Rehabilitation and Functional Neuroimaging Dose-Response Trajectories for Clinical Trials

doi:10.1177/1545968305281892

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Rehabilitation and Functional Neuroimaging Dose-Response Trajectories for Clinical Trials

Bruce H. Dobkin

Department of Neurology, University of California Los Angeles, Geffen School of Medicine, bdobkin{at}mednet.ucla.edu

Background. In clinical trials, behavioral outcomes and physiologicalmeasures of activity-dependent plasticity that evolve with task-orientedtherapies may fail to reach statistical significance. When significant,clinical effectiveness may not be robust enough to alter professionalpractices. Objective. Provide the conceptual basis for a researchdesign to optimize the effect of an experimental treatment.Methods. Literature review. Results. Research designs usuallydo not take into consideration the dynamic state of each subject’spotential responsiveness to an intervention. Providing a rational,rather than convenient, intensity and duration of therapy mayremedy this potential confounder for clinical trials. To determinewhether a most effective dose of a therapy exists, investigatorscould assess subjects before the intervention, administer interimmeasures at planned intervals, and continue the interventionuntil the primary behavioral outcomes or functional imagingparameters or both reach a plateau for at least 15 h of additionaltreatment. Conclusion. Promising interventions ought to be continuedin phase II/III trials until subjects reach an asymptote inthe primary outcome for behavioral gains. For neuroimaging studiesthat aim to correlate brain-behavior measures during rehabilitation,the specific intervention should also continue until behavioralgains and cerebral adaptations have attained a persistent plateau.Future trials can investigate whether functional neuroimagingperformed in parallel with repeated behavioral assessments canbetter inform researchers about the optimal duration of an experimentaltherapy and a subject’s maximal capacity for intervention-inducedcerebral reorganization.

Key Words: Stroke • Motor learning • Plasticity • Physical therapy • fMRI • Transcranial magnetic stimulation

Neurorehabilitation and Neural Repair, Vol. 19, No. 4, 276-282 (2005)
DOI: 10.1177/1545968305281892

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