BACKGROUND: Prior research has indicated neuroanatomical abnormalities of the thalamus in schizophrenia. To study the possible pathogenesis, an animal model of neurodevelopmental thalamic damage has been developed by applying low-dose radiation to rhesus monkeys in early gestation. Irradiated monkeys sacrificed as infants demonstrate neuronal losses in specific thalamic nuclei and decreases in cortical neuropil. METHODS: Magnetic resonance scans were collected in adult Rhesus monkeys exposed to irradiation during thalamic neurogenesis (E33-42), after thalamic neurogenesis (E70-81), and in nonirradiated control animals. High dimensional brain mapping was used to compare thalamic volumes and shape characteristics in the three groups of animals. RESULTS: Animals exposed to irradiation at E33-42 showed a significant bilateral loss of thalamic volumes (> 20%) compared with controls and with animals irradiated at E70-81 when total brain volume was used as a covariate in the analysis. Thalamic volume loss was associated with a nonuniform deformation of thalamic shape. CONCLUSIONS: A first-trimester, neurodevelopmental insult in the nonhuman primate during thalamic neurogenesis produces a complex pattern of thalamic volume loss and shape deformation in adulthood. Low-dose irradiation of the fetal primate may be useful for modeling key features of the pathology described in schizophrenic patients.
BACKGROUND: Prior research has indicated neuroanatomical abnormalities of the thalamus in schizophrenia. To study the possible pathogenesis, an animal model of neurodevelopmental thalamic damage has been developed by applying low-dose radiation to rhesus monkeys in early gestation. Irradiated monkeys sacrificed as infants demonstrate neuronal losses in specific thalamic nuclei and decreases in cortical neuropil. METHODS: Magnetic resonance scans were collected in adult Rhesus monkeys exposed to irradiation during thalamic neurogenesis (E33-42), after thalamic neurogenesis (E70-81), and in nonirradiated control animals. High dimensional brain mapping was used to compare thalamic volumes and shape characteristics in the three groups of animals. RESULTS: Animals exposed to irradiation at E33-42 showed a significant bilateral loss of thalamic volumes (> 20%) compared with controls and with animals irradiated at E70-81 when total brain volume was used as a covariate in the analysis. Thalamic volume loss was associated with a nonuniform deformation of thalamic shape. CONCLUSIONS: A first-trimester, neurodevelopmental insult in the nonhuman primate during thalamic neurogenesis produces a complex pattern of thalamic volume loss and shape deformation in adulthood. Low-dose irradiation of the fetal primate may be useful for modeling key features of the pathology described in schizophrenicpatients.
Authors: Lynn D Selemon; Lei Wang; Mary Beth Nebel; John G Csernansky; Patricia S Goldman-Rakic; Pasko Rakic Journal: Biol Psychiatry Date: 2005-01-01 Impact factor: 13.382
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Authors: Karl-Anton Dorph-Petersen; Damira Caric; Ramin Saghafi; Wei Zhang; Allan R Sampson; David A Lewis Journal: Acta Neuropathol Date: 2008-07-19 Impact factor: 17.088
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Authors: Kristina Aldridge; Lei Wang; Michael P Harms; Amanda J Moffitt; Kimberly K Cole; John G Csernansky; Lynn D Selemon Journal: PLoS One Date: 2012-08-14 Impact factor: 3.240