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The goal of this interventional study is to Measure the potential benefits of combined administration of cerebrolysin and amantadine sulfate as an add-on therapy to the standard management of patients admitted to the ICU with traumatic brain injury.
Sixty-nine million individuals worldwide are estimated to sustain a TBI each year. The proportion of TBIs resulting from road traffic collisions was greatest in Africa and Southeast Asia (both 56%) and lowest in North America (25%).
Head injury remains the leading cause of death and severe disability in young adults, and it is also the most important single injury contributing to traumatic mortality and morbidity.
Traumatic brain injury (TBI) is a non-degenerative, non-congenital insult to the brain from an external mechanical force, possibly leading to permanent or temporary impairment of cognitive, physical, and psychosocial functions, with an associated diminished or altered state of consciousness.
There is growing evidence that medications may speed recovery by enhancing some neurological functions without impacting others. Pharmacotherapy is increasingly being used in both the sub-acute (less than 1 month post-TBI) and chronic (more than 1 month post-TBI) phases.
Amantadine is known to enhance neurotransmission, through the activation of dopamine-dependent brain circuits, and increases dopamine activity in pre-synapses and post- synapses, acting as an antagonist of the N-methyl D-aspartate receptor.
A study done on 184 patients of severe traumatic brain injury found better οutϲοme in the treatment group with amantadine sulfate as compared with the plaϲeƅο group over the 4-week treatment interval, and they demonstrated that amantadine improved recovery in patients with moderate and severe TBI.
Giaϲinο et al. used amantadine in 184 patients for 4 to 16 weeks after TBI, They found that Amantadine accelerated the pace of functional recovery during active treatment in patients with post-traumatic disorders of consciousness.
Cerebrolysin is a peptide preparation produced by a biotechnological process, a standardized enzymatic breakdown of purified, lipid-free brain proteins, a pharmacological agent with neuro-restorative and neuro-protective effects. It stimulates neuronal survival and differentiation, axonal growth and sprouting, the formation of new synapses, and neurogenesis in the dentate gyrus.
El Sayed et al. published a meta-analysis of the effect of different neuroprotective drugs in management of patients with traumatic brain injury resulting in substantial superiority of the cerebrolysin that was reflected in three-fold cognitive improvement and favorable Glasgow outcome score.
In a prospective, randomized, double-blind, placebo-controlled, parallel-group, multi-center phase IIIb/IV trial, the CAPTAIN I trial registered beneficial effects of Cerebrolysin after moderate to severe TBI.
The CAPTAIN II trial, enrolled 142 patients with moderate to severe TBI in a single-center, prospective, randomized, double-blind, placebo-controlled clinical trial confirms the benefits of Cerebrolysin in moderate to severe TBI.
In their retrospective case -control study, Lee et al., identified that an amantadine-plus-cerebrolysin regimen was shown to additively affect the conscious state of patients with prolonged disturbed consciousness secondary to acute brain injury, especially in patients who remained in a prolonged vegetative state.
sample size : 150 patients in three groups , 50 patients in each group.
Study procedures:
All selected patients fulfilling the inclusion criteria will be subjected to the following on admission:
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| standard of care | No Intervention | patients receiving the standard protocol of management of head injury in the ICU including
| |
| standard of care + Cerebrolysin | Experimental | patients receiving the standard protocol of management of head injury in the ICU plus 2 cycles of Cerebrolysin , each cycle 10 days, for total 20 days. From day 1 to day 10: cerebrolysin 50 ml once daily diluted in 250 ml normal saline intravenous infusion over 15 minutes. From day 21-30 : cerebrolysin 20 ml once daily diluted in 250 ml normal saline intravenous infusion over 15 minutes. |
|
| standard of care + Cerebrolysin + Amantadine sulfate | Experimental | patients receiving the standard protocol of management of head injury in the ICU plus amantadine sulfate at a dose of 100 mg twice daily on the day after randomization, with this dose will be continued for 14 days. The dose will be increased to 150 mg twice daily at week 3 and to 200 mg twice daily at week 4 (total 4 weeks), combined with 2 cycles of Cerebrolysin , each cycle 10 days, for total 20 days. From day 1 to day 10: cerebrolysin 50 ml once daily diluted in 250 ml normal saline intravenous infusion over 15 minutes. From day 21-30 : cerebrolysin 20 ml once daily diluted in 250 ml normal saline intravenous infusion over 15 minutes. |
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Cerebrolysin | Drug | Cerebrolysin, a mixture of free amino acids and low molecular weight peptides, has a neurotrophic factor-like activity with immediate pleiotropic neuroprotective activity and long-term multimodal effects on endogenous post-lesional regulation. Cerebrolysin has been suggested to exert beneficial effects on neurobehavioural functions, cognitive performance , and neuro-motor recovery , as part of initial therapy in severe and moderate acute TBI. |
| Measure | Description | Time Frame |
|---|---|---|
| The Glasgow Coma Scale (GCS) | The Glasgow Coma Scale (GCS) is used to assess the level of consciousness. It depends on the best motor, verbal and eye opening responses. GCS is used to classify insult severity as minor [GCS 13-15], moderate [GCS 9-12] and severe [GCS 3-8]. | Glasgow coma scale (GCS) will be recorded on admission, and every week up to 6 weeks of trauma to detect the improvement in level of consciousness after management in all groups. |
| Disability rating-scale for severe head trauma (DRS) | Disability rating-scale for severe head trauma (DRS) includes measures of arousability, awareness and responsivity of eye opening, verbalization, and motor response; cognitive ability of for Self Care Activities: understanding of feeding, dressing, and grooming; degree of assistance and supervision required; and employability. Scores range from 0 to 29, with higher values indicating greater disability. | DRS score will be collected at baseline and weekly through week 6 (during 4 weeks of treatment and 2 weeks after discontinuation). |
| Coma Recovery Scale-Revised (CRS-R) | Coma Recovery Scale-Revised (CRS-R) is a standardized neurobehavioral assessment tool comprising six organized subscales (i.e., auditory, visual, motor, oro-motor,verbal, communication, and arousal); scores range from 0 to 23, with higher scores indicating a higher level of neurobehavioral function. | CRS-R will be compared over the 4 weeks of treatment and during 2-weeks after discontinuation of treatment |
| The Glasgow Outcome Scale (GOS) | The Glasgow Outcome Scale (GOS) is one of the most widely used outcome instruments to assess global disability and recovery after traumatic brain injury. Patients in all groups will be assessed with The Glasgow Outcome Scale (GOS) on the end of 6th week which classify patients into: dead, vegetative state, severe disability, moderate disability and good recovery. | atients in all groups will be assessed with The Glasgow Outcome Scale (GOS) on the end of 6th week. |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Ragab D Elshabasy | faculty of medicine - Ain shams university | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Faculty of medicine - Ain shams university | Cairo | Egypt |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 27539610 | Background | El Sayed I, Zaki A, Fayed AM, Shehata GM, Abdelmonem S. A meta-analysis of the effect of different neuroprotective drugs in management of patients with traumatic brain injury. Neurosurg Rev. 2018 Apr;41(2):427-438. doi: 10.1007/s10143-016-0775-y. Epub 2016 Aug 18. | |
| 19326973 | Background | Chamoun RB, Robertson CS, Gopinath SP. Outcome in patients with blunt head trauma and a Glasgow Coma Scale score of 3 at presentation. J Neurosurg. 2009 Oct;111(4):683-7. doi: 10.3171/2009.2.JNS08817. |
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| ID | Term |
|---|---|
| D000070642 | Brain Injuries, Traumatic |
| ID | Term |
|---|---|
| D001930 | Brain Injuries |
| D001927 | Brain Diseases |
| D002493 | Central Nervous System Diseases |
| D009422 | Nervous System Diseases |
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| ID | Term |
|---|---|
| C006952 | cerebrolysin |
| D000547 | Amantadine |
| ID | Term |
|---|---|
| D000218 | Adamantane |
| D001952 | Bridged-Ring Compounds |
| D006844 | Hydrocarbons, Cyclic |
| D006838 | Hydrocarbons |
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| amantadine sulfate | Drug | The dopaminergic agonist amantadine enhances presynaptic dopamine release and inhibits dopamine reuptake, resulting in an increased amount of dopamine in the synaptic cleft. Amantadine may also increase the density of postsynaptic dopamine receptors and alter the conformation of these receptors. Amantadine acts as an NMDA receptor antagonist, blocking glutamate, an NMDA channel activator. This effect may be responsible for amantadine's possible beneficial effect soon after TBI |
|
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| 29701556 | Background | Dewan MC, Rattani A, Gupta S, Baticulon RE, Hung YC, Punchak M, Agrawal A, Adeleye AO, Shrime MG, Rubiano AM, Rosenfeld JV, Park KB. Estimating the global incidence of traumatic brain injury. J Neurosurg. 2018 Apr 27;130(4):1080-1097. doi: 10.3171/2017.10.JNS17352. Print 2019 Apr 1. |
| 15605342 | Background | Giacino JT, Kalmar K, Whyte J. The JFK Coma Recovery Scale-Revised: measurement characteristics and diagnostic utility. Arch Phys Med Rehabil. 2004 Dec;85(12):2020-9. doi: 10.1016/j.apmr.2004.02.033. |
| 22375973 | Background | Giacino JT, Whyte J, Bagiella E, Kalmar K, Childs N, Khademi A, Eifert B, Long D, Katz DI, Cho S, Yablon SA, Luther M, Hammond FM, Nordenbo A, Novak P, Mercer W, Maurer-Karattup P, Sherer M. Placebo-controlled trial of amantadine for severe traumatic brain injury. N Engl J Med. 2012 Mar 1;366(9):819-26. doi: 10.1056/NEJMoa1102609. |
| 25002279 | Background | Gosseries O, Di H, Laureys S, Boly M. Measuring consciousness in severely damaged brains. Annu Rev Neurosci. 2014;37:457-78. doi: 10.1146/annurev-neuro-062012-170339. Epub 2014 Jun 23. |
| 46957 | Background | Jennett B, Bond M. Assessment of outcome after severe brain damage. Lancet. 1975 Mar 1;1(7905):480-4. doi: 10.1016/s0140-6736(75)92830-5. |
| 32057086 | Background | Lee S, Lee HH, Lee Y, Lee J. Additive effect of cerebrolysin and amantadine on disorders of consciousness secondary to acquired brain injury: A retrospective case-control study. J Rehabil Med. 2020 Feb 27;52(2):jrm00025. doi: 10.2340/16501977-2654. |
| 31897941 | Background | Muresanu DF, Florian S, Homberg V, Matula C, von Steinbuchel N, Vos PE, von Wild K, Birle C, Muresanu I, Slavoaca D, Rosu OV, Strilciuc S, Vester J. Efficacy and safety of cerebrolysin in neurorecovery after moderate-severe traumatic brain injury: results from the CAPTAIN II trial. Neurol Sci. 2020 May;41(5):1171-1181. doi: 10.1007/s10072-019-04181-y. Epub 2020 Jan 2. |
| Background | Obenaus A. (2022).Traumatic brain injury, Reference Module in Neuroscience and Biobehavioral Psychology, Elsevier. |
| 31494820 | Background | Poon W, Matula C, Vos PE, Muresanu DF, von Steinbuchel N, von Wild K, Homberg V, Wang E, Lee TMC, Strilciuc S, Vester JC. Safety and efficacy of Cerebrolysin in acute brain injury and neurorecovery: CAPTAIN I-a randomized, placebo-controlled, double-blind, Asian-Pacific trial. Neurol Sci. 2020 Feb;41(2):281-293. doi: 10.1007/s10072-019-04053-5. Epub 2019 Sep 7. |
| 7073452 | Background | Rappaport M, Hall KM, Hopkins K, Belleza T, Cope DN. Disability rating scale for severe head trauma: coma to community. Arch Phys Med Rehabil. 1982 Mar;63(3):118-23. |
| 25607336 | Background | Spritzer SD, Kinney CL, Condie J, Wellik KE, Hoffman-Snyder CR, Wingerchuk DM, Demaerschalk BM. Amantadine for patients with severe traumatic brain injury: a critically appraised topic. Neurologist. 2015 Jan;19(2):61-4. doi: 10.1097/NRL.0000000000000001. |
| 29362596 | Background | Stan A, Birle C, Blesneag A, Iancu M. Cerebrolysin and early neurorehabilitation in patients with acute ischemic stroke: a prospective, randomized, placebo-controlled clinical study. J Med Life. 2017 Oct-Dec;10(4):216-222. |
| Background | Talsky A, Laura R. Pacione, Tammy Shaw, Lori Wasserman, Adam Lenny, Amol Verma, Gillian Hurwitz, Robyn Waxman, Andrew Morgan, Shree Bhalerao .(2011).Pharmacological interventions for traumatic brain injury. BC Med J; 53:26-31 |
| 4136544 | Background | Teasdale G, Jennett B. Assessment of coma and impaired consciousness. A practical scale. Lancet. 1974 Jul 13;2(7872):81-4. doi: 10.1016/s0140-6736(74)91639-0. No abstract available. |
| Background | Friedland D, Hutchinson P. Classification of traumatic brain injury. Advances in Clinical Neuroscience and Rehabilitation. 27 Jul 2013. |
| D006259 |
| Craniocerebral Trauma |
| D020196 | Trauma, Nervous System |
| D014947 | Wounds and Injuries |
| D009930 |
| Organic Chemicals |