Loading…

Prominent signal intensity of T sub(1)/T sub(2) prolongation in subcortical white matter of the anterior temporal region on conventional screening MRI of late preterm infants with normal development

Purpose - This study discusses prominent signal intensity of T sub(1)/T sub(2) prolongation of subcortical white matter within the anterior temporal region in premature infant brains that radiologists may encounter when interpreting conventional screening MRIs. Materials and Methods - T sub(1)- and...

Full description

Saved in:
Bibliographic Details
Published in:Magnetic resonance imaging 2008-12, Vol.26 (10), p.1374-1380
Main Authors: Wuttikul, Chatchada, Taoka, Toshiaki, Akashi, Toshiaki, Nakagawa, Hiroyuki, Miyasaka, Toshiteru, Sakamoto, Masahiko, Takayama, Katsutoshi, Wada, Takeshi, Kitano, Satoru, Takahama, Junko, Marugami, Nagaaki, Kichikawa, Kimihiko
Format: Article
Language:English
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Purpose - This study discusses prominent signal intensity of T sub(1)/T sub(2) prolongation of subcortical white matter within the anterior temporal region in premature infant brains that radiologists may encounter when interpreting conventional screening MRIs. Materials and Methods - T sub(1)- and T sub(2)-weighted images of 69 preterm and term infants with no neurological abnormalities or developmental delays were evaluated retrospectively for areas of prominent signal intensity of T sub(1)/T sub(2) prolongation in white matter. We measured signal intensities of anterior temporal white matter, deep temporal white matter, frontopolar white matter and subcortical white matter of the precentral gyrus. We accessed chronological changes in signal intensity in the anterior and deep temporal white matter. We also analyzed variance tests among the signal intensity ratios to the ipsilateral thalamus of white matter areas by gestational age. Results - There was high frequency of prominent signal intensity of T sub(1)/T sub(2) prolongation in the temporal tip, particularly at a gestational age of 36-38 weeks. Signal intensity ratio of the anterior temporal white matter was lower on T sub(1)-weighted images and higher on T sub(2)-weighted images, and the finding became less prominent with increasing gestational age. The signal intensity ratios of anterior temporal white matter at a gestational age of 36-37 weeks and 38-39 weeks were significantly different from other regions. Conclusion - Prominent signal intensity of T sub(1)/T sub(2) prolongation of subcortical white matter of the anterior temporal region is seen in normal premature infants, especially those at 36-39 gestational weeks. Although it is a prominent finding, radiologists should understand that these findings do not represent a pathological condition.
ISSN:0730-725X
DOI:10.1016/j.mri.2008.04.014