Effect of continuous post-operative lidocaine infusion in an enhanced recovery program on opioid use following gynecologic oncology surgery

OBJECTIVE To determine the effectiveness of implementing an Enhanced Recovery After Surgery (ERAS) program, including continuous intraoperative and postoperative intravenous (IV) lidocaine infusion, on perioperative opioid use. METHODS This was a single-institution retrospective pre- post- cohort study. Consecutive patients undergoing planned laparotomy for known or potential gynecologic malignancy were identified after implementation of an ERAS program and compared to a historical cohort. Opioid use was calculated as morphine milligram equivalents (MMEs). Cohorts were compared using bivariate tests. RESULTS A total of 215 patients were included in the final analysis, 101 patients received surgery before ERAS implementation and 114 received surgery after. A reduction in total opioid use was observed in ERAS patients compared with historical controls (MME 26.5 [9.6-60.8] versus 194.5 [123.8-266.8], p<0.001). Length of stay (LOS) was reduced by 25% in the ERAS cohort (median 3 days, range 2-26, versus 4 days, range 2-18; p<0.001). Within the ERAS cohort, 64.9% received IV lidocaine for the planned 48 hours, and 5.6% had the infusion discontinued early. Within the ERAS cohort, patients who received IV lidocaine infusion used less opioids compared to those who did not (median 16.9, range 5.6-55.1, versus 46.2, range 23.2-76.1; p<0.002). CONCLUSION An ERAS program including a continuous IV lidocaine infusion as the opioid-sparing analgesic strategy was noted to be safe and effective, leading to decreased opioid consumption and LOS compared with a historic cohort. Additionally, lidocaine infusion was noted to decrease opioid consumption even among patients already receiving other ERAS interventions.

[1]  E. Darai,et al.  Surgical Determinants of Post Operative Pain in Patients Undergoing Laparoscopic Adnexectomy , 2022, Journal of investigative surgery : the official journal of the Academy of Surgical Research.

[2]  J. Schwalb,et al.  A multisociety organizational consensus process to define guiding principles for acute perioperative pain management , 2021, Regional Anesthesia & Pain Medicine.

[3]  P. Ramirez,et al.  Outcomes of enhanced recovery after surgery (ERAS) in gynecologic oncology - A systematic review and meta-analysis. , 2020, Gynecologic oncology.

[4]  A. Smith,et al.  The use of intravenous lidocaine for postoperative pain and recovery: international consensus statement on efficacy and safety , 2020, Anaesthesia.

[5]  A. Fader,et al.  Enhanced Recovery and Surgical Optimization Protocol for Minimally Invasive Gynecologic Surgery: An AAGL White Paper. , 2020, Journal of minimally invasive gynecology.

[6]  R. Jach,et al.  Enhanced Recovery After Surgery (ERAS) in gynecologic oncology: an international survey of peri-operative practice , 2020, International Journal of Gynecological Cancer.

[7]  B. Pitcher,et al.  A Prospective Randomized Trial Comparing Liposomal Bupivacaine vs. Standard Bupivacaine Wound Infiltration in Open Gynecologic Surgery On An Enhanced Recovery Pathway. , 2020, American journal of obstetrics and gynecology.

[8]  D. Mutch,et al.  Continuous epidural infusion in gynecologic oncology patients undergoing exploratory laparotomy: The new standard for decreased postoperative pain and opioid use. , 2019, Gynecologic oncology.

[9]  O. Ljungqvist,et al.  Guidelines for perioperative care in gynecologic/oncology: Enhanced Recovery After Surgery (ERAS) Society recommendations—2019 update , 2019, International Journal of Gynecological Cancer.

[10]  Kathe P. Fox,et al.  Postsurgical prescriptions for opioid naive patients and association with overdose and misuse: retrospective cohort study , 2018, British Medical Journal.

[11]  J. Penning,et al.  Intravenous lidocaine for acute pain: an evidence-based clinical update , 2016 .

[12]  P. Kranke,et al.  Efficacy and safety of intravenous lidocaine for postoperative analgesia and recovery after surgery: a systematic review with trial sequential analysis. , 2016, British journal of anaesthesia.

[13]  D. Kushner,et al.  Transversus abdominis plane block in robotic gynecologic oncology: a randomized, placebo-controlled trial. , 2015, Gynecologic oncology.

[14]  Xiao Long,et al.  Transversus abdominis-plane block versus local anesthetic wound infiltration in lower abdominal surgery: a systematic review and meta-analysis of randomized controlled trials , 2014, BMC Anesthesiology.

[15]  P. Ewings,et al.  Feasibility study of analgesia via epidural versus continuous wound infusion after laparoscopic colorectal resection , 2013, The British journal of surgery.

[16]  Olle Ljungqvist,et al.  The enhanced recovery after surgery (ERAS) pathway for patients undergoing major elective open colorectal surgery: a meta-analysis of randomized controlled trials. , 2010, Clinical nutrition.

[17]  M. Schmelz,et al.  The impact of opioid-induced hyperalgesia for postoperative pain. , 2007, Best practice & research. Clinical anaesthesiology.

[18]  Henrik Kehlet,et al.  Management of patients in fast track surgery , 2001, BMJ : British Medical Journal.

[19]  J. Bannister,et al.  Postoperative pain relief using thoracic epidural analgesia: outstanding success and disappointing failures , 2001, Anaesthesia.

[20]  L. Havrilesky,et al.  Reduction in opioid use and postoperative pain scores after elective laparotomy with implementation of enhanced recovery after surgery protocol on a gynecologic oncology service , 2019, International Journal of Gynecological Cancer.

[21]  L. Duska,et al.  Continuous epidural infusion anesthesia and analgesia in gynecologic oncology patients: less pain, more gain? , 2015, Gynecologic oncology.