Anesthesia Clinical Trial
Official title:
A Randomized Two-parallel Group Controlled Trial Comparing the Effects of 20mg Parecoxib as an Adjunct to 0.75% Ropivacaine in Ultrasound-guided Supraclavicular Block for Upper Limb Surgery
This clinical trial aims to investigate the efficacy of 20 mg Parecoxib when it is given as
an addition to 20 ml 0.75% ropivacaine in patients receiving ultrasound-guided
supraclavicular brachial plexus block prior to the upper limb surgeries. It is hypothesised
that the addition of parecoxib to ropivacaine will provide superior sensory and motor
blockades to those who only received 0.75% ropivacaine.
Eighty six (n=86) patients were randomised in one-to-one ratio to either receiving 20 mg
parecoxib and 20 ml 0.75% ropivacaine (n=43) or 20 ml 0.75% ropivacaine and 1 ml 0.9% saline
(n=43). The primary efficacy outcomes of interest are a) The time to onsets of sensory and
motor blockades (measured in minutes); b) The time to recovery from sensory and motor
blockades (measured in hours). The secondary efficacy outcomes of interest are a) The
presence of complete sensory blockade at 30 minutes post intervention (recorded as a binary
yes-no categorical variable); b) The presence of complete motor blockade at 30 minutes post
intervention (recorded as a binary yes-no categorical variable).
Brachial plexus block (BPB) has enjoyed ubiquitous popularity for upper limb surgeries.There
are a few common techniques for BPB and one of the most frequently-utilised one is
supraclavicular BPB since it provides a quick-onset, efficient, safe and dense anaesthesia
for surgical procedures that involve the proximal mid-humerus down to the distal hand. At
present, most BPB techniques have been widely performed under ultrasound guidance to enhance
the BPB's success rate and lessen its complications.
There are several adjunct drugs that can be mixed with local anaesthetics agents (e.g.
ropivacaine) to speed up the onset and prolong the duration of BPB and minimise the risk of
local-anaesthestic(LA)-associated overdose and toxicity. Parecoxib, a prodrug of valdecoxib,
is an ideal choice for such combination due to its excellent toxicity profile.It acts by
inhibiting the function of the constitutive COX-2, an isoform of cyclooxygenase (COX),
resulting in the diminution of prostaglandin H2 and E2 synthesis. Consequently, this
diminishes nociception by reducing sensory neuron's excitability and bradykinin-associated
hyperalgesia.
So far, there is only one study which investigates the efficacy of parecoxib as an adjunct to
ropivacaine in patients requiring BPB performed via axillary approach for their upper limb
surgeries. However, adjunct parecoxib's efficacy in BPB performed via supraclavicular
approach is still not fully scrutinised. Therefore, this clinical trial endeavours to
evaluate the efficacy of adjunct parecoxib in supraclavicular BPB.
This is a randomised two parallel groups active-controlled single centre double-blind
(participant and outcome assessors) clinical trial comparing the effects of parecoxib as an
adjunct to ropivacaine. This trial protocol received the approval from University of Science
Malaysia's Human Ethics Research Committee (HERC) on the 20th June 2016 and all participants
had provided written informed consent for study participation.
The study participants were then block-randomized using a block size of 4 with a balanced 1:1
allotment ratio without any covariate stratification. The block randomization was performed
using permuted block design, with the random numbers generated by a random number generator
package in Stata 9.0. This was performed by an independent third party statistician. To
ensure selection bias was prevented, the allocation sequence was kept inside a
password-protected STATA 9.0 file which was only accessible to the independent third-party
statistician. The sequence of treatment allotment was only revealed after a study participant
was properly recruited and subsequently randomised to treatment allotment. To prevent
ascertainment and performance bias, the study participants and the independent assessors (2nd
medical officers) were shielded from the knowledge of the type of intervention received.
However, the intervention was administered by the primary investigator who was not blinded to
the kind of intervention received by a study participant.
To mask the participants and outcome assessors to the types of intervention received by the
participants, each visually indistinguishable syringe containing one of the 2 types of
intervention were pre-filled to 20 ml and labelled with code numbers by an independent
third-party pharmacist before they were sent to the operating theatre (OT) for intervention
administration by the principal investigator (Vivekananda Gunasekaran).
DETAILS OF INTERVENTIONS ADMINISTERED
The premedication was first prescribed in the morning of the surgery. Upon arrival at the OT,
all study participants underwent standard anaesthesia monitoring for relevant clinical
parameters (baseline blood pressure (BP), saturation pressure of oxygen (spO2),
electrocardiography (ECG) and heart rate (HR)) which were obtained using the electric B30
monitor (Stimuplex D® plus 50mm, B. Braun, Melsungen, Germany) and documented before the BPB
commenced. Subsequently, IV access was introduced using at least 20G IV cannula which was
inserted on the selected hand of study participants.
Intravenous (IV) loading of Ringer's Lactate solution (B. Braun, Melsungen, Germany) at a
dose of 10 ml/kg was administered before performing the block. Brachial plexus block (BPB)
was performed in the block corner at the recovery bay. Drugs regime and other standard
equipments for BPB were prepared and acquired and these include:
- 5 mls of Lignocaine 2% for skin infiltration
- 20 mls of Ropivacaine (Naropin®, Astrazeneca) 0.75% + 20mg Parecoxib (Dynastat®,
Pfizer)(1 mls) ---Group A
- 20mls Ropivacaine 0.75% + 1 ml Normal Saline----Group B.
- Ultra Sonographic machine (Mindray® Version M5, Mindray, Shenzen, China) with high
frequency (10-15MHz) linear probe
- 50 to 80mm 22 G insulated peripheral nerve block needle. (Vygon, France)
- 2% chlorhexidine in 70% isopropyl alcohol solution for skin cleaning
The BPB was implemented by a single operator (principal investigator, Vivekananda
Gunasekaran) and assessed by an independent 2nd medical officer in-charge who was blinded to
the treatment administered. No peripheral nerve stimulator was employed during the procedure.
The detailed descriptions of the techniques utilized in the BPB are as follows:
- The block site will be cleaned and draped. The US probe also was draped for the
procedure as well.
- SUPRCLAVICULAR BPB TECHNIQUE
- Subjects were positioned semi-recumbent with the head turned to the contralateral
side with the ipsilateral shoulder slightly elevated with the pillow.
- An exploratory scan was performed in all patients before the block, by positioning
the probe on a coronal oblique plane above the clavicle.
- Hypoechoic and pulsating supraclavicular artery was then identified, which was
lying above the hyper echoic first rib. While maintaining the view of the artery,
the probe was then angled until both the first rib and the pleura were also seen
simultaneously.
- After skin preparation and draping, the probe was next placed in the
supraclavicular fossa and subcutaneous infiltration will be given on the targeted
needle side
- The needle was then inserted from lateral to medial direction in the long axis of
the transducer (in-plane technique).
- Nineteen (19) ml of 0.75% ropivacaine and 1 ml of 20 mg of parecoxib (Group I:
parecoxib + ropivacaine) or 19 mls of 0.75% alone plus 1 ml of normal saline (Group
II: ropivacaine alone) was then injected at the "corner pocket". Adrenaline was not
added into any solution.
- The remaining 5 ml was later injected to a point approximately level with the
superior/ cephalad aspect of the subclavian artery, but no further than 1 cm
lateral to the artery
Block performance-related pain was then evaluated immediately after removing the needle by
asking the patient to verbally quantify the level of pain using a score between 0 to 10 (0
meaning no pain, 10 meaning excruciating pain). The study participants were withdrawn from
the trial and rescue medications were given if one of the following withdrawal criteria
occurred:
- Patient developed local anaesthetic toxicity (seizure)
- Patient developed hemodynamically instability bradycardia/hypotension)
- Patient developed anaphylaxis
The procedures for the assessment of sensory and motor block are as follows:
- ASSESSMENT OF SENSORY BLOCK
o Sensory blockade was assessed every 5 minutes within the first 30 minutes following
the completion of drug administration. The magnitude of sensory blockade is graded as
follows:
- Grade 0 = normal sensory response
- Grade 1 = reduced sensory perception (partial sensory blockade)
- Grade 2 = no sensation (complete sensory blockade).
- Sensory loss was confirmed by the loss to cold sensation using 10 mls cold saline
bottle and pinprick sensation using 23G needle in all dermatomes of the brachial
plexus (Grade 2).
- Time zero was defined as the time at which LA was completely injected.
- Sensory block success was defined as complete pin-prick sensory blockade in all
dermatomes of the brachial plexus (C5-T1).
- The block was considered incomplete if any supplemental local anesthetic is needed
for complete anesthesia.
- The block was considered failed if the desired volume did not provide complete
anesthesia or conversion to general anaesthesia was required prior to surgery.
- General anaesthesia was routinely performed with intravenous induction (sedation)
agent, short acting opioids and muscle relaxant
- ASSESSMENT OF MOTOR BLOCK
o Motor block was assessed by subject's capability of flexing his / her elbow and hand
against gravity. This was then graded according to the following scale:
- Grade 1: ability to flex or extend the forearm
- Grade 2: ability to flex or extend only the wrist and fingers
- Grade 3: ability to flex or extend only the fingers
- Grade 4: inability to move the forearm, wrist, and fingers
- INTRA-SURGICAL ASSESSMENTS
- Requirement of block supplementation, surgical wound infiltration and patient
requested sedation or general anaesthesia
- Surgical anaesthesia success was defined as surgery without the requirements of
block supplementation, general anesthesia (administered for incomplete block) or
surgical site infiltration
- Haemodynamic monitoring was performed at baseline, after LA injection, after 15
min, 30 min, 1 hour of block procedure & after completing surgery
- POSTOPERATIVE ASSESSMENT
- Sensory and motor blockade durations were assessed on half-hourly basis (up to 12
hours postoperatively), during the post surgical period.
- Patient-controlled analgesia (PCA) morphine or IV tramadol was given as rescue
analgesia.
- Pain scores were assessed using the visual rating scale (VRS) (0-10) where pain was
evaluated when the patients were resting at 1, 2, 4, 12, 24 hours postoperatively.
- The duration of analgesia (time interval from the completion of local anesthetic
administration until the first need of rescue analgesia in the form of PCA morphine
or IV tramadol) and the amount of morphine or tramadol consumed during the
postoperative 24 hours were also documented.
- Any evidence of complications (e.g., bruises/swelling at the block site, chest
pain/ breathing difficulty, dysaesthesia/ muscle weakness in the operated extremity
not related to the site of operation) were also recorded.
- Surgeons were alerted to report any neurological problems not related to surgery
during the clinical rounds prior to the patients were discharged from the hospital.
- Anaesthetic preferences (one of the following: 1) the BPB; 2) block under deep
sedation; 3) block under GA).
- Preferred block for future hand operations was then recorded.
SAMPLE SIZE DETERMINATION
The sample size was calculated using power analysis method. The level of significance was
fixed at 0.05, power (1 - type 2 error) at 0.80 and a dropout rate of 20%. Based on the
standard deviation of 140 minutes and a hypothesised mean difference in total duration of
sensory block of 104 minutes, the total sample size is 39 subjects per intervention arm.
STATISTICAL ANALYSES
The data was analysed using Statistical Package for Social Science for Windows version 23
(SPSS 23) and Stata version 11. Missing data were treated as Missing at Random (MAR) under
Rubin's missing data mechanism. Multiple imputation was then used to address the missing data
problem. The data were descriptively summarised using mean and standard deviations (or
interquartile range) for continuous outcomes or frequency and percentage for categorical
variables. Multiple imputation was then used to address the missing data. The mean
differences in continuous outcome variables (onset and duration of sensory and motor
blockades) between the intervention arms were analysed using independent t-test or
Mann-Whitney test. For categorical outcome variables (complete motor and sensory blockades at
30 minutes per intervention), Chi-square or Fisher exact tests were utilised. The assumptions
of normality and homogeneity of variances were checked using histogram with overlying normal
plots, box plots, Mann-Whitney (normality) and Levene's tests (homoscedasticity of
residuals).
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