-controlled infusion (TCI) propofol (3-5 μg ml-1), 2% lidocaine 1.5 mg kg-1 and cisatracurium (0.15-0.2 mg kg-1) or rocuronium (0.6-1.0 mg kg-1).

During induction, the dexmedetomidine group received a loading dose of 0.5 µg kg-1 of dexmedetomidine for 10 minutes. Meanwhile, propofol TCI was started with target of bispectral index set between 40 and 60. After the loading dose was complete, tracheal intubation was performed without opioid analgesic. The following maintenance dose was set as 0.5 µg kg-1 h-1 until the specimen was excised and two-lung ventilation was performed. Dexmedetomidine was then stopped. In contrast, the conventional control group was administered an intermittent bolus dose of fentanyl (0.3-0.5 µg kg-1) to reduce stimuli before tracheal intubation.

In the maintenance phase, parecoxib (40 mg) or propacetamol (1 g) was given if indicated. Anaesthesia was maintained with TCI propofol, and the depth of anaesthesia was monitored using a bispectral index between 40 and 60. Fentanyl was used as a rescue analgesic during the operation. In both groups, when the patient's HR or mean arterial pressure (MAP) was >25% of the baseline, an intermittent bolus dose of 15-25 µg fentanyl was administered. At the end of surgery, patients received intercostal nerve block under thoracoscopy by surgeon.

Haemodynamic stabilisation was achieved in the following situations. If analgesic was administered but the MAP remained elevated at >25% of baseline, nicardipine was considered. If hypotension with MAP dropped >25% from baseline, ephedrine was considered. If bradycardia with HR dropped to <50, atropine was considered.

Pain intensity was assessed in the post-anaesthesia care unit (PACU) using a numerical rating scale (NRS) ranging from 0 to 10 every 15 minutes until 1 hour after surgery. The goal NRS score was <3. If the severity was higher than 3, an intermittent bolus of fentanyl was used. Furthermore, we recorded postoperative complications including nausea, vomiting and respiratory compromise. On the following day, we visited the patient to record complications, severity of postoperative pain and analgesia use in the general ward.

Enrollment

73 patients

Sex

All

Ages

20 to 75 years old

Volunteers

No Healthy Volunteers

Inclusion criteria

  • Age older than 20 years old and younger than 75 years old
  • Diagnosed as stage I-III non-small cell lung cancer
  • Received video-assisted thoracoscopic lung wedge resection or lobectomy

Exclusion criteria

  • Cardiac arrhythmia , such as sinus bradycardia, sinus tachycardia, or high-degree atrioventricular block
  • Diagnosed acute myocardial myocardial infarction, congestive heart failure, or stroke within one year
  • Patient have underwent coronary artery bypass graft
  • Allergy to drug such as Propofol, Sevoflurane, Dexmedetomidine, NSAID, Lidocaine)

Trial design

Primary purpose

Treatment

Allocation

Randomized

Interventional model

Parallel Assignment

Masking

Single Blind

73 participants in 2 patient groups

Total intravenous anesthesia (TIVA) + Dexmedetomidine
Experimental group
Description:
Total intravenous anesthetic drug is propofol. Dexmedetomidine is infused continuously.
Treatment:
Drug: Dexmedetomidine
Total intravenous anesthesia (TIVA)
No Intervention group
Description:
Total intravenous anesthetic drug is propofol. The ordinary pain is controlled mainly by opioids.

Trial contacts and locations

1

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Central trial contact

Kai Wei Hsieh

Data sourced from clinicaltrials.gov

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