Comparison Of The Effects Of Melatonin Premedication And Ketamine On Postoperative Sleep Quality İn Rhinoplasty

Participants Patients aged 18-65 years with an ASA score of I-II were included. Exclusion criteria were body mass index (BMI) ≥ 30 kg/m², obstructive sleep apnea syndrome (OSAS), psychiatric disorders, renal failure, liver failure, cardiovascular disease, malignancy, pregnancy, or allergies to melatonin or ketamine. Randomization (1:1:1) was achieved via sealed opaque envelopes.

Interventions Patients were premedicated in the preoperative holding area 60 minutes before induction with intravenous midazolam (0.01 mg/kg), and subjects in Groups M and MK additionally received oral melatonin (0.1 mg/kg). After premedication, each patient was transferred to the operating theater, where continuous electrocardiography, pulse oximetry, noninvasive arterial pressure monitoring, and neuromuscular transmission (NMT) monitoring were applied. Anesthesia was induced with intravenous propofol (2 mg/kg), lidocaine (1 mg/kg), and rocuronium (0.6 mg/kg); at this point, patients in Groups K and MK received a supplemental ketamine bolus (0.3 mg/kg). Following confirmation of full neuromuscular blockade (train-of-four ratio = 0 %) and adequate hypnotic depth, endotracheal intubation was performed. Anesthesia was maintained with sevoflurane (0.5-1.0 minimum alveolar concentration [MAC] at a fresh gas flow of 1 L/min) and a remifentanil infusion (0.1-0.3 µg/kg/min). Dosages were titrated to maintain heart rate and systolic arterial pressure within 20-30 % of baseline values, ensuring mean arterial pressure did not fall below 50 mmHg.

Hemodynamic variables-including heart rate, systolic and diastolic arterial pressures, and mean arterial pressure-were recorded at four predefined time points: baseline (pre-induction), immediately post-intubation, at 30-minute intervals intraoperatively, and post-extubation. Thirty minutes before the end of surgery, postoperative analgesia was initiated with tramadol (2 mg/kg) and paracetamol (10 mg/kg) administered as slow intravenous boluses; ondansetron (0.1 mg/kg IV) was given prophylactically for nausea. Neuromuscular blockade was reversed, if necessary, with sugammadex to achieve a train-of-four ratio ≥ 90 %, and patients were extubated once adequate spontaneous ventilation and consciousness had returned. The extubation interval (time from anesthetic discontinuation to return of consciousness) and total surgical duration were documented. In the post-anesthesia care unit (PACU), nausea, vomiting, and pain scores were assessed; patients with moderate to severe nausea or vomiting received an additional 0.1 mg/kg ondansetron IV, and those reporting a resting numerical rating scale (NRS) pain score > 4 were given meperidine (0.5 mg/kg IV) as rescue analgesia. Finally, at 21:00 on postoperative day 1, Groups M and MK received a second oral dose of melatonin (0.1 mg/kg), and sleep quality and pain were re-evaluated at the bedside.

Outcomes Sleep quality was evaluated on the night preceding surgery and on the first postoperative night using the Richards-Campbell Sleep Questionnaire (RCSQ), which exhibits high internal consistency (Cronbach's α = 0.82) and correlates moderately with polysomnography. The RCSQ comprises five domains-sleep depth, sleep latency, number of awakenings, sleep efficiency, and overall sleep quality-each rated on a 0-100 mm visual analog scale, with higher scores indicating better sleep. Postoperative pain intensity was measured in the post-anesthesia care unit (PACU) and at 24 hours after surgery using an 11-point Numeric Rating Scale (NRS; 0 = no pain, 10 = worst imaginable pain).

Postoperative complications were recorded prospectively as follows: cough severity was graded by the Cough Severity Score (0 = none; 1 = mild; 2 = moderate; 3 = severe; 4 = very severe); apnea was defined as absence of a respiratory waveform for ≥ 10 seconds on capnography; desaturation was identified when SpO₂ fell below 90 % on continuous pulse oximetry; laryngospasm was classified according to the Laryngospasm Severity Scale (grade 1 = mild retraction; grade 2 = intercostal retractions; grade 3 = complete airway obstruction); and vomiting was quantified using the Rhodes Index of Nausea, Vomiting, and Retching (INVR). Finally, the Aldrete score was documented immediately before PACU discharge, and the interval from PACU admission to attainment of the discharge criterion was recorded.

Statistical Analysis Statistical analyses were performed using IBM SPSS Statistics v23.0 (IBM Corp., Armonk, NY, USA). Categorical variables are reported as frequencies and percentages and were compared by Pearson's chi-square or Fisher's exact test, as appropriate. Continuous variables were first assessed for normality using the Shapiro-Wilk test. Variables conforming to a normal distribution are presented as mean ± standard deviation and compared by one-way analysis of variance (ANOVA); homogeneity of variances was verified with Levene's test, and post hoc pairwise comparisons were conducted using Tukey's honestly significant difference or Games-Howell tests, as dictated by variance equality. Non-normally distributed variables are expressed as median (interquartile range) and were analyzed via the Kruskal-Wallis H test followed by Dunn's multiple-comparison test with Bonferroni adjustment. Sample size estimation using G*Power 3.1 (α = 0.05; 1 - β = 0.85; effect size f = 0.25) indicated that 60 patients per group were required. To allow for an anticipated 10% attrition rate, 200 patients were recruited; 17 were subsequently excluded (did not meet inclusion criteria or declined to participate), yielding a final sample of 183 participants.