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Sphingolipids and DHA help brain function in old Beagle dogs

By Araujo, Joseph A et al.Ā·Published in Frontiers in veterinary scienceĀ·2022Ā·InterVivo Solutions Inc., CanadaĀ·View original on PubMed →

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Original publication title: Sphingolipids and DHA Improve Cognitive Deficits in Aged Beagle Dogs.

Species:
dog
Brain & nervesDogs

Plain-English summary

A group of aged Beagle dogs showing signs of cognitive dysfunction, like confusion and memory issues, were given a special supplement containing brain-derived lipids and DHA for six months. The dogs that received the supplement performed better on memory and learning tasks compared to those that got a placebo, indicating that the supplement may help improve cognitive function in older dogs. Additionally, changes in brain chemistry were observed, suggesting the supplement positively affected brain health. Overall, this study suggests that this novel supplement could be a helpful option for senior dogs struggling with cognitive decline.

People also search for: senior dog memory problems Ā· Beagle cognitive dysfunction treatment Ā· DHA for dogs brain health

Abstract

Canine cognitive dysfunction syndrome (CDS) is a disorder found in senior dogs that is typically defined by the development of specific behavioral signs which are attributed to pathological brain aging and no other medical causes. One way of objectively characterizing CDS is with the use of validated neuropsychological test batteries in aged Beagle dogs, which are a natural model of this condition. This study used a series of neuropsychological tests to evaluate the effectiveness of supplementation with a novel lipid extract containing porcine brain-derived sphingolipids (Biosfeen®) and docosahexaenoic acid (DHA) for attenuating cognitive deficits in aged Beagles. Two groups (= 12), balanced for baseline cognitive test performance, received a daily oral dose of either test supplement, or placebo over a 6-month treatment phase. Cognitive function was evaluated using the following tasks: delayed non-matching to position (DNMP), selective attention, discrimination learning retention, discrimination reversal learning, and spatial discrimination acquisition and reversal learning. The effect of the supplement on brain metabolism using magnetic resonance spectroscopy (MRS) was also examined. A significant decline (= 0.02) in DNMP performance was seen in placebo-treated dogs, but not in dogs receiving the supplement, suggesting attenuation of working memory performance decline. Compared to placebo, the supplemented group also demonstrated significantly improved (= 0.01) performance on the most difficult pattern of the spatial discrimination task and on reversal learning of the same pattern (= 0.01), potentially reflecting improved spatial recognition and executive function, respectively. MRS revealed a significant increase (= 0.048) in frontal lobe glutamate and glutamine in the treatment group compared to placebo, indicating a physiological change which may be attributed to the supplement. Decreased levels of glutamate and glutamine have been correlated with cognitive decline, suggesting the observed increase in these metabolites might be linked to the positive cognitive effects found in the present study. Results of this study suggest the novel lipid extract may be beneficial for counteracting age-dependent deficits in Beagle dogs and supports further investigation into its use for treatment of CDS. Additionally, due to parallels between canine and human aging, these results might also have applicability for the use of the supplement in human cognitive health.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/35909696/