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Objectives: To compare free-opioid anesthesia (the combination of epidural anesthesia, intravenous lidocaine, ketamine, propofol, and sevoflurane) and opioid anesthesia (fentanyl, propofol and sevoflurane) regarding intraoperative analgesic efficacy in colectomies and rectal resections at Viet Tiep Friendship Hospital.
Methods: A prospective, randomized controlled clinical trial was performed on 98 patients who were anesthetized for colorectal surgery from December 2019 to November 2021. Patients were randomized into 2 groups: Group OA - Opioid anesthesia (n = 49): Intraoperative pain control by fentanyl; FOA group - Free-opioid anesthesia (n = 49): Intraoperative pain control by continuous infusion of lidocaine, bolus doses of ketamine combined with epidural levobupivacaine.
After being placed an epidural catheter and given a bolus dose of dexamethasone 0.1 mg/kg, patients was endotracheal anesthetized with propofol 1% 2-2.5 mg/kg, rocuronium 0.6 mg/kg. Intubation was implemented when TOF (Train Of Four)=0 and RE (Response Entropy), SE (State Entropy) ≤ 60. Patients in OA group received a bolus dose of fentanyl 2 µg/kg before induction of anesthesia while those in FOA group received bolus doses of lidocaine 1 mg/kg and ketamine 0.5 mg/kg. In FOA group, lidocaine 10% was sprayed on the patients glottis to facilitate intubation.
For anesthesia maintenance, in group OA, a bolus dose of fentanyl 3 µg/kg was given 5 minutes before skin incision, and then a continuous infusion of fentanyl 2 µg/kg/h was maintained for intraoperative pain management; fentanyl 0.5 μg/kg was bolused when SPI (Surgical Pleth Index) > 50, 40 < SE < 60, TOF = 0 and the patient was hemodynamically stable. Propofol and fentanyl were discontinued at the start of skin closure. In FOA group, patients received intraoperative multimodal analgesia, in which an epidural bolus of 3 - 5 ml of levobupivacaine 0.1% was followed by a continuous infusion of 3 - 5 ml/h epidurally; in addition, intravenous infusion of lidocaine 1 mg/kg/hour and ketamine 0.25 mg/kg/h were maintained until the end of surgery. Patients were given a bolus of 3-5 ml levobupivacaine 0.1% epidurally and ketamine 0.25 mg/kg intravenously if SPI > 50, 40 < SE < 60, TOF = 0 and hemodynamics was stable.
For all patients, anesthesia was maintained by volatile anesthetics (Sevoflurane or Desflurane) to ensure 40 < SE < 60, and rocuronium 0.2 mg/kg was repeated when TOF = 2 (the last injection of neuromuscular blockade was not given when the estimated duration from the point of injection to the point of abdominal closure is shorter than 20 minutes). Mechanical ventilation was provided with a tidal volume 6-8 ml/kg in the volume-controlled mode and respiratory rate at 10-12 breath/minute, FiO2 (Fraction of inspired oxygen)=50%. Peak airway pressure was maintained within the range of 12-16 cmH2O and EtCO2 (End-tidal Carbon dioxide) was kept from 35 to 40 mmHg with a fresh gas flow of 1.2 - 2 liters/minute. At the end of surgery, reversal of neuromuscular blockade was performed with neostigmine combined with atropine, and extubation was carried out when patients met the criteria. Postoperative pain management was implemented with patient-controlled epidural levobupivacaine 0.1% for 72 hours, and pain rescue with fentanyl 0.5 μg/kg.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Free-opioid anesthesia | Experimental | 49 patients were injected bolus doses of lidocaine 1 mg/kg and ketamine 0.5 mg/kg before induction. Then intravenous propofol 1% 2-2.5 mg/kg, rocuronium 0.6 mg/kg were utilized for induction. For anesthesia maintenance, patients received intraoperative multimodal analgesia, in which an epidural bolus of 3 - 5 ml of levobupivacaine 0.1% was followed by a continuous infusion of 3 - 5 ml/h epidurally; in addition, intravenous infusion of lidocaine 1 mg/kg/hour and ketamine 0.25 mg/kg/h were maintained until the end of surgery. Patients were given a bolus of 3-5 ml levobupivacaine 0.1% epidurally and ketamine 0.25 mg/kg intravenously if SPI > 50, 40 < SE < 60, TOF = 0 and hemodynamics was stable. Postoperative pain management was implemented with patient-controlled epidural levobupivacaine 0.1% for 72 hours, and pain rescue with fentanyl 0.5 μg/kg. |
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| Opioid anesthesia | Active Comparator | 49 patients received a bolus dose of fentanyl 2 µg/kg before induction of anesthesia. For anesthesia maintenance, in group OA, a bolus dose of fentanyl 3 µg/kg was given 5 minutes before skin incision, and then a continuous infusion of fentanyl 2 µg/kg/h was maintained for intraoperative pain management; fentanyl 0.5 μg/kg was bolused when SPI (Surgical Pleth Index) > 50, 40 < State Entropy (SE) < 60, Train of four (TOF) = 0 and the patient was hemodynamically stable. Propofol and fentanyl were discontinued at the start of skin closure. Postoperative pain management was implemented with patient-controlled epidural levobupivacaine 0.1% for 72 hours, and pain rescue with fentanyl 0.5 μg/kg. |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Free-opioid anesthesia | Procedure | Free opioid anesthesia (FOA) has been used in many countries around the world, making use of multimodal analgesia therapy which includes hypnotics, N-methyl-D-aspartate (NMDA) antagonists, local anesthetics and anti-inflammatory agents and sympathetic block in surgery. This method was demonstrated to contribute to enhanced recovery after surgery (ERAS). The use of long-acting local anesthetics also enhances postoperative pain relief. As a result, the concept of balanced anesthesia now has a change in three basic components: hypnotics, muscle relaxants and sympathomimetic inhibitors |
| Measure | Description | Time Frame |
|---|---|---|
| analgesic efficacy of free-opioid anesthesia | intraoperative alteration of Surgical Pleth Index (SPI). The Surgical Pleth Index (SPI) is an objective tool that can reflect nociception-antinociception balance and guide the use of intraoperative analgesics. The values of the SPI range from 0 to 100. During general anaesthesia, maintaining a value between 20 and 50 is generally recommended. When the SPI value is greater than 50 and exceeds 3-5 min, it routinely indicates that the noxious stimulation is too strong and that additional analgesic drugs are needed. | before induction of anesthesia |
| analgesic efficacy of free-opioid anesthesia | intraoperative alteration of Surgical Pleth Index (SPI) | After intubation |
| analgesic efficacy of free-opioid anesthesia | intraoperative alteration of Surgical Pleth Index (SPI) | After skin incision |
| analgesic efficacy of free-opioid anesthesia | intraoperative alteration of Surgical Pleth Index (SPI) | when the restoration of eyelids reflex emerged |
| analgesic efficacy of free-opioid anesthesia | The number of times of intraoperative analgesics adjustment | Intraoperatively (From the induction of anesthesia to the emergence) |
| analgesic efficacy of free-opioid anesthesia | the proportion of patients requiring postoperative pain rescue | postoperatively (upto 3 days after surgery) |
| Measure | Description | Time Frame |
|---|---|---|
| Effects of free-opioid anesthesia on intraoperative mean arterial blood pressure | Non-invasive blood pressure was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The mean arterial blood pressure at each time point was compared between the two groups. | T0 (right after entering the operating theatre) |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Kien T Nguyen, Ph.D | Center of Emergency, Critical Care Medicine and Clinical Toxicology, Military Hospital 103, Vietnam | Study Director |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Viet-Tiep Friendship Hospital | Haiphong | Le Chan | 184570 | Vietnam |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 29207810 | Result | Vaswani JP, Debata D, Vyas V, Pattil S. Comparative Study of the Effect of Dexmedetomidine Vs. Fentanyl on Haemodynamic Response in Patients Undergoing Elective Laparoscopic Surgery. J Clin Diagn Res. 2017 Sep;11(9):UC04-UC08. doi: 10.7860/JCDR/2017/27020.10578. Epub 2017 Sep 1. | |
| 35945992 | Result | Choi H, Song JY, Oh EJ, Chae MS, Yu S, Moon YE. The Effect of Opioid-Free Anesthesia on the Quality of Recovery After Gynecological Laparoscopy: A Prospective Randomized Controlled Trial. J Pain Res. 2022 Aug 3;15:2197-2209. doi: 10.2147/JPR.S373412. eCollection 2022. |
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The datasets used and/or analyzed during this study are available from the corresponding author on reasonable request. Researchers could contact the corresponding author via email to ask for IPD.
The data will be available when the publication is completed
The data is available only for research purposes and personal information of the participants need to be kept confidential
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| ID | Term |
|---|---|
| D015179 | Colorectal Neoplasms |
| ID | Term |
|---|---|
| D007414 | Intestinal Neoplasms |
| D005770 | Gastrointestinal Neoplasms |
| D004067 | Digestive System Neoplasms |
| D009371 | Neoplasms by Site |
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Patients were randomized into 2 groups: Group OA - Opioid anesthesia (n = 49): Intraoperative pain control by fentanyl; FOA group - Free-opioid anesthesia (n = 49): Intraoperative pain control by continuous infusion of lidocaine, bolus doses of ketamine combined with epidural levobupivacaine.
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The drugs were administered in 10 mL and 50 mL syringes labeled as ''loading'' or ''infusion'' respectively. All the drugs delivered in loading dose (intravenous lidocaine and ketamine, epidural levobupivacaine in FOA group; fentanyl and normal saline in OA group) were diluted in normal saline to 10 ml volume labeled indistinguishably as ''loading-1'' and ''loading-2'', "loading-3"…. Because the number of loading drugs in the FOA group was greater than in OA group, investigators added some 10 ml normal saline syringes in the OA group to make the number of "loading" syringes in the two groups equal, thereby ensuring complete blinding. The infusion drugs (lidocaine, ketamine and levobupivacaine in FOA group or normal saline in OA group) were prepared in 50 mL syringes and labeled as ''infusion-1'' and''infusion-2'' respectively. The patients and the anesthetists taking part in the procedures were not informed of the study protocol.
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| opioid anesthesia | Procedure | Opioids have been used as one of three basic components of balanced anesthesia, including anesthetic drugs, pain relievers, and neuromuscular blockade agents (opioid anesthesia). Opioids not only facilitate deep anesthesia but also create the most favorable conditions for surgeries. Fentanyl is a potent opioid used to control pain, reduce the dose of sympathomimetic inhibitors and maintain hemodynamic stability. However, several common side effects of fentanyl are well known: nausea and vomiting, constipation, urinary retention, headache, pruritus, rash, histamine release, biliary spasm and respiratory depression, the most severe adverse effect |
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| Effects of free-opioid anesthesia on intraoperative mean arterial blood pressure |
Non-invasive blood pressure was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The mean arterial blood pressure at each time point was compared between the two groups. |
| T1 (before induction of anesthesia) |
| Effects of free-opioid anesthesia on intraoperative mean arterial blood pressure | Non-invasive blood pressure was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The mean arterial blood pressure at each time point was compared between the two groups. | T2 (patients lost eyelid reflex and response to verbal command) |
| Effects of free-opioid anesthesia on intraoperative mean arterial blood pressure | Non-invasive blood pressure was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The mean arterial blood pressure at each time point was compared between the two groups. | T3 (before intubation) |
| Effects of free-opioid anesthesia on intraoperative mean arterial blood pressure | Non-invasive blood pressure was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The mean arterial blood pressure at each time point was compared between the two groups. | T4 (after intubation) |
| Effects of free-opioid anesthesia on intraoperative mean arterial blood pressure | Non-invasive blood pressure was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The mean arterial blood pressure at each time point was compared between the two groups. | T5 (before skin incision) |
| Effects of free-opioid anesthesia on intraoperative mean arterial blood pressure | Non-invasive blood pressure was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The mean arterial blood pressure at each time point was compared between the two groups. | T6 (after skin incision) |
| Effects of free-opioid anesthesia on intraoperative mean arterial blood pressure | Non-invasive blood pressure was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The mean arterial blood pressure at each time point was compared between the two groups. | T7 (colon release) |
| Effects of free-opioid anesthesia on intraoperative mean arterial blood pressure | Non-invasive blood pressure was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The mean arterial blood pressure at each time point was compared between the two groups. | T8 (dissection of colorectal mesentery) |
| Effects of free-opioid anesthesia on intraoperative mean arterial blood pressure | Non-invasive blood pressure was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The mean arterial blood pressure at each time point was compared between the two groups. | T9 (colon resection) |
| Effects of free-opioid anesthesia on intraoperative mean arterial blood pressure | Non-invasive blood pressure was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The mean arterial blood pressure at each time point was compared between the two groups. | T10 (restore gastrointestinal flow) |
| Effects of free-opioid anesthesia on intraoperative mean arterial blood pressure | Non-invasive blood pressure was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The mean arterial blood pressure at each time point was compared between the two groups. | T11 (drainage placement) |
| Effects of free-opioid anesthesia on intraoperative mean arterial blood pressure | Non-invasive blood pressure was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The mean arterial blood pressure at each time point was compared between the two groups. | T12 (before skin closure) |
| Effects of free-opioid anesthesia on intraoperative mean arterial blood pressure | Non-invasive blood pressure was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The mean arterial blood pressure at each time point was compared between the two groups. | T13 (immediately after skin closure) |
| Effects of free-opioid anesthesia on intraoperative mean arterial blood pressure | Non-invasive blood pressure was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The mean arterial blood pressure at each time point was compared between the two groups. | T14 (eyelids reflex restored and patients eyes could open on command) |
| Effects of free-opioid anesthesia on intraoperative mean arterial blood pressure | Non-invasive blood pressure was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The mean arterial blood pressure at each time point was compared between the two groups. | T15 (before extubation) |
| Effects of free-opioid anesthesia on intraoperative mean arterial blood pressure | Non-invasive blood pressure was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The mean arterial blood pressure at each time point was compared between the two groups. | T16 (15 minutes after extubation) |
| Effects of free-opioid anesthesia on intraoperative heart rate | Heart rate was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The heart rate at each time point was compared between the two groups. | T0 (right after entering the operating theatre) |
| Effects of free-opioid anesthesia on intraoperative heart rate | Heart rate was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The heart rate at each time point was compared between the two groups. | T1 (before induction of anesthesia) |
| Effects of free-opioid anesthesia on intraoperative heart rate | Heart rate was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The heart rate at each time point was compared between the two groups. | T2 (patients lost eyelid reflex and response to verbal command) |
| Effects of free-opioid anesthesia on intraoperative heart rate | Heart rate was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The heart rate at each time point was compared between the two groups. | T3 (before intubation) |
| Effects of free-opioid anesthesia on intraoperative heart rate | Heart rate was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The heart rate at each time point was compared between the two groups. | T4 (after intubation) |
| Effects of free-opioid anesthesia on intraoperative heart rate | Heart rate was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The heart rate at each time point was compared between the two groups. | T5 (before skin incision) |
| Effects of free-opioid anesthesia on intraoperative heart rate | Heart rate was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The heart rate at each time point was compared between the two groups. | T6 (after skin incision) |
| Effects of free-opioid anesthesia on intraoperative heart rate | Heart rate was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The heart rate at each time point was compared between the two groups. | T7 (colon release) |
| Effects of free-opioid anesthesia on intraoperative heart rate | Heart rate was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The heart rate at each time point was compared between the two groups. | T8 (dissection of colorectal mesentery) |
| Effects of free-opioid anesthesia on intraoperative heart rate | Heart rate was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The heart rate at each time point was compared between the two groups. | T9 (colon resection) |
| Effects of free-opioid anesthesia on intraoperative heart rate | Heart rate was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The heart rate at each time point was compared between the two groups. | T10 (restore gastrointestinal flow) |
| Effects of free-opioid anesthesia on intraoperative heart rate | Heart rate was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The heart rate at each time point was compared between the two groups. | T11 (drainage placement) |
| Effects of free-opioid anesthesia on intraoperative heart rate | Heart rate was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The heart rate at each time point was compared between the two groups. | T12 (before skin closure) |
| Effects of free-opioid anesthesia on intraoperative heart rate | Heart rate was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The heart rate at each time point was compared between the two groups. | T13 (immediately after skin closure) |
| Effects of free-opioid anesthesia on intraoperative heart rate | Heart rate was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The heart rate at each time point was compared between the two groups. | T14 (eyelids reflex restored and patients eyes could open on command) |
| Effects of free-opioid anesthesia on intraoperative heart rate | Heart rate was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The heart rate at each time point was compared between the two groups. | T15 (before extubation) |
| Effects of free-opioid anesthesia on intraoperative heart rate | Heart rate was assessed every 5 minutes intraoperatively and recorded at some investigated time points. The heart rate at each time point was compared between the two groups. | T16 (15 minutes after extubation) |
| changes in the concentration of IL (Interleukin)-6 | Blood samples were collected in a heparin tube immediately before surgery (T0) and 1 hour after extubation. They were centrifuged, and then plasma was separated and stored at -70°C until being analyzed. IL-6 levels were analyzed using enzyme-linked immunosorbent assay (ELISA). Changes in IL-6 were recorded and compared between the two groups | Before surgery |
| changes in the concentration of IL (Interleukin)-6 | Blood samples were collected in a heparin tube immediately before surgery (T0) and 1 hour after extubation. They were centrifuged, and then plasma was separated and stored at -70°C until being analyzed. IL-6 levels were analyzed using enzyme-linked immunosorbent assay (ELISA). Changes in IL-6 were recorded and compared between the two groups | 1 hour after surgery |
| changes in the concentration of IL-10 | Blood samples were collected in a heparin tube immediately before surgery (T0) and 1 hour after extubation. They were centrifuged, and then plasma was separated and stored at -70°C until being analyzed. IL-10 levels were analyzed using enzyme-linked immunosorbent assay (ELISA). Changes in IL-10 were recorded and compared between the two groups | Before surgery |
| changes in the concentration of IL-10 | Blood samples were collected in a heparin tube immediately before surgery (T0) and 1 hour after extubation. They were centrifuged, and then plasma was separated and stored at -70°C until being analyzed. IL-10 levels were analyzed using enzyme-linked immunosorbent assay (ELISA). Changes in IL-10 were recorded and compared between the two groups | 1 hour after surgery |
| Adverse effects of free-opioid anesthesia | the rate of patients suffering nausea and vomiting | up to 3 days postoperatively |
| 25925031 | Result | Bakan M, Umutoglu T, Topuz U, Uysal H, Bayram M, Kadioglu H, Salihoglu Z. Opioid-free total intravenous anesthesia with propofol, dexmedetomidine and lidocaine infusions for laparoscopic cholecystectomy: a prospective, randomized, double-blinded study. Braz J Anesthesiol. 2015 May-Jun;65(3):191-9. doi: 10.1016/j.bjane.2014.05.001. Epub 2014 Jun 3. |
| 31198230 | Result | Hakim KYK, Wahba WZB. Opioid-Free Total Intravenous Anesthesia Improves Postoperative Quality of Recovery after Ambulatory Gynecologic Laparoscopy. Anesth Essays Res. 2019 Apr-Jun;13(2):199-203. doi: 10.4103/aer.AER_74_19. |
| 30180150 | Result | Chin KJ, Lewis S. Opioid-free Analgesia for Posterior Spinal Fusion Surgery Using Erector Spinae Plane (ESP) Blocks in a Multimodal Anesthetic Regimen. Spine (Phila Pa 1976). 2019 Mar 15;44(6):E379-E383. doi: 10.1097/BRS.0000000000002855. |
| D009369 | Neoplasms |
| D004066 | Digestive System Diseases |
| D005767 | Gastrointestinal Diseases |
| D003108 | Colonic Diseases |
| D007410 | Intestinal Diseases |
| D012002 | Rectal Diseases |