Quantified Corticospinal Tract Diffusion Restriction Predicts Neonatal Stroke Outcome

doi:10.1161/01.STR.0000258101.67119.72

Published Online
on February 1, 2007

Stroke. 2007
Published online before print February 1, 2007, doi: 10.1161/01.STR.0000258101.67119.72

A more recent version of this article appeared on March 1, 2007

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	CT and MRI
	Acute Cerebral Infarction
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	Stroke in Children and the Young

Submitted on June 23, 2006
Revised on October 6, 2006
Accepted on October 29, 2006

Quantified Corticospinal Tract Diffusion Restriction Predicts Neonatal Stroke Outcome

Adam Kirton MD, MSc, FRCPC^*; Manohar Shroff MD; Tharshini Visvanathan BSc; and Gabrielle deVeber MD, MHSc, FRCPC

From Children’s Stroke Program (A.K., T.V., G.d.V.), Division of Neurology and Department of Radiology (M.S.), The Hospital for Sick Children, Toronto, ON, Canada.

^* To whom correspondence should be addressed. E-mail: adam.kirton{at}sickkids.ca.

Background and Purpose--Neonatal arterial ischemic stroke occursin $≥$ 1:4000 births. Many children experience motor deficits butacute predictors of outcome are lacking. Diffusion-weightedMRI changes in descending corticospinal tracts remote from arterialischemic stroke may represent pre-Wallerian degeneration. Weverify and quantify this signal and correlate it with motoroutcome.

Methods--Fourteen neonates with acute arterial ischemicstroke and $≥$ 12 months follow-up with the Pediatric Stroke OutcomeMeasure were included. Quantitative measurements of descendingcorticospinal tracts diffusion-weighted MRI signal were developedusing Image J software.

Results--Ipsilesional descending corticospinaltract diffusion-weighted MRI signal was abnormal in 10 neonateswith decreased apparent diffusion coefficients (P<0.001).Poor outcome correlated with: (1) percentage of peduncle (P=0.002);(2) length of descending corticospinal tracts P<0.001); and(3) volume of descending corticospinal tracts (P=0.002). Noneof: (1) any peduncle; (2) any posterior limb of the internalcapsule; or (3) infarct volume correlated with outcome. Allchildren without descending corticospinal tracts signal hadnormal outcome. Chronic Wallerian degeneration was seen in allchildren with hemiparesis. Software-assisted analysis was superiorto visual inspection with excellent reliability (intra-classcorrelation coefficient $≥$ 0.9).

Conclusion--Descending corticospinaltracts diffusion-weighted MRI signal is predictive of motoroutcome from neonatal arterial ischemic stroke. This accurate,reliable, and simple tool will impact decision making in acuteneonatal stroke.

Key words: cerebral palsy • diffusion-weighted imaging • neonate • stroke

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