Traumatic injury to the immature brain results in progressive neuronal loss, hyperactivity and delayed cognitive impairments

Ramadevi Pullela; Jacob Raber; Timothy Pfankuch; Donna M. Ferriero; Catherine P. Claus; Seong Eun Koh; Toshihiro Yamauchi; Radoslaw Rola; John R. Fike; Linda J. Noble-Haeusslein

doi:10.1159/000094166

Traumatic injury to the immature brain results in progressive neuronal loss, hyperactivity and delayed cognitive impairments

Ramadevi Pullela, Jacob Raber, Timothy Pfankuch, Donna M. Ferriero, Catherine P. Claus, Seong Eun Koh, Toshihiro Yamauchi, Radoslaw Rola, John R. Fike, Linda J. Noble-Haeusslein

Behavioral Neuroscience

Research output: Contribution to journal › Article › peer-review

106 Scopus citations

Abstract

The immature brain may be particularly vulnerable to injury during critical periods of development. To address the biologic basis for this vulnerability, mice were subjected to traumatic brain injury at postnatal day 21, a time point that approximates that of the toddler-aged child. After motor and cognitive testing at either 2 weeks (juveniles) or 3 months (adults) after injury, animals were euthanized and the brains prepared for quantitative histologic assessment. Brain-injured mice exhibited hyperactivity and age-dependent anxiolysis. Cortical lesion volume and subcortical neuronal loss were greater in brain-injured adults than in juveniles. Importantly, cognitive decline was delayed in onset and coincided with loss of neurons in the hippocampus. Our findings demonstrate that trauma to the developing brain results in a prolonged period of pathogenesis in both cortical and subcortical structures. Behavioral changes are a likely consequence of regional-specific neuronal degeneration.

Original language	English (US)
Pages (from-to)	396-409
Number of pages	14
Journal	Developmental Neuroscience
Volume	28
Issue number	4-5
DOIs	https://doi.org/10.1159/000094166
State	Published - Aug 2006

Keywords

Cognitive function
Delayed cell loss
Immature brain
Traumatic brain injury

ASJC Scopus subject areas

Neurology
Developmental Neuroscience

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10.1159/000094166

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title = "Traumatic injury to the immature brain results in progressive neuronal loss, hyperactivity and delayed cognitive impairments",

abstract = "The immature brain may be particularly vulnerable to injury during critical periods of development. To address the biologic basis for this vulnerability, mice were subjected to traumatic brain injury at postnatal day 21, a time point that approximates that of the toddler-aged child. After motor and cognitive testing at either 2 weeks (juveniles) or 3 months (adults) after injury, animals were euthanized and the brains prepared for quantitative histologic assessment. Brain-injured mice exhibited hyperactivity and age-dependent anxiolysis. Cortical lesion volume and subcortical neuronal loss were greater in brain-injured adults than in juveniles. Importantly, cognitive decline was delayed in onset and coincided with loss of neurons in the hippocampus. Our findings demonstrate that trauma to the developing brain results in a prolonged period of pathogenesis in both cortical and subcortical structures. Behavioral changes are a likely consequence of regional-specific neuronal degeneration.",

keywords = "Cognitive function, Delayed cell loss, Immature brain, Traumatic brain injury",

author = "Ramadevi Pullela and Jacob Raber and Timothy Pfankuch and Ferriero, {Donna M.} and Claus, {Catherine P.} and Koh, {Seong Eun} and Toshihiro Yamauchi and Radoslaw Rola and Fike, {John R.} and Noble-Haeusslein, {Linda J.}",

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AU - Pullela, Ramadevi

AU - Raber, Jacob

AU - Pfankuch, Timothy

AU - Ferriero, Donna M.

AU - Claus, Catherine P.

AU - Koh, Seong Eun

AU - Yamauchi, Toshihiro

AU - Rola, Radoslaw

AU - Fike, John R.

AU - Noble-Haeusslein, Linda J.

PY - 2006/8

Y1 - 2006/8

N2 - The immature brain may be particularly vulnerable to injury during critical periods of development. To address the biologic basis for this vulnerability, mice were subjected to traumatic brain injury at postnatal day 21, a time point that approximates that of the toddler-aged child. After motor and cognitive testing at either 2 weeks (juveniles) or 3 months (adults) after injury, animals were euthanized and the brains prepared for quantitative histologic assessment. Brain-injured mice exhibited hyperactivity and age-dependent anxiolysis. Cortical lesion volume and subcortical neuronal loss were greater in brain-injured adults than in juveniles. Importantly, cognitive decline was delayed in onset and coincided with loss of neurons in the hippocampus. Our findings demonstrate that trauma to the developing brain results in a prolonged period of pathogenesis in both cortical and subcortical structures. Behavioral changes are a likely consequence of regional-specific neuronal degeneration.

AB - The immature brain may be particularly vulnerable to injury during critical periods of development. To address the biologic basis for this vulnerability, mice were subjected to traumatic brain injury at postnatal day 21, a time point that approximates that of the toddler-aged child. After motor and cognitive testing at either 2 weeks (juveniles) or 3 months (adults) after injury, animals were euthanized and the brains prepared for quantitative histologic assessment. Brain-injured mice exhibited hyperactivity and age-dependent anxiolysis. Cortical lesion volume and subcortical neuronal loss were greater in brain-injured adults than in juveniles. Importantly, cognitive decline was delayed in onset and coincided with loss of neurons in the hippocampus. Our findings demonstrate that trauma to the developing brain results in a prolonged period of pathogenesis in both cortical and subcortical structures. Behavioral changes are a likely consequence of regional-specific neuronal degeneration.

KW - Cognitive function

KW - Delayed cell loss

KW - Immature brain

KW - Traumatic brain injury

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Traumatic injury to the immature brain results in progressive neuronal loss, hyperactivity and delayed cognitive impairments

Abstract

Keywords

ASJC Scopus subject areas

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