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Regional specificity of magnetic resonance imaging and histopathology following cerebral ischemia in preterm fetal sheep

Regional specificity of magnetic resonance imaging and histopathology following cerebral ischemia in preterm fetal sheep
Regional specificity of magnetic resonance imaging and histopathology following cerebral ischemia in preterm fetal sheep
Early and accurate evaluation of the nature and extent of cerebral injury in the preterm infant brain is important for prognostication and decision making in the neonatal intensive care unit. The capability of magnetic resonance imaging (MRI) to define acute ischemic changes in white and gray matter in comparison to contemporaneous histopathology has not been adequately ascertained. The aim of this study is to assess whether postmortem MRI predicts the nature and extent of brain injury in a preterm fetal sheep model of cerebral hypoperfusion. MRI examinations were performed on fetal sheep brains (d99-100 gestation), perfusion fixed 72 hours after an ischemic insult (n = 7) with left-hemispheric placement of a microdialysis probe and compared with sham-occlusion (n = 3) and unoperated-control fetuses (n = 4). Cerebral ischemia was associated with MRI changes including global cerebral injury and diffuse white matter signal abnormality, which corresponded closely with histological damage. However, histological changes in deep structures, including the corona radiata, thalamus, and globus pallidus were not reliably detected on MRI. These findings confirm that in preterm fetal sheep, MRI can accurately assess cortical gray matter and subcortical and periventricular white matter abnormalities 3 days after hypoxic-ischemic injury but appears to have limited sensitivity to detect injury to deep structures.
magnetic resonance imaging, infant, research, brain, hypoxia-ischemia, pregnancy, cerebral infarction, diagnosis, newborn, pathology, globus pallidus, sheep, intensive care, female, humans, animals, thalamus, premature, methods, brain ischemia, histocytochemistry, fetus, linear models, animal, fetal sheep, disease models, fetal, fetal diseases
1933-7191
182-191
Fraser, M.
525afe70-c2ed-49e4-b46d-3fe44dd2de68
Bennet, L.
4e5d5c6a-0518-4c8a-b042-8bc4f39aa766
Helliwell, R.
0977c98f-681b-4aea-9cff-3e7e163a3913
Wells, S.
7650a420-8b71-4713-a6af-71e186a0d792
Williams, C.
382b26c3-2135-4e96-ae1d-4c6da642ce6a
Gluckman, P.
dadc86d4-4eaa-4589-b560-413a9e564558
Gunn, A.J.
e95effbe-9320-4827-89b6-534da9f56505
Inder, T.
773dc5fb-4329-40ab-8b4e-473ec05ceeb2
Fraser, M.
525afe70-c2ed-49e4-b46d-3fe44dd2de68
Bennet, L.
4e5d5c6a-0518-4c8a-b042-8bc4f39aa766
Helliwell, R.
0977c98f-681b-4aea-9cff-3e7e163a3913
Wells, S.
7650a420-8b71-4713-a6af-71e186a0d792
Williams, C.
382b26c3-2135-4e96-ae1d-4c6da642ce6a
Gluckman, P.
dadc86d4-4eaa-4589-b560-413a9e564558
Gunn, A.J.
e95effbe-9320-4827-89b6-534da9f56505
Inder, T.
773dc5fb-4329-40ab-8b4e-473ec05ceeb2

Fraser, M., Bennet, L., Helliwell, R., Wells, S., Williams, C., Gluckman, P., Gunn, A.J. and Inder, T. (2007) Regional specificity of magnetic resonance imaging and histopathology following cerebral ischemia in preterm fetal sheep. Reproductive Sciences, 14 (2), 182-191. (doi:10.1177/1933719107299612).

Record type: Article

Abstract

Early and accurate evaluation of the nature and extent of cerebral injury in the preterm infant brain is important for prognostication and decision making in the neonatal intensive care unit. The capability of magnetic resonance imaging (MRI) to define acute ischemic changes in white and gray matter in comparison to contemporaneous histopathology has not been adequately ascertained. The aim of this study is to assess whether postmortem MRI predicts the nature and extent of brain injury in a preterm fetal sheep model of cerebral hypoperfusion. MRI examinations were performed on fetal sheep brains (d99-100 gestation), perfusion fixed 72 hours after an ischemic insult (n = 7) with left-hemispheric placement of a microdialysis probe and compared with sham-occlusion (n = 3) and unoperated-control fetuses (n = 4). Cerebral ischemia was associated with MRI changes including global cerebral injury and diffuse white matter signal abnormality, which corresponded closely with histological damage. However, histological changes in deep structures, including the corona radiata, thalamus, and globus pallidus were not reliably detected on MRI. These findings confirm that in preterm fetal sheep, MRI can accurately assess cortical gray matter and subcortical and periventricular white matter abnormalities 3 days after hypoxic-ischemic injury but appears to have limited sensitivity to detect injury to deep structures.

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More information

Published date: 2007
Keywords: magnetic resonance imaging, infant, research, brain, hypoxia-ischemia, pregnancy, cerebral infarction, diagnosis, newborn, pathology, globus pallidus, sheep, intensive care, female, humans, animals, thalamus, premature, methods, brain ischemia, histocytochemistry, fetus, linear models, animal, fetal sheep, disease models, fetal, fetal diseases

Identifiers

Local EPrints ID: 61118
URI: http://eprints.soton.ac.uk/id/eprint/61118
ISSN: 1933-7191
PURE UUID: 9c161c1c-4bc9-423e-aa69-1b3fbceb5135

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Date deposited: 10 Sep 2008
Last modified: 15 Mar 2024 11:24

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Contributors

Author: M. Fraser
Author: L. Bennet
Author: R. Helliwell
Author: S. Wells
Author: C. Williams
Author: P. Gluckman
Author: A.J. Gunn
Author: T. Inder

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