Evaluation of Touchscreen Chambers To Assess Cognition in Adult Mice: Effect of Training and Mild Traumatic Brain Injury

Cognitive impairments are often experienced after a mild traumatic brain injury (mTBI). In the clinical arena, neuropsychological assessments are used frequently to detect cognitive deficits. Animal models of mTBI, however, rely on an assortment of behavioral tasks to assess cognitive outcome. Compu...

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Veröffentlicht in:	Journal of neurotrauma 2017-09, Vol.34 (17), p.2481-2494
Hauptverfasser:	Nichols, Jessica N, Hagan, Kenton L, Floyd, Candace L
Format:	Artikel
Sprache:	eng
Schlagworte:	Animal cognition Animal models Animals Association Learning - physiology Associative learning Behavior, Animal - physiology Brain Concussion - complications Brain Concussion - physiopathology Cognitive ability Cognitive Dysfunction - etiology Cognitive Dysfunction - physiopathology Discrimination (Psychology) - physiology Disease Models, Animal Electrical Equipment and Supplies Hippocampus Interactive computer systems Male Mental disorders Mice Mice, Inbred C57BL Neurodegenerative diseases Neuropsychological Tests - standards Neuropsychology Original Psychomotor Performance - physiology Rodents Space Perception - physiology Student athletes Traumatic brain injury
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container_title	Journal of neurotrauma
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creator	Nichols, Jessica N Hagan, Kenton L Floyd, Candace L
description	Cognitive impairments are often experienced after a mild traumatic brain injury (mTBI). In the clinical arena, neuropsychological assessments are used frequently to detect cognitive deficits. Animal models of mTBI, however, rely on an assortment of behavioral tasks to assess cognitive outcome. Computer-based touchscreen systems have been developed for rodents and are hypothesized to offer a translational approach to evaluate cognitive function because of the similarities of tasks performed in rodents to those implemented in humans. While these touchscreen systems have been used in pre-clinical models of neurodegenerative diseases and psychiatric disorders, their use in assessing cognitive impairment after mTBI has not been investigated. We hypothesized that mTBI would result in impaired cognitive performance on touchscreen tasks, particularly those with hippocampal-based learning components, including the paired associate learning (PAL) task and the location discrimination (LD) task. Adult male, C57BL/6 mice received a single impact-acceleration mTBI. We found that training mice before injury to perform to criteria is arduous and that performance is sensitive to many environmental variables. Despite extensive optimization and training, mice failed to perform better than chance in the PAL paradigm. Alternatively, mice demonstrated some capacity to learn in the LD paradigm, but only with the easier stages of the task. The mTBI did not affect performance in the LD paradigm, however. Thus, we concluded that under the conditions presented here, the PAL and LD touchscreen tasks are not robust outcome measures for the evaluation of cognitive performance in C57BL/6 mice after a single impact-acceleration mTBI.
doi_str_mv	10.1089/neu.2017.4998
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We found that training mice before injury to perform to criteria is arduous and that performance is sensitive to many environmental variables. Despite extensive optimization and training, mice failed to perform better than chance in the PAL paradigm. Alternatively, mice demonstrated some capacity to learn in the LD paradigm, but only with the easier stages of the task. The mTBI did not affect performance in the LD paradigm, however. 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In the clinical arena, neuropsychological assessments are used frequently to detect cognitive deficits. Animal models of mTBI, however, rely on an assortment of behavioral tasks to assess cognitive outcome. Computer-based touchscreen systems have been developed for rodents and are hypothesized to offer a translational approach to evaluate cognitive function because of the similarities of tasks performed in rodents to those implemented in humans. While these touchscreen systems have been used in pre-clinical models of neurodegenerative diseases and psychiatric disorders, their use in assessing cognitive impairment after mTBI has not been investigated. We hypothesized that mTBI would result in impaired cognitive performance on touchscreen tasks, particularly those with hippocampal-based learning components, including the paired associate learning (PAL) task and the location discrimination (LD) task. Adult male, C57BL/6 mice received a single impact-acceleration mTBI. 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subjects	Animal cognition Animal models Animals Association Learning - physiology Associative learning Behavior, Animal - physiology Brain Concussion - complications Brain Concussion - physiopathology Cognitive ability Cognitive Dysfunction - etiology Cognitive Dysfunction - physiopathology Discrimination (Psychology) - physiology Disease Models, Animal Electrical Equipment and Supplies Hippocampus Interactive computer systems Male Mental disorders Mice Mice, Inbred C57BL Neurodegenerative diseases Neuropsychological Tests - standards Neuropsychology Original Psychomotor Performance - physiology Rodents Space Perception - physiology Student athletes Traumatic brain injury
title	Evaluation of Touchscreen Chambers To Assess Cognition in Adult Mice: Effect of Training and Mild Traumatic Brain Injury
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