Quantitative diffusion tensor imaging in cerebral palsy due to periventricular white matter injury

doi:10.1093/brain/awh600

Brain Advance Access originally published online on July 27, 2005
Brain 2005 128(11):2562-2577; doi:10.1093/brain/awh600

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Quantitative diffusion tensor imaging in cerebral palsy due to periventricular white matter injury

Bejoy Thomas¹^,4^,*, Maria Eyssen²^,*, Ronald Peeters¹, Guy Molenaers³, Paul Van Hecke¹, Paul De Cock² and Stefan Sunaert¹

¹ Department of Radiology, ² Department of Pediatrics, and ³ Department of Orthopedics, University Hospitals, KUL, Leuven, Belgium and ⁴ Department of Radiology, Sree Chitra Tirunal Institute for Medical Sciences and Technology, Trivandrum, Kerala, India

Correspondence to: Stefan Sunaert, Department of Radiology, University Hospitals, Katholieke Universiteit Leuven, Herestraat 49, 3000 Leuven, Belgium E-mail: stefan.sunaert{at}uz.kuleuven.be

Periventricular white matter injury (PWI) is a major form ofbrain injury observed in congenital hemiparesis. The aim ofthis study is to determine the usefulness of diffusion tensorimaging (DTI) and fibre tracking in delineating the primaryand secondary degenerative changes in cerebral white matterand deep grey matter in patients with spastic cerebral palsydue to PWI and to look for any possible reorganization of theaxonal architecture. Five hemiparetic cerebral palsy patients(median age 14 years) with known PWI were prospectively studiedwith DTI of the brain at 1.5T and quantitatively compared withfive age and sex matched controls. Fibre tracts for variouscorticofugal, thalamocortical and association tracts were generatedand analysed for the DTI fibre count and for diffusion parameters.A region of interest based analysis was performed for the directionallyaveraged mean diffusivity (D_av) and fractional anisotropy (FA)values in various white matter locations in the brain and thebrainstem and in the deep grey matter nuclei. Group statisticswere performed for these parameters using Mann–WhitneyU-test comparing the affected sides in patients with eitherside in controls and the unaffected side in hemiparetics. Therewas significant reduction in DTI fibre count on the lesionalside involving corticospinal tract (CST), corticobulbar tract(CBT) and superior thalamic radiation in the patient group comparedwith controls. Also there was an increase in DTI fibre countin the unaffected side of the hemiparetic patients in CST andCBT, which reached statistical significance only in CBT. Thecorpus callosum, cingulum, superior longitudinal fasciculusand middle cerebellar peduncle failed to show any significantchange. ROI measurements on the primary site of white matterlesion and the thalamus revealed a significant increase in D_avand decrease in FA, suggesting primary degeneration. The CSTin the brainstem, the body of corpus callosum and the head ofcaudate and lentiform nuclei showed features of secondary degenerationon the affected side. The CST on the unaffected side of hemipareticswas found to have a significant decrease in D_av and an increasein FA. Thus the degeneration of various motor and sensory pathways,as well as deep grey matter structures, appears to be importantin determining the pathophysiological mechanisms in patientswith congenital PWI. Also evidence suggesting the reorganizationof sensorimotor tracts in the unaffected side of spastic hemipareticpatients was noted.

Key Words: cerebral palsy; diffusion tensor; hemiparesis; magnetic resonance (MR); white matter

Abbreviations: ATR = anterior thalamic radiation; CBT = corticobulbar tract; CC = corpus callosum; CG = cingulate fasciculus; CST = corticospinal tract; D_av = directionally averaged mean diffusivity; DTI = diffusion tensor imaging; FA = fractional anisotropy; FT = fibre tractography; MCP = middle cerebellar peduncle; PTR = posterior thalamic radiation; PWI = periventricular white matter injury; ROI = region of interest; SLF = superior longitudinal fasciculus; STR = superior thalamic radiation

Received March 26, 2005. Revised June 21, 2005. Accepted June 24, 2005.

^* These authors contributed equally to this work

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