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Articles

Methylphenidate-mediated motor control network enhancement in patients with traumatic brain injury

, , , , , , & show all
Pages 1040-1049 | Received 25 Jul 2017, Accepted 22 Apr 2018, Published online: 08 May 2018
 

ABSTRACT

Primary Objective: To investigate functional improvement late (>6 months) after traumatic brain injury (TBI). To this end, we conducted a double-blind, placebo-controlled experimental medicine study to test the hypothesis that a widely used cognitive enhancer would benefit patients with TBI.

Research Design: We focused on motor control function using a sequential finger opposition fMRI paradigm in both patients and age-matched controls.

Methods and Procedures: Patients’ fMRI and DTI scans were obtained after randomised administration of methylphenidate or placebo. Controls were scanned without intervention. To assess differences in motor speed, we compared reaction times from the baseline condition of a sustained attention task.

Main Outcomes and Results: Patients’ reaction times correlated with wide-spread motor-related white matter abnormalities. Administration of methylphenidate resulted in faster reaction times in patients, which were not significantly different from those achieved by controls. This was also reflected in the fMRI findings in that patients on methylphenidate activated the left inferior frontal gyrus significantly more than when on placebo. Furthermore, stronger functional connections between pre-/post-central cortices and cerebellum were noted for patients on methylphenidate.

Conclusions: Our findings suggest that residual functionality in patients with TBI may be enhanced by a single dose of methylphenidate.

Declaration of interest

The study was funded by the Evelyn Trust – grant number 06/20. C.D. 610 was funded by the Clinical Academic Research Awards organised by the East of England Multi Professional Deanery. B.J.S. consults for Cambridge Cognition, Otsuka, Servier and Lundbeck. She holds a grant from Janssen/J&J and has share options in Cambridge Cognition. A.B. is supported by NIHR CLAHRC, East of England. D.K.M. is supported by the Neuroscience Theme of the NIHR Cambridge 615 Biomedical Research Centre and NIHR Senior Investigator awards, and by Framework Program 7 funding from the European Commission (TBIcare). He has received lecture and consultancy fees and support for research from Glaxo SmithKline, Solvay and Linde. E.A.S. is funded by the Stephen Erskine Fellowship, Queens’ College, Cambridge, UK.

Additional information

Funding

This work was supported by the Evelyn Trust [06/20].

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