4.6 Article

Ipsilesional spatial bias after a focal cerebral infarction in the medial agranular cortex: A mouse model of unilateral spatial neglect

Journal

BEHAVIOURAL BRAIN RESEARCH
Volume 401, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.bbr.2020.113097

Keywords

Attention; Stroke; Photothrombotic ischemia; Radial arm maze; Spontaneous recovery

Funding

  1. JSPS KAKENHI [18K17725, 15K21387, 17H05912, 18K14854, 19H05730, 1962-1]
  2. Ibaraki Prefectural University of Health Sciences
  3. Grants-in-Aid for Scientific Research [17H05912, 18K14854, 15K21387, 18K17725] Funding Source: KAKEN

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Unilateral spatial neglect is a disorder of higher brain function that occurs after a brain injury and leads to a failure to attend to stimuli on one side. A mouse model was used to study the relationship between lesion size and severity of spatial bias, finding that mice with anterior AGm lesions had lower recovery rates. This model could be useful in developing treatments for unilateral spatial neglect in humans.
Unilateral spatial neglect is a disorder of higher brain function that occurs after a brain injury, such as stroke, traumatic brain injury, brain tumor, and surgical procedures etc., and leads to failure to attend or respond to stimuli presented to the side contralateral to the lesioned cerebral hemisphere. Because patients with this condition often have other symptoms due to the presence of several brain lesions, it is difficult to evaluate the recovery mechanisms and effect of training on unilateral spatial neglect. In this study, a mouse model of unilateral spatial neglect was created to investigate whether the size of the lesion is related to the severity of ipsilesional spatial bias and the recovery process. Focal infarction was induced in the right medial agranular cortex (AGm) of mice via photothrombosis. After induction of cerebral infarction, ipsilesional spatial bias was evaluated for 9 consecutive days. The major findings were as follows: (1) unilateral local infarction of the AGm resulted in ipsilateral bias during internally guided decision-making; (2) the lesion size was correlated with the degree of impairment rather than slight differences in the lesion site; and (3) mice with anterior AGm lesions experienced lower recovery rates. These findings suggest that recovery from ipsilesional spatial bias requires neural plasticity within the anterior AGm. This conditional mouse model of ipsilesional spatial bias may be used to develop effective treatments for unilateral spatial neglect in humans.

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