Brain Network Mechanism Causes Spatial Memory Impairment: Study

Published in Neuron, the study titled, "Disrupted place cell remapping and impaired grid cells in a knockin model of Alzheimer's disease," reveals how the normal brain network function of hippocampus cells which works to discriminate a distinct spatial environment in a process called "remapping," was disrupted in Alzheimer's disease.

Human brain. (Photo Credits: Gpat Discussion Center/Facebook)

Irvine, July 26: Patients with Alzheimer's disease frequently suffer from spatial memory loss, such as no recognition of where they are, and forgetting where they put their belongings. They often show a wandering symptom, which is also a feature of spatial memory impairment.

A team of researchers has now brought clarity on the brain network mechanism that causes spatial memory impairment. Also Read | 'Luke Shaw Still Injured?': Twitterati Reacts As Manchester United Leave Out Left-Back From Squad for Leicester City Match.

Published in Neuron, the study titled, "Disrupted place cell remapping and impaired grid cells in a knockin model of Alzheimer's disease," reveals how the normal brain network function of hippocampus cells which works to discriminate a distinct spatial environment in a process called "remapping," was disrupted in Alzheimer's disease.

The study, done Alzheimer's disease model mice, found that this disruption of the hippocampus is most likely caused by the activity impairment of the entorhinal cortex, a brain region that supplies information to the hippocampus. Also Read | Actor Sonu Sood Provides Tractor to Two Girls Seen Manually Ploughing Farm in Andhra Pradesh's Chittoor: Live News Breaking And Coronavirus Updates on July 26, 2020.

"We recorded the brain cell activity in the hippocampus, which is the memory centre of the brain, responsible for spatial memory, among other things," said Kei Igarashi, PhD, an assistant professor in the Department of Anatomy & Neurobiology at the University of California, Irvine School of Medicine.

"Our findings could lead to the development of a method to reactivate brain activity of the entorhinal cortex, which may help establish new treatments for preventing the progression of spatial memory impairment in Alzheimer's disease patients," Igarashi added.

Igarashi has been studying brain network mechanisms for Alzheimer's disease since he started his lab in 2016. "Our memory comes from the activities of the brain network. To find out the cure for memory impairment in Alzheimer's disease, we need to understand how the network function is impaired," he said.

Igarashi is 2019 New Vision Research and BrightFocus Foundation award recipient. The first author of this study, Heechul Jun, is an MD/PhD student in the UCI Medical Scientist Training Program.

According to the Alzheimer's Association, there are an estimated 5.8 million Americans living with Alzheimer's disease. By 2050, that number is expected to increase to 13.8 million people.

Spatial memory impairment, such as wandering behaviour, is one of the most troublesome symptoms in Alzheimer's disease, and it occurs in more than 60 per cent of Alzheimer's patients. Despite recent molecular and cellular findings in Alzheimer's research, it is still largely unclear how the deterioration of brain circuit function causes spatial memory loss.

(This is an unedited and auto-generated story from Syndicated News feed, LatestLY Staff may not have modified or edited the content body)

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