Effects of neonatal amygdala or hippocampus lesions on resting brain metabolism in the macaque monkey : a microPET imaging study

Details

Serval ID
serval:BIB_CE343CB308C9
Type
Article: article from journal or magazin.
Collection
Publications
Title
Effects of neonatal amygdala or hippocampus lesions on resting brain metabolism in the macaque monkey : a microPET imaging study
Journal
Neuroimage
Author(s)
Machado C.J., Snyder A.Z., Cherry S.R., Lavenex P., Amaral D.G.
ISSN
1053-8119 (Print)
Publication state
Published
Issued date
2008
Peer-reviewed
Oui
Volume
39
Number
2
Pages
832-846
Language
english
Notes
Publication types: Journal Article ; Research Support, N.I.H., Extramural Publication Status: ppublish
Abstract
Longitudinal analysis of animals with neonatal brain lesions enables the evaluation of behavioral changes during multiple stages of development. Interpretation of such changes, however, carries the caveat that permanent neural injury also yields morphological and neurochemical reorganization elsewhere in the brain that may lead either to functional compensation or to exacerbation of behavioral alterations. We have measured the long-term effects of selective neonatal brain damage on resting cerebral glucose metabolism in nonhuman primates. Sixteen rhesus monkeys (Macaca mulatta) received neurotoxic lesions of either the amygdala (n=8) or hippocampus (n=8) when they were two weeks old. Four years later, these animals, along with age- and experience-matched sham-operated control animals (n=8), were studied with high-resolution positron emission tomography (microPET) and 2-deoxy-2[(18)F]fluoro-d-glucose ([(18)F]FDG) to detect areas of altered metabolism. The groups were compared using an anatomically-based region of interest analysis. Relative to controls, amygdala-lesioned animals displayed hypometabolism in three frontal lobe regions, as well as in the neostriatum and hippocampus. Hypermetabolism was also evident in the cerebellum of amygdala-lesioned animals. Hippocampal-lesioned animals only showed hypometabolism in the retrosplenial cortex. These results indicate that neonatal amygdala and hippocampus lesions induce very different patterns of long-lasting metabolic changes in distant brain regions. These observations raise the possibility that behavioral alterations in animals with neonatal lesions may be due to the intended damage, to consequent brain reorganization or to a combination of both factors.
Keywords
Amygdala/physiology, Amygdala/radionuclide imaging, Animals, Animals, Newborn/physiology, Brain Chemistry/physiology, Cerebellum/physiology, Cerebellum/radionuclide imaging, Data Interpretation, Statistical, Fluorodeoxyglucose F18/diagnostic use, Frontal Lobe/physiology, Frontal Lobe/radionuclide imaging, Gyrus Cinguli/physiology, Gyrus Cinguli/radionuclide imaging, Hippocampus/physiology, Hippocampus/radionuclide imaging, Macaca mulatta, Magnetic Resonance Imaging, Positron-Emission Tomography, Radiopharmaceuticals/diagnostic use
Pubmed
Create date
13/10/2014 17:42
Last modification date
20/08/2019 15:48
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