Brain size found to be a risk factor in Mental illness


Emobileclinic Researchers’Corner

Researchers have explained why the size of the brain could influence the vulnerability of people to brain disorders such as schizophrenia and Alzheimer’s disease. This finding was published in the Journal PLOS Biology.
When compared with the small brain of a mouse, the long-distance cortical connections in the larger brain of the macaque were significantly weaker.

Mammals exhibit an extensive range of brain sizes, reflecting their adaptation to the varied environments in which they live.The cerebral cortex in all mammals is the thin layer of gray matter – neural tissue of the brain that is composed of nerve cell bodies and nerve fibers – that covers the brain. Gray matter is responsible for processing information in the brain, including thoughts, high -level brain functions, such as storing and retrieving memories, calculating, language, and consciousness.
Comparing the cortical networks in the brains of mammals of differing sizes provides data on what features of the brain are preserved through evolution and what processing structures are unique to a particular species. Zoltán Toroczkai and colleagues previously combined tracing studies in macaques (which visualize connections in the brain) with network theory.

The results showed that macaques’ cortical network is regulated by the exponential distance rule (EDR). The EDR describes a consistent relationship between distances and connection strength. EDR predicts that there are fewer long-range axons than short axons. The team used a general organization principle – based on an EDR and cortical geometry – to carry out comparisons within the same model framework. Regardless of the differing cortex size between species and cortex organization, the researchers noted that all the statistical features of all cortical networks followed EDR. In terms of the cortical areas examined by the tracing studies – such as visual cortex or auditory cortex – the closer the two areas were together, the more connections there were between them.
Although the cortical networks in primates and rodents are similar, the long -distance connections in the primates’ brains were considerably weaker. The authors write suggest that the EDR plays a key role across the mammalian order to optimize the layout of the interareal cortical network allowing larger-brained animals to maintain communication efficiencies combined with increased neuron numbers. The authors say that the EDR and tracing data verify that neuronal connections weaken exponentially with distance, suggesting that the human cortex, which is five times the size of the macaque, could have moderately weak long-distance connections.

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The team hypothesizes that the weak long-range cortical connections in humans may contribute to the risk of disconnection syndromes such as Alzheimer’s disease andschizophrenia.

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