Mid-line Laparotomies Clinical Trial
Official title:
Postoperative Analgesia for Elective Mid-line Laparotomies: Thoracic Epidural Versus Surgically-placed Rectus Sheath Catheters
Midline laparotomies are accompanied by severe postoperative pain. Adequate post-operative
pain relief after major abdominal surgery reduces complications (e.g. chest infection or deep
venous thrombosis) and enhances recovery and early mobilization, with better patients'
satisfaction, and less hospital stay.
The standard technique for post-operative analgesia after major abdominal surgery is thoracic
epidural analgesia (TEA). On the other hand, the complications encountered with TEA motivates
the search for another technique, besides that in some situations, midline incision is needed
while TEA is contraindicated e.g. emergency laparotomy.
Rectus sheath nerve block (RSB) is a regional anesthetic technique that provides midline
somatic analgesia and might be an alternative to TEA. It is an old technique that has been
revisited because of the availability of new local anesthetic agents, and the availability of
small-caliber catheters.
It was hypothesized that rectus sheath analgesia (RSA) might be an alternative to thoracic
epidural analgesia. Thereby, the aim of the current study is to find whether analgesia
provided through surgically placed rectus sheath catheters can be a safe and effective
alternative to thoracic epidural analgesia for postoperative pain relief in patients
undergoing elective midline laparotomies.
Administrative design:
- Approval is obtained from the ethics committee of faculty of medicine, IRB approval and
the Department of Anesthesia and Surgical Intensive Care, Zagazig University.
- Informed written consent will be obtained from all patients in the study.
- The patient has the right to withdraw from the study at any time without negative
sequences on their medical or surgical treatment plan.
Sample size:
The power of this study is calculated prospectively using G*POWER program version 3.1.9.2.
(Heinrich Heine; Universitat Dusseldorf; Germany). To calculate sample size, degree of
postoperative analgesia is used as the primary outcome. A pilot study (10 patients in each
group) was performed to detect significant difference in the degree of postoperative
analgesia (following VAS). It is found that 24 patients are needed in each group to achieve
an alpha error level of 0.05, with 80% power and 95% confidence interval. Allowing a 5% drop
out rate, the final sample size needed is 25 patients in each group to detect clinically
significant difference of >20%.
Statistical analysis plan Categorical data will be presented as frequencies and/or
percentages and analyzed with a chi-square or Fisher's exact test. Quantitative variables
will be analyzed with unpaired t test. Statistical analysis will be performed using IBM SPSS
Statistics (version 21). A p value equal to or less than 0.05 was considered statistically
significant.
Study Design:
Patients will be randomly assigned to one of two groups using computer generated
randomization tables:
• Thoracic epidural analgesia group (Group TEA): The skin and subcutaneous tissues will be
infiltrated using 1 mL lidocaine 2% approximately lateral to the inferior aspect of the
targeted spinous process using a 1.5-inch 25-gauge needle. A 17-gauge Tuohy needle will be
introduced through paramedian approach. For all patients in this group, the needle will be
introduced at T7 to T9. A test dose of 3 mL of lidocaine 2% with 1:200,000 adrenaline will be
injected through the epidural catheter followed by induction of general anesthesia. On wound
closure 20 mL 0.25% bupivacaine + 40 μg Fentanyl will be injected into the epidural catheter.
Thereafter, in post-anesthesia care unit (PACU) and in surgical intensive care unit (SICU),
20 mL of 0.125% bupivacaine + 40 μg Fentanyl will be administered every 6 h for 48 hours.
• Rectus sheath block group (Group RSB): Touhy needle will be inserted 2-4 cm lateral to the
midline in an angle of 45 degrees to the skin, through the anterior abdominal wall until
reaching the potential space between the posterior layer of the rectus sheath and rectus
abdominis muscle. The catheter will be surgically inserted into the rectus sheath. The
surgeon will put the nondominant hand inside the abdomen to locate the needle tip and the
other hand gently push the epidural needle in the interface between the peritoneum and muscle
layer. The catheters will be placed at the upper end of the laparotomy wound until a 5cm
length is inside the rectus sheath. After securing the catheter, it will be flushed with
saline 0.9% and the same procedure will be repeated on the other side. After that 20 mL of
0.125% bupivacaine + 20 μg Fentanyl will be injected in each catheter as an initial bolus
dose to block the intercostal nerves to provide analgesia through the recovery period until
the next dose. In PACU and in SICU, 10 mL of 0.125% bupivacaine + 20 μg Fentanyl every 6
hours will be administered into each catheter for 48 hours.
Patients' monitoring and general anesthesia for both groups All patients will be closely
monitored with electrocardiography, pulse oximetry, sphygmomanometer cuff and capnography.
Anesthesia will be induced by 1 µg/kg fentanyl, propofol 2 mg/kg slowly, and rocuronium
bromide at a dose of 0.5 mg/kg to facilitate endotracheal tube insertion. Following
induction, mechanical ventilation of the lungs will be applied to maintain end tidal carbon
dioxide between 35-40 mmHg. Anesthesia will be maintained using 1.5 MAC isoflurane.
Subsequent doses of rocuronium 0.01 mg/kg will be given if needed (according to nerve
stimulator train of four (TOF) response). Additional doses of fentanyl 1 µg/kg will be given
following clinical data of the patient (if both heart rate and mean arterial blood pressure
increases >20% from baseline despite maintaining adequate depth of anesthesia). By the end of
surgery, reversal of neuromuscular block will be performed using neostigmine 0.05 mg/kg and
atropine 0.02 mg/kg and patients will be extubated before transfer to PACU.
• For both groups: IV 1 gm paracetamol (Perfalgan)/ 8h will be given to patients. The first
dose of paracetamol will be given intraoperatively on wound closure.
Opioid-based patient-driven titration protocols have been previously applied in other studies
[19, 20]. Thereby, for patients in both groups, if breakthrough pain occurred, the following
plan will be applied: ensure that the analgesic protocol of the study is followed then
evaluate the degree of pain according to visual analogue scale (VAS) [1] where 0= no pain,
and 10= worst pain possible. If VAS is ≥4= inadequate pain relief, Fentanyl-based
patient-driven titration protocol will be followed for supplementary IV analgesia: the
patient will be given 25 µg fentanyl, if after 5 min VAS is still ≥ 4, another 25µg fentanyl
will be given, to be repeated every 5 min if needed with a maximum dose of 1 µg/kg of
fentanyl.
Failure of the intervention is defined as complete absence of sensory blockade with no
improvement in pain severity as reported by the patient after an adequate bolus injection of
local anesthetic through either the TEA or RSC. Cases will be recorded if occurred.
Data collection:
Baseline data will be collected from all patients during a visit 24 hours before surgery.
From all patients, the following data will be collected during intra- and post-operative
periods (for 48 hours) as follows:
1. Vital signs [including Mean arterial blood pressure (MAP), Heart rate (HR), and
Respiratory rate (RR)] will be recorded every 10 min during intraoperative period.
During postoperative period, they will be recorded every 10 min for the first hour after
each time of administration of local anesthetic into the catheters. For the next 5
hours, they will be recorded every one hour. This process will be repeated during the
first 48 h of post-operative period.
2. Patient oxygenation will be recorded during intraoperative period and the first 48h of
post-operative period.
3. Degree of postoperative pain (using VAS score) [1] and sedation level (using Ramsay
sedation scale (RSS) [2], will be evaluated and recorded at the following postoperative
times: 0, 3, 6, 12, 24, 36 and 48 hours; where T0= time of arrival of the patient to
PACU.
4. Time to first dose of supplementary analgesia with IV Fentanyl will be recorded in each
group (starting from the time of administration of the first dose of local anesthetic
into the catheters, to time of VAS ≥ 4).
5. Total intra- and post-operative consumption of Fentanyl in each group.
6. Complications will be recorded and managed if occurred.
7. After discharge from operation room, all patients will be monitored at 1-hour intervals
for the presence of bowel sounds and/or the passage of flatus in order to allow oral
fluid intake. Time of initiation of oral fluid intake will be recorded in both groups.
Times for the patient to be able to ambulate independently will be also recorded. The
starting time-point for both functions will be the time of administration of the first
dose of local anesthetic into the catheters, while the end-point will be the time when
the patient will be able to perform these functions).
8. Patient satisfaction regarding postoperative pain control using a scale of 1-3 (3-Good,
2-Fair, 1-Poor) will be recorded.
Results Collected data will be presented in tables and/or suitable graphs and analyzed by
computer software (SPSS statistics) using appropriate statistical methods and will be
compared to relevant literatures and scientific researches.
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