Obesity Clinical Trial
Official title:
Perioperative Systemic Lidocaine for Enhanced Bowel Recovery After Laparoscopic Bariatric Surgery: A Dose Dependent Study
Verified date | September 2020 |
Source | Mansoura University |
Contact | n/a |
Is FDA regulated | No |
Health authority | |
Study type | Interventional |
Increasing rates of obesity over the last few decades have led to growing demand for
bariatric surgery, which may resulted in decreased comorbidities and improved patient
outcomes. Laparoscopic bariatric surgery has several clinical benefits in terms of improved
quality of analgesia, reduced pulmonary complications, enhanced recovery of bowel function,
less immune suppression, and shortened duration of hospital stay than open laparotomies.
Some investigators reported delayed return of bowel function for approximately two days after
laparoscopic bariatric surgery, despite it occurred one day earlier than after open
laparotomy. This potentially can lengthen the duration of hospital stay after bariatric
procedures. With the impeding cost of health care in the developing countries, safely
reducing length of stay is essential.
Other investigators reported early return of bowel movements during the first postoperative
day in 65% of patients undergoing laparoscopic gastric bypass surgery due to reduced morphine
use with implementation of a multimodal analgesia strategy including ketorolac, and
propoxyphene hydrochloride/acetaminophen.
Lidocaine was investigated in several studies for its use in multi-modal management
strategies to reduce postoperative pain and opioid use and enhance recovery. A recent
Cochrane review including 45 trials demonstrated that systemic administration of lidocaine
was associated with reduced pain scores at most of 'early time points' in patients undergoing
laparoscopic abdominal surgery (MD -1.14, 95% CI -1.51 to -0.78; low-quality evidence),
shorter times to first flatus (MD -5.49 hours, 95% CI -7.97 to -3.00; low-quality evidence)
and first bowel movement (MD -6.12 hours, 95% CI -7.36 to -4.89; low-quality evidence), and
less risk of paralytic ileus (risk ratio (RR) 0.38, 95% CI 0.15 to 0.99; low-quality
evidence). However, no evidence of effect was found for lidocaine on shortening the time to
first defecation. This low-quality evidence may be related to the heterogeneity between the
studies in respect to the optimal dose, timing and duration of the administration of
intravenous lidocaine.
Status | Suspended |
Enrollment | 180 |
Est. completion date | February 2023 |
Est. primary completion date | December 2022 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 18 Years to 65 Years |
Eligibility |
Inclusion Criteria: - Obese patients with a body mass index equal or greater than 35 kg/m2. - American Society of Anesthesiologists (ASA) II-III - Patients scheduled for laparoscopic bariatric surgery under general anesthesia Exclusion Criteria: - History of significant cardiac disease. - History of significant respiratory disease. - History of significant hepatic disease. - History of significant renal diseases. - History of an atrio-ventricular block grade II to III. - Long QT syndrome. - Pre-existing disorder of the gastrointestinal tract. - Patients with history of alcohol or drug abuse. - Allergy to amide local anesthetics. - History of epilepsy. - Pregnancy. - Patients receiving cardiovascular medications. - Patients receiving steroids. - Patients receiving an opioid analgesic medication within 24 h before the operation. - Conversion from a laparoscopic to an open laparotomy. |
Country | Name | City | State |
---|---|---|---|
Egypt | Mansoura University Hospitals | Mansoura | DK |
Lead Sponsor | Collaborator |
---|---|
Mansoura University |
Egypt,
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Postoperative recovery of bowel function | Times to first passage of flatus, first defecation, and tolerating liquids measured in hours from the end of surgery. Patients will be asked to note the time they will be able to tolerate liquids and their first passage of flatus ("gas"). | For 72 hours after surgery | |
Secondary | Perioperative changes in heart rate | Heart rate will be recorded before induction of anesthesia, 5 min after induction, every 15 min intraoperatively, and then 1 h, 4 h, 12 h, 24 h, 36 h, 48 h after surgery | For 48 hours after surgery | |
Secondary | Perioperative changes in blood pressure | Blood pressure will be recorded before induction of anesthesia, 5 min after induction, every 15 min intraoperatively, and then 1 h, 4 h, 12 h, 24 h, 36 h, 48 h after surgery | For 48 hours after surgery | |
Secondary | Pain scores | Four-hourly pain scores at rest and during movement and cough | For 48 hours after surgery | |
Secondary | Intraoperative total use of fentanyl | Fentanyl0.5 micrograms/kilogram of body weight will be administered intravenously on the discretion of the charged anesthesiologist in case of inadequate intraoperative analgesia | For 4 hours after induction of anaesthesia | |
Secondary | Perioperative use of intravenous fluids | The volume of intravenously administered fluid therapy will be recorded before, during, and after surgery. | For 48 hours after surgery | |
Secondary | Perioperative use of norepinephrine | The volume of intravenously administered norepinephrine to treat low blood pressure will be recorded before, during, and after surgery. | For 48 hours after surgery | |
Secondary | Perioperative use of dobutamine | The volume of intravenously administered dobutamine to treat low cardiac output will be recorded before, during, and after surgery. | For 48 hours after surgery | |
Secondary | The balance between the fluid intake and output | The balance between the fluid intake and output during surgery and 34 hours and 48 hours after surgery will be recorded | For 48 hours after surgery | |
Secondary | Postoperative cumulative morphine use | Intravenous morphine will be administered intravenously as per request of the participants to relief their postoperative pain. The cumulative consumption of morphine by participants will be recorded at 24 hours and 48 hours after surgery | For 48 hours after surgery | |
Secondary | Times to clinical recovery | Times to spontaneous breathing, eye opening, obeying verbal commands, and extubation | For 2 hours after surgery | |
Secondary | Length of Post-Anaesthesia Care Unit stay | For 4 hours after surgery | ||
Secondary | Time to readiness for hospital | for 10 days after surgery | ||
Secondary | Time to actual discharge from hospital | For 10 days after surgery | ||
Secondary | Perioperative changes in cognitive function | It will be assessed using as assessed by a mini mental score preoperatively (baseline) and 24 h and 48 h after surgery | For 48 hours after surgery | |
Secondary | Overall patient satisfaction score | This will be assessed using a 100-point scale with 1 = completely dissatisfied to 100 = completely satisfied) will be recorded on postoperative day (POD)s 1, and 2 | For 48 hours after surgery | |
Secondary | Postoperative nausea and vomiting | It will be scored 4-hourly as follows; (0: no nausea; 1: nausea no vomiting; 2: nausea and vomiting) | For 48 hours after surgery | |
Secondary | Postoperative pruritus | This will be assessed at four hourly as follows pruritus rated using a categorical scale (0, none; 1, mild; 2, moderate; and 3, severe) | For 48 hours after surgery | |
Secondary | Postoperative sedation | This will be assessed at 4-hourly using sedation score (four-point verbal rating scores (VRS): awake, drowsy, arousable or deep sleep) | For 48 hours after surgery | |
Secondary | Number of participants with surgery-related complications | These include the occurrence of bleeding, fever, wound dehiscence, wound infection, anastomotic leak, abscess, peritonitis, infection | For 15 days after surgery | |
Secondary | Associated comorbidities | These include preoperative diabetes, renal impairment, hepatic dysfunction, cardiac dysfunction, pulmonary disease, endocrine disease | For 1 day before induction of anaesthesia | |
Secondary | Number of participants with lidocaine treatment-related adverse events | These adverse events include arrhythmia, sedation, nausea and vomiting, light-headedness, headache, perioral numbness, tunnel vision, or seizures | For 48 hours after surgery | |
Secondary | Serum lidocaine level | For 48 hours after surgery | ||
Secondary | Plasma albumin level | For 48 hours after surgery |
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