CI

At a glance

ClinicalIndex Comparison Record
Phase 4Unknown· 132 target
Drug / intervention
Scalp blocks with ropivacaine plus parecoxib +2 moredrug
Likely dose
Scalp blocks with ropivacaine plus parecoxib 20mlfrom record
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Search/NCT04034836
NCT04034836Phase 4Unknown

Parecoxib as an Adjuvant to Scalp Nerve Blocks for Relief of Post-craniotomy Pain

Beijing Tiantan Hospital·interventional·Posted Jul 26, 2019·Updated Jun 16, 2020

In Brief

A Phase 4 clinical trial evaluating Scalp blocks with ropivacaine plus parecoxib, Scalp blocks with ropivacaine and intravenous parecoxib, and 1 other intervention for Pain, Postoperative and Neurosurgery. Targeting 132 participants across 1 site.

Detailed Summary

Pain is common for the first 2 days after major craniotomy. Inadequate analgesia induced sympathetically mediated hypertension may lead to an increased risk for post-operative complications, such as arterial hypertension, intracranial hemorrhage, prolonged hospital stay, and mortality.Pain after craniotomy derives from the scalp and pericranial muscles.Scalp block with local anesthesia seems to provide effective and safe anesthetic management.Scalp block can be performed by directly blocking the six different nerves that provide the sensory innervation of the scalp in neurological surgery.Even if adrenaline as an additive agent, scalp block using 0.5% or 0.75% bupivacaine with adrenaline could only improve postoperative analgesic for up to six hours after craniotomy.However, pain is common for the first 2 days after major elective intracranial surgery, and the relatively short analgesic time of scalp nerve blocks does not seem to meet the requirements of craniotomy. Therefore, how to improve the quality and duration of scalp nerve blocks with local anesthetics is of great significance.Parecoxib is a NSAIDs that specifically inhibits the enzyme COX-2.Liu et al firstly applied parecoxib as an adjuvant to local anesthetics on peripheral nerve blocks and reported 20 mg parecoxib added to ropivacaine injected locally on the brachial plexus nerve prolonged the motor and sensory block times of the nerve blockade and ameliorated postoperative pain intensity for patients receiving forearm orthopaedic surgery. However, there has not been reported about local application of parecoxib on scalp nerve blocks. The investigators postulate that parecoxib may be also ideal for scalp nerve blocks for relief of post-craniotomy pain, and further research is needed. The APONIA trial aims to establish whether scalp blocks with a mixture of ropivacaine plus parecoxib is able to relieve patients' postoperative pain compared with local anesthetics alone, thereby potentially changing medical practice.

Study Details

Study Typeinterventional
Allocation--
Masking--
Primary Purpose--
CountriesChina
Collaborators--

Timeline

Phase 4UnknownOverdue
2020202120222023202420252026
First PostedJul 26, 2019
Enrollment StartOct 12, 2019
Primary CompletionDec 31, 2021
TodayJul 1, 2026
Enrollment to primary: 2.2 yearsPosted 6.9 years ago

Interventions

Scalp blocks with ropivacaine plus parecoxibdrug

Scalp blocks with ropivacaine 0.75% wt/vol, 20ml, plus 10 mg parecoxib (diluted in 2 mL NS) with epinephrine at 1:200,000 (5 ug/mL) and i.v. saline 2ml;An independent researcher will prepare the study solution in a separate operating room. The study solutions with syringes (50-ml) for the scalp blocks and syringes (5-ml) for intravenous injection are prepared and numbered with a 23-gauge needle by an independent researcher, after opening the envelope containing the allocation of treatment. After induction, the assigned solutions will be injected subcutaneously or intravenously separately by the anesthesiologist. The scalp blocks will be performed along the lines of the technique previously described by Pinosky et al. The following nerves were blocked bilaterally: the supraorbital and supratrochlear nerves; the zygomatico-temporal nerves; the auriculotemporal nerves; the postauricular branches of the greater auricular nerves; the greater, lesser, and third occipital nerves.

Scalp blocks with ropivacaine and intravenous parecoxibdrug

Scalp blocks with ropivacaine 0.75% wt/vol, 20ml, plus saline 2ml with epinephrine at 1:200,000 (5 ug/mL) together with 10 mg parecoxib (diluted in 2 mL NS) intravenously. An independent researcher will prepare the study solution in a separate operating room. The study solutions with syringes (50-ml) for the scalp blocks and syringes (5-ml) for intravenous injection are prepared and numbered with a 23-gauge needle, after opening the envelope containing the allocation of treatment. After induction, the assigned solutions will be injected subcutaneously or intravenously separately by the anesthesiologist. The scalp blocks will be performed along the lines of the technique previously described by Pinosky et al. The following nerves were blocked bilaterally: the supraorbital and supratrochlear nerves; the zygomatico-temporal nerves; the auriculotemporal nerves; the postauricular branches of the greater auricular nerves; the greater, lesser, and third occipital nerves.

Scalp blocks with ropivacaine and intravenous salinedrug

Scalp blocks with ropivacaine 0.75% wt/vol, 20ml, plus saline 2ml with epinephrine at 1:200,000 (5 ug/mL) and i.v. saline 2ml. An independent researcher will prepare the study solution in a separate operating room. The study solutions with syringes (50-ml) for the scalp blocks and syringes (5-ml) for intravenous injection are prepared and numbered with a 23-gauge needle by an independent researcher, after opening the envelope containing the allocation of treatment. After induction, the assigned solutions will be injected subcutaneously or intravenously separately by the anesthesiologist. The scalp blocks will be performed along the lines of the technique previously described by Pinosky et al. The following nerves were blocked bilaterally: the supraorbital and supratrochlear nerves; the zygomatico-temporal nerves; the auriculotemporal nerves; the postauricular branches of the greater auricular nerves; the greater, lesser, and third occipital nerves.