Probabilistic diffusion tractography of the optic radiations and visual function in preterm infants at term equivalent age

doi:10.1093/brain/awm327

Brain 2008 131(2):573-582; doi:10.1093/brain/awm327

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Probabilistic diffusion tractography of the optic radiations and visual function in preterm infants at term equivalent age

Laura Bassi¹^,2^,3, Daniela Ricci³^,4, Anna Volzone³^,5, Joanna M. Allsop², Latha Srinivasan²^,3, Aakash Pai², Carmen Ribes²^,3^,6, Luca A. Ramenghi¹, Eugenio Mercuri⁴, Fabio Mosca¹, A. David Edwards²^,3^,7, Frances M. Cowan³^,7, Mary A. Rutherford²^,3^,7 and Serena J. Counsell²^,7

¹NICU, Institute of Pediatrics and Neonatology, Fondazione IRCCS Ospedale Maggiore Policlinico, Mangiagalli e Regina Elena, University of Milan, Italy, ²Robert Steiner MR, Unit, ³Department of Paediatrics, Imaging Sciences Department, MRC Clinical Sciences Centre, Imperial College London, Hammersmith Campus, London, UK, ⁴Paediatric Neurology Unit, Catholic University, Rome, ⁵E. Medea Scientific Institute, Conegliano Research Centre, Conegliano (TV), Italy, ⁶Department of Neonatology Hospital Vall d’Hebron, Barcelona, Spain and ⁷Hammersmith/St Mary's Comprehensive Biomedical Research Centre, DuCane Road, London, UK

Correspondence to: Dr Serena J. Counsell, Robert Steiner MR Unit, Imaging Sciences Department, Imperial College London, Hammersmith Hospital, DuCane Road, London, W12 0HS, UK E-mail: serena.counsell{at}imperial.ac.uk

Children born prematurely have a high incidence of visual disorderswhich cannot always be explained by focal retinal or brain lesions.The aim of this study was to test the hypothesis that visualfunction in preterm infants is related to the microstructuraldevelopment of white matter in the optic radiations. We useddiffusion tensor imaging (DTI) with probabilistic diffusiontractography to delineate the optic radiations at term equivalentage and compared the fractional anisotropy (FA) to a contemporaneousevaluation of visual function. Thirty-seven preterm infants(19 male) born at median (range) 28⁺⁴ (24⁺¹–32⁺³) weeksgestational age, were examined at a post-menstrual age of 42(39⁺⁶–43) weeks. MRI and DTI were acquired on a 3 TeslaMR system with DTI obtained in 15 non-collinear directions witha b value of 750 s/mm². Tracts were generated from a seed maskplaced in the white matter lateral to the lateral geniculatenucleus and mean FA values of these tracts were determined.Visual assessment was performed using a battery of nine itemsassessing different aspects of visual abilities. Ten infantshad evidence of cerebral lesions on conventional MRI. Multipleregression analysis demonstrated that the visual assessmentscore was independently correlated with FA values, but not gestationalage at birth, post-menstrual age at scan or the presence oflesions on conventional MRI. The occurrence of mild retinopathyof prematurity did not affect the FA measures or visual scores.We then performed a secondary analysis using tract-based spatialstatistics to determine whether global brain white matter developmentwas related to visual function and found that only FA in theoptic radiations was correlated with visual assessment score.Our results suggest that in preterm infants at term equivalentage visual function is directly related to the development ofwhite matter in the optic radiations.

Key Words: optic radiation; preterm; infant; brain; tractography

Abbreviations: DTI, diffusion tensor imaging; FA, fractional anisotropy; GA, gestational age; PMA, post-menstrual age; PVL, periventricular leucomalacia; ROI, region of interest; ROP, retinopathy of prematurity; SNR, sound-to-noise ratio; TBSS, tract-based spatial statistics

Received September 6, 2007. Revised December 4, 2007. Accepted December 12, 2007.

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