Peer-reviewed veterinary case report
How brain aging relates to cognitive dysfunction in older dogs
By Ozawa, Makiko et al.·Published in The Journal of veterinary medical science·2016·Department of Veterinary Pathology, Japan·View original on PubMed →
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Original publication title: The Relation between canine cognitive dysfunction and age-related brain lesions.
- Species:
- dog
Plain-English summary
A group of older dogs, aged 10 years and up, showed signs of canine cognitive dysfunction (CCD), which includes symptoms like disorientation and wandering. Researchers looked at brain changes, particularly focusing on a protein called beta-amyloid, to see if it was linked to these symptoms. They found that while certain brain changes increased with age, they didn't directly cause CCD. Instead, other factors like the presence of specific proteins and brain cell changes were more closely related to the cognitive issues. This suggests that while beta-amyloid is present, it may not be the main cause of cognitive decline in older dogs.
People also search for: dog disorientation in older dogs · canine cognitive dysfunction symptoms · treatment for dog cognitive decline
Abstract
Canine cognitive dysfunction (CCD) is a syndrome that manifests itself in abnormal behaviors, such as disorientation and wandering. β-amyloid deposition in the brain, including the senile plaque (SP) and cerebral amyloid angiopathy (CAA), has been suggested as a major cause of the syndrome. However, the pathological significance of β-amyloid deposition in CCD dogs remains unclear. The present study was conducted using 16 dogs aged 10 years or older to clarify the relationship between the age-related histopathological lesions, such as β-amyloid deposition, in the brain and the clinical symptoms of CCD as evaluated in a questionnaire previously established in a large survey. In addition, age-related brain lesions were assessed in 37 dogs. The pathological lesions were evaluated by the severity of β-amyloid deposition (SP and CAA), the amount of ubiquitin-positive granules (UBQ), GFAP-positive astrocytes, Iba-1-positive microglia and Nissle stain-positive nerve cells. The results revealed that there was no significant correlation between the severities of canine SP and CCD. The SP increased until 14 years old, but decreased thereafter, although the incidence of CCD is high at these ages. The CAA consistently increased with age, but did not correlate greatly with the CCD score. In contrast, the increases of UBQ, astrocytes and microglia were significantly correlated with CCD. Thus, the impairment in the synapse and/or myelin suggested by increased UBQ and glial activation might be involved in CCD pathogenesis, but β-amyloid deposition, especially SP, is not a direct pathogenic factor of CCD.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/26922972/