OBJECTIVE: Preterm infants have a high incidence of neurodevelopmental impairment associated with diffuse cerebral white matter abnormalities and also a high incidence of serious respiratory disease. However, it is unclear if lung disease and brain injury are related, and previous research has been impeded by confounding effects, including prematurity and infection. Using a new approach that permits multivariate statistical analysis, we tested the hypothesis that lung disease is associated with specific white matter abnormalities, detected as reduced fractional anisotropy (FA) in diffusion tensor imaging data. METHODS: Fifty-three preterm infants with no evidence of focal abnormality on conventional MRI were studied at term-equivalent age by using tract-based spatial statistics, an automated observer-independent method for voxelwise analysis of major white matter pathways. RESULTS: In several white matter tracts, FA decreased with a linear relation to the gestational age at birth. Independent of the confounding effects of prematurity and age at scan, respiratory disease was associated with specific white matter abnormalities in preterm infants; those infants receiving mechanical ventilation for >2 days in the perinatal period (n = 10) showed reduced FA in the genu of the corpus callosum, whereas subjects with chronic lung disease (n = 15) displayed a reduction in FA in the left inferior longitudinal fasciculus. CONCLUSION: Independent of the degree of prematurity, respiratory disease is associated with cerebral white matter abnormalities.
OBJECTIVE: Preterm infants have a high incidence of neurodevelopmental impairment associated with diffuse cerebral white matter abnormalities and also a high incidence of serious respiratory disease. However, it is unclear if lung disease and brain injury are related, and previous research has been impeded by confounding effects, including prematurity and infection. Using a new approach that permits multivariate statistical analysis, we tested the hypothesis that lung disease is associated with specific white matter abnormalities, detected as reduced fractional anisotropy (FA) in diffusion tensor imaging data. METHODS: Fifty-three preterm infants with no evidence of focal abnormality on conventional MRI were studied at term-equivalent age by using tract-based spatial statistics, an automated observer-independent method for voxelwise analysis of major white matter pathways. RESULTS: In several white matter tracts, FA decreased with a linear relation to the gestational age at birth. Independent of the confounding effects of prematurity and age at scan, respiratory disease was associated with specific white matter abnormalities in preterm infants; those infants receiving mechanical ventilation for >2 days in the perinatal period (n = 10) showed reduced FA in the genu of the corpus callosum, whereas subjects with chronic lung disease (n = 15) displayed a reduction in FA in the left inferior longitudinal fasciculus. CONCLUSION: Independent of the degree of prematurity, respiratory disease is associated with cerebral white matter abnormalities.
Authors: Eliza H Myers; Michelle Hampson; Betty Vohr; Cheryl Lacadie; Stephen J Frost; Kenneth R Pugh; Karol H Katz; Karen C Schneider; Robert W Makuch; R Todd Constable; Laura R Ment Journal: Neuroimage Date: 2010-03-25 Impact factor: 6.556
Authors: Katherine M Mullen; Betty R Vohr; Karol H Katz; Karen C Schneider; Cheryl Lacadie; Michelle Hampson; Robert W Makuch; Allan L Reiss; R Todd Constable; Laura R Ment Journal: Neuroimage Date: 2010-11-10 Impact factor: 6.556
Authors: Dawn Gano; Sarah K Andersen; J Colin Partridge; Sonia L Bonifacio; Duan Xu; David V Glidden; Donna M Ferriero; A James Barkovich; Hannah C Glass Journal: J Pediatr Date: 2014-10-12 Impact factor: 4.406
Authors: Young Eun Kim; Won Soon Park; Dong Kyung Sung; So Yoon Ahn; Se In Sung; Hye Soo Yoo; Yun Sil Chang Journal: Pediatr Res Date: 2016-04-11 Impact factor: 3.756