Extracellular amino acids and lipid peroxidation products in periventricular white matter during and after cerebral ischemia in preterm fetal sheep
Extracellular amino acids and lipid peroxidation products in periventricular white matter during and after cerebral ischemia in preterm fetal sheep
It is widely hypothesized that accumulation of excitatory amino acids, and oxygen free radicals during or after exposure to hypoxia-ischemia play a pivotal role in preterm periventricular white matter injury; however, there is limited evidence in the intact brain. In preterm fetal sheep (0.65 gestation; term 147 days) we found no significant increase in extracellular levels of excitatory amino acids measured by microdialysis in the periventricular white matter during cerebral ischemia induced by bilateral carotid occlusion. There was no significant change in 8-isoprostane or malondialdehyde levels in the early phase of recovery after occlusion. In contrast, there was a significant delayed increase in most amino acids and in malondialdehyde (but not 8-isoprostane) that was maximal approximately 2-3 days after occlusion. The increase in glutamate was significantly correlated with a secondary increase in cortical impedance, an index of cytotoxic edema, and with white matter damage 3 days post-insult. In conclusion, no significant accumulation of cytotoxins was found within immature white matter during cerebral ischemia. Although a minority of fetuses showed a delayed increase in some cytotoxins, this occurred many days after ischemia, in association with secondary cytotoxic edema, strongly suggesting that these changes are mainly a consequence of evolving cell death
2214-2223
Fraser, Mhoyra
a6cac768-5b39-47b7-b3aa-ceeb81148354
Bennet, Laura
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Van Zijl, Pierre L.
4527ecbf-4a06-4715-8f54-afd082ee35e2
Mocatta, Tessa J.
778f6008-7ff4-4c97-892e-2642d766bb50
Williams, Christopher E.
8678f81f-ba76-467a-978c-9a219eea9921
Gluckman, Peter D.
ef2e8b92-0b76-4a12-bd7c-01b0674f94d3
Winterbourn, Christine C.
02536102-9210-4d32-b01d-9bcb15af1cdf
Gunn, Alistair J.
86d02028-3434-440d-8eae-f9c97938ee47
June 2008
Fraser, Mhoyra
a6cac768-5b39-47b7-b3aa-ceeb81148354
Bennet, Laura
55ae2cc7-0d51-4673-bf9c-ac6c5d00d18b
Van Zijl, Pierre L.
4527ecbf-4a06-4715-8f54-afd082ee35e2
Mocatta, Tessa J.
778f6008-7ff4-4c97-892e-2642d766bb50
Williams, Christopher E.
8678f81f-ba76-467a-978c-9a219eea9921
Gluckman, Peter D.
ef2e8b92-0b76-4a12-bd7c-01b0674f94d3
Winterbourn, Christine C.
02536102-9210-4d32-b01d-9bcb15af1cdf
Gunn, Alistair J.
86d02028-3434-440d-8eae-f9c97938ee47
Fraser, Mhoyra, Bennet, Laura, Van Zijl, Pierre L., Mocatta, Tessa J., Williams, Christopher E., Gluckman, Peter D., Winterbourn, Christine C. and Gunn, Alistair J.
(2008)
Extracellular amino acids and lipid peroxidation products in periventricular white matter during and after cerebral ischemia in preterm fetal sheep.
Journal of Neurochemistry, 105 (6), .
(doi:10.1111/j.1471-4159.2008.05313.x).
Abstract
It is widely hypothesized that accumulation of excitatory amino acids, and oxygen free radicals during or after exposure to hypoxia-ischemia play a pivotal role in preterm periventricular white matter injury; however, there is limited evidence in the intact brain. In preterm fetal sheep (0.65 gestation; term 147 days) we found no significant increase in extracellular levels of excitatory amino acids measured by microdialysis in the periventricular white matter during cerebral ischemia induced by bilateral carotid occlusion. There was no significant change in 8-isoprostane or malondialdehyde levels in the early phase of recovery after occlusion. In contrast, there was a significant delayed increase in most amino acids and in malondialdehyde (but not 8-isoprostane) that was maximal approximately 2-3 days after occlusion. The increase in glutamate was significantly correlated with a secondary increase in cortical impedance, an index of cytotoxic edema, and with white matter damage 3 days post-insult. In conclusion, no significant accumulation of cytotoxins was found within immature white matter during cerebral ischemia. Although a minority of fetuses showed a delayed increase in some cytotoxins, this occurred many days after ischemia, in association with secondary cytotoxic edema, strongly suggesting that these changes are mainly a consequence of evolving cell death
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Published date: June 2008
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Local EPrints ID: 61119
URI: http://eprints.soton.ac.uk/id/eprint/61119
ISSN: 0022-3042
PURE UUID: e67e68d7-5dde-4c79-90fb-b5f9ef6fd20c
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Date deposited: 19 Mar 2009
Last modified: 15 Mar 2024 11:24
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Author:
Mhoyra Fraser
Author:
Laura Bennet
Author:
Pierre L. Van Zijl
Author:
Tessa J. Mocatta
Author:
Christopher E. Williams
Author:
Peter D. Gluckman
Author:
Christine C. Winterbourn
Author:
Alistair J. Gunn
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