TABLE IX.B.4.
Pain management after sleep surgery
| Study | Year | LOE | Study design | Study groups | Clinical endpoint | Conclusion |
|---|---|---|---|---|---|---|
| Diakos et al.1577 | 2011 | 1a | SR | RCTs (n = 580) with adults undergoing tonsillectomy where peri-operative steroids were used | Pain level compared dexamethasone use with control or placebo | Dexamethasone significantly reduced pain and postoperative nausea and vomiting in adults undergoing tonsillectomy. |
| Mason et al.1425 | 2015 | 1a | SR | RCTs (n = 293) with adult OSA patients where participants were randomly assigned to use opiates or opioids, sedatives, hypnotics, or placebo | Effect on OSA severity | No evidence suggests that the pharmacological compounds assessed have a deleterious effect on the severity of OSA as measured by change in AHI or ODI. Significant clinical and statistical decreases in minimum overnight SpO2 were observed with remifentanil, zolpidem 20 mg and triazolam 0.25 mg. |
| Tolska et al.1583 | 2019 | 1a | SR | RCTs (n = 1816) reporting on analgesics and dexamethasone for post-tonsillectomy pain in adults and adolescents (>13 years) | Pain intensity | Paracetamol, gabapentinoids, and dexamethasone reduced pain on the day of surgery. Ketoprofen, ibuprofen, indomethacin, lornoxicam, parecoxib, rofecoxib, and dextromethorphan reduced pain intensity, need for rescue analgesics, or both on the day of surgery. Dexamethasone in multiple doses provided analgesia beyond the first postoperative day. |
| Titirungruang et al.1578 | 2019 | 1a | SR | RCTs (n = 6327) of steroids in adults and children who underwent tonsillectomy | Pain, nausea/vomiting, hemorrhage outcomes | IV steroids significantly decreased immediate postoperative pain severity, as well as nausea/vomiting. |
| Yang et al.1569 | 2015 | 1b | RCT | OSA patients (n = 260, 65 in each group) who underwent H-UPPP 1. Intranasal butorphanol 2. Intravenous butorphanol 3. Intranasal fentanyl 4. Intravenous saline (control) |
Postoperative day 1, 6, 12, 18, 24, 36, 48 – hour pain scores: VAS and Brureggemann comfort scale Cognitive dysfunction evaluated by Mini-Mental Status Examination assessed 1 day before, and 1, 3, and 7 days postoperatively |
Intranasal administration of butorphanol is safe and effective, reducing postoperative usage of analgesic and the incidence of postoperative cognitive dysfunction in patients undergoing H-UPPP. |
| Huang et al.1549 | 2009 | 1b | RCT | OSA patients (n = 12) who underwent UPPP 1. Transasal butorphanol (n = 7) 2. Oral mefenamic acid and intramuscular meperidine (n = 5) |
Pain scores at 12, 24, 72-h postoperatively VAS Clinical Global Impression in Severity and Improvement Postoperative pain-related morbitidies (PRM) and quality of life in bodily pain (QOL-BP) were evaluated 72-h postoperatively |
Transnasal butorphanol can safely alleviate wound pain after UPPP. No significant difference in degree of pain relief was found between the two groups. |
| Lee et al.1570 | 2007 | 1b | RCT | Patients who underwent surgical OSA treatments (n = 90, 45 in each group) 1. Intravenous ketorolac 2. Oral mefenamic acid and intramuscular meperidine |
Postoperative discomfort by self-assessment questionnaire on 1st and 3rd days after surgery Patient satisfaction with postoperative pain treatment evaluated at 1 month postoperatively |
Short-term administration of intravenous ketorolac is noninferior to the conventional regimen and represents a safe treatment for wound pain after OSA surgery. |
| Xie et al.1572 | 2013 | 1b | RCT | UPPP patients (n = 40, 20 in each group) randomized to two groups 1. local block with ropivacaine + saline 2. local block with ropivacaine + intra- and postoperative parecoxib infusion |
VAS pain score at 24 and 48 h after surgery; postoperative adverse effects | Intravenous parecoxib combined with incision-local ropivacaine provided effective postoperative analgesia. |
| Li et al.1571 | 2014 | 1b | RCT | UPPP patients (n = 50, 25 in each group) randomized to 2 groups 1. submucosal infiltration of ropivacaine + epinephrine 2. submucosal infiltration of saline + epinephrine |
Cumulative patient-controlled morphine consumption, VAS scores at 4, 8, 12, 24, 48 h postoperatively at rest and with swallowing, opioid-related adverse effects | Patients who received preemptive submucosal infiltration with 0.33% ropivacaine expressed significantly decreased pain scores and also demonstrated lower morphine consumption postoperatively. |
| Chawla et al.1576 | 2010 | 3b | Retrospective case–control | Patients who underwent OSA surgery (n = 268) 1. Dexmedetomidine used (n = 125) 2. Dexmedetomidine not used (n = 143) |
Mean arterial pressure Use of anti-hypertensives Use of opioids | Dexmedetomidine improves hemodynamic stability in patients undergoing sleep surgery. No difference was noted in opioid dosage between case and control groups. |