Description

Aim To evaluate the effects of opioid sparing care pathways compared to conventional opioid-based treatment for pain relief, opioid consumption, recovery after surgery, self-efficacy and health economy in patients undergoing obesity surgery. The aim will be investigated by a prospective, randomized, non-blinded, non-commercial multi-centre study(Nov 2018-Dec 2022), approved by the Swedish Medicines Agency (EU-CT 2023-505934-86-00) and the ethical review board (DNR 1006-17).

Hypothesis 1. An opioid-free care pathway provides non-inferior pain relief as the conventional care with opioids during the post-operative phase.

Primary endpoints: Determine the quality of recovery after surgery

1\. No difference in pain (NRS pain (0-10)) between opioid-free intervention with or without (Phase 1 \& 2) person-centred care and conventional treatment (control group) during the postoperative phase until discharge to the surgical ward.

Secondary endpoints:

An opioid-sparing treatment provides improved combined outcomes (composite score) consisting of 1) Self-Efficacy, 2) Postoperative Quality of Recovery Scale (PQRS), hospital readmission, or death at 3 months compared to conventional treatment.

An opioid-sparing treatment results in reduced opioid consumption during the peri- and postoperative period until discharge to the ward compared to conventional treatment.

An opioid-sparing treatment results in reduced opioid consumption throughout the hospital stay compared to conventional treatment.

An opioid-sparing treatment results in decreased pain experience according to the Numeric Rating Scale (NRS) at 3 months and 6 months compared to conventional treatment.

An opioid-sparing treatment leads to earlier recovery after surgery measured with PQRS compared to conventional treatment postoperatively (20 minutes, 40 minutes), during hospitalization (24-72 hours), and thereafter (14 days, 30 days, 3 months, 6 months, 12 months, and 24 months).

An opioid-sparing treatment increases confidence in coping with unexpected events measured with the General Self-Efficacy Scale compared to conventional treatment after the in-hospital period (3 months, 6 months, 12 months, 24 months).

An opioid-sparing treatment improves quality of life measured with RAND-36 and EQ5D compared to conventional treatment after the in-hospital period (3 months, 6 months, 12 months, 24 months)

An opioid-sparing treatment results in equivalent length of hospital stay compared to conventional treatment during the in-hospital period.

Mapping of long-term prescription of analgesic drugs. Does an opioid-sparing treatment impact the long-term use of analgesic medications.

Explorative endpoints:

Describe the intraoperative nociception level between opioid-free anaesthesia and conventional anaesthesia using the Medasense PMD-200 (NOL) monitor.

Economic evaluation: Performing cost-utility analysis/ cost-effectiveness analyses.

Power Pain: To determine noninferiority with a power of 0.8 (i.e., the probability of \> 0.8 for the lower limit of a two-sided 95% confidence interval (using Fisher's nonparametric permutation test)), the difference of change in pain using the NRS from arrival to the recovery unit after surgery to discharge from the recovery unit will be used. Forty-three patients are required in each group and phase, with an SD for the change in the NRS estimated to be 1.62 from a small pilot study (noninferiority margin -1.0). The estimated change was assumed to be equal in the groups. To compensate for a potential interruption in the study or dropouts, we chose to include 55 patients in Intervention Phase 1, 55 patients in Intervention Phase 2 and a total of 110 patients in the control group (to follow intervention Phases 1 and 2, each 55 patients).

Recovery after surgery: To detect an overall difference in the quality of recovery between groups over the entire study length, with a power of 0.8 and P \< 0.05 and taking into consideration a dropout of over 30% as seen in other studies using the PQRS, we need to include at least 30 patients in each group 26.

The control group will receive usual care and treatment according to the hospital's routines, where pain relief is obtained with opioids postoperatively. Pharmacological treatment in the intervention group differs solely from the patients in the usual group by replacing opioids with the following nonopioid perioperative treatment: dexmedetomidine, esketamine, lidocaine and TENS (for exact dosing, please visit EU-CT 2023-505934-86-00). Postoperative patient-controlled pain treatment with high-intensity/high-frequency TENS is used if the patient perceives pain over NRS ≧ 3 postoperatively and during remaining hospitalisation.

Intervention Phase 1 tests the pharmacological and non-pharmacological interventions (TENS) compared to the control group that receives standard care with opioids intra- and postoperatively. Phase 2 intervention that follows after completion of Phase 1 intervention tests the pharmacological and nonpharmacological interventions compared to conventional treatment, supplemented by an evidenced-based PCC approach throughout the continuum of postoperative care.

The two phases will primarily be analysed separately (i.e., between the control group and intervention Phase 1 and between the control group and intervention Phase 2).