Literature DB >> 19803786

The citicoline brain injury treatment (COBRIT) trial: design and methods.

Ross Zafonte1, William T Friedewald, Shing M Lee, Bruce Levin, Ramon Diaz-Arrastia, Beth Ansel, Howard Eisenberg, Shelly D Timmons, Nancy Temkin, Thomas Novack, Joseph Ricker, Randall Merchant, Jack Jallo.   

Abstract

Traumatic brain injury (TBI) is a major cause of death and disability. In the United States alone approximately 1.4 million sustain a TBI each year, of which 50,000 people die, and over 200,000 are hospitalized. Despite numerous prior clinical trials no standard pharmacotherapy for the treatment of TBI has been established. Citicoline, a naturally occurring endogenous compound, offers the potential of neuroprotection, neurorecovery, and neurofacilitation to enhance recovery after TBI. Citicoline has a favorable side-effect profile in humans and several meta-analyses suggest a benefit of citicoline treatment in stroke and dementia. COBRIT is a randomized, double-blind, placebo-controlled, multi-center trial of the effects of 90 days of citicoline on functional outcome in patients with complicated mild, moderate, and severe TBI. In all, 1292 patients will be recruited over an estimated 32 months from eight clinical sites with random assignment to citicoline (1000 mg twice a day) or placebo (twice a day), administered enterally or orally. Functional outcomes are assessed at 30, 90, and 180 days after the day of randomization. The primary outcome consists of a set of measures that will be analyzed as a composite measure using a global test procedure at 90 days. The measures comprise the following core battery: the California Verbal Learning Test II; the Controlled Oral Word Association Test; Digit Span; Extended Glasgow Outcome Scale; the Processing Speed Index; Stroop Test part 1 and Stroop Test part 2; and Trail Making Test parts A and B. Secondary outcomes include survival, toxicity, and rate of recovery.

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Year:  2009        PMID: 19803786      PMCID: PMC2824223          DOI: 10.1089/neu.2009.1015

Source DB:  PubMed          Journal:  J Neurotrauma        ISSN: 0897-7151            Impact factor:   5.269


  49 in total

1.  The Satisfaction With Life Scale.

Authors:  E Diener; R A Emmons; R J Larsen; S Griffin
Journal:  J Pers Assess       Date:  1985-02

2.  A randomized dose-response trial of citicoline in acute ischemic stroke patients. Citicoline Stroke Study Group.

Authors:  W M Clark; S J Warach; L C Pettigrew; R E Gammans; L A Sabounjian
Journal:  Neurology       Date:  1997-09       Impact factor: 9.910

3.  Effects of CDP-choline treatment on neurobehavioral deficits after TBI and on hippocampal and neocortical acetylcholine release.

Authors:  C E Dixon; X Ma; D W Marion
Journal:  J Neurotrauma       Date:  1997-03       Impact factor: 5.269

4.  The analysis of multiple endpoints in clinical trials.

Authors:  S J Pocock; N L Geller; A A Tsiatis
Journal:  Biometrics       Date:  1987-09       Impact factor: 2.571

5.  Can traumatic brain injury surveillance systems be used to link individuals with TBI to services?

Authors:  Pat L Sample; Nikole Johns; Barbara Gabella; Jean Langlois
Journal:  Brain Inj       Date:  2004-12       Impact factor: 2.311

6.  Elevated activity of phospholipid biosynthetic enzymes in substantia nigra of patients with Parkinson's disease.

Authors:  B M Ross; N Mamalias; A Moszczynska; A H Rajput; S J Kish
Journal:  Neuroscience       Date:  2001       Impact factor: 3.590

7.  Chronic citicoline increases phosphodiesters in the brains of healthy older subjects: an in vivo phosphorus magnetic resonance spectroscopy study.

Authors:  S M Babb; L L Wald; B M Cohen; R A Villafuerte; S A Gruber; D A Yurgelun-Todd; P F Renshaw
Journal:  Psychopharmacology (Berl)       Date:  2002-03-22       Impact factor: 4.530

8.  Effects of citicoline on phospholipid and glutathione levels in transient cerebral ischemia.

Authors:  R M Adibhatla; J F Hatcher; R J Dempsey
Journal:  Stroke       Date:  2001-10       Impact factor: 7.914

9.  Cytochemical detection of superoxide in cerebral inflammation and ischemia in vivo.

Authors:  C D Kontos; E P Wei; J I Williams; H A Kontos; J T Povlishock
Journal:  Am J Physiol       Date:  1992-10

10.  Effects of CDP-choline on the recovery of patients with head injury.

Authors:  V Calatayud Maldonado; J B Calatayud Pérez; J Aso Escario
Journal:  J Neurol Sci       Date:  1991-07       Impact factor: 3.181
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  27 in total

Review 1.  Medical therapies for concussion.

Authors:  William P Meehan
Journal:  Clin Sports Med       Date:  2011-01       Impact factor: 2.182

Review 2.  Therapies targeting lipid peroxidation in traumatic brain injury.

Authors:  Tamil Selvan Anthonymuthu; Elizabeth Megan Kenny; Hülya Bayır
Journal:  Brain Res       Date:  2016-02-10       Impact factor: 3.252

3.  Cerebrospinal fluid cortisol and progesterone profiles and outcomes prognostication after severe traumatic brain injury.

Authors:  Martina Santarsieri; Christian Niyonkuru; Emily H McCullough; Julie A Dobos; C Edward Dixon; Sarah L Berga; Amy K Wagner
Journal:  J Neurotrauma       Date:  2014-02-06       Impact factor: 5.269

4.  Significant improvements in cognitive performance post-transcranial, red/near-infrared light-emitting diode treatments in chronic, mild traumatic brain injury: open-protocol study.

Authors:  Margaret A Naeser; Ross Zafonte; Maxine H Krengel; Paula I Martin; Judith Frazier; Michael R Hamblin; Jeffrey A Knight; William P Meehan; Errol H Baker
Journal:  J Neurotrauma       Date:  2014-05-08       Impact factor: 5.269

5.  Association of a common genetic variant within ANKK1 with six-month cognitive performance after traumatic brain injury.

Authors:  John K Yue; Angela M Pronger; Adam R Ferguson; Nancy R Temkin; Sourabh Sharma; Jonathan Rosand; Marco D Sorani; Thomas W McAllister; Jason Barber; Ethan A Winkler; Esteban G Burchard; Donglei Hu; Hester F Lingsma; Shelly R Cooper; Ava M Puccio; David O Okonkwo; Ramon Diaz-Arrastia; Geoffrey T Manley
Journal:  Neurogenetics       Date:  2015-01-30       Impact factor: 2.660

6.  Impact of aromatase genetic variation on hormone levels and global outcome after severe TBI.

Authors:  Julie A Garringer; Christian Niyonkuru; Emily H McCullough; Tammy Loucks; C Edward Dixon; Yvette P Conley; Sarah Berga; Amy K Wagner
Journal:  J Neurotrauma       Date:  2013-08-15       Impact factor: 5.269

7.  Unsupervised Machine Learning Reveals Novel Traumatic Brain Injury Patient Phenotypes with Distinct Acute Injury Profiles and Long-Term Outcomes.

Authors:  Kaitlin A Folweiler; Danielle K Sandsmark; Ramon Diaz-Arrastia; Akiva S Cohen; Aaron J Masino
Journal:  J Neurotrauma       Date:  2020-03-11       Impact factor: 5.269

8.  Measuring outcome in traumatic brain injury treatment trials: recommendations from the traumatic brain injury clinical trials network.

Authors:  Emilia Bagiella; Thomas A Novack; Beth Ansel; Ramon Diaz-Arrastia; Sureyya Dikmen; Tessa Hart; Nancy Temkin
Journal:  J Head Trauma Rehabil       Date:  2010 Sep-Oct       Impact factor: 2.710

Review 9.  Supplements, nutrition, and alternative therapies for the treatment of traumatic brain injury.

Authors:  Brandon P Lucke-Wold; Aric F Logsdon; Linda Nguyen; Ahmed Eltanahay; Ryan C Turner; Patrick Bonasso; Chelsea Knotts; Adam Moeck; Joseph C Maroon; Julian E Bailes; Charles L Rosen
Journal:  Nutr Neurosci       Date:  2016-10-05       Impact factor: 4.994

10.  Safety and efficacy of Cerebrolysin in acute brain injury and neurorecovery: CAPTAIN I-a randomized, placebo-controlled, double-blind, Asian-Pacific trial.

Authors:  W Poon; C Matula; P E Vos; D F Muresanu; N von Steinbüchel; K von Wild; V Hömberg; E Wang; T M C Lee; S Strilciuc; J C Vester
Journal:  Neurol Sci       Date:  2019-09-07       Impact factor: 3.307
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