![hemispheres of the brain hemispheres of the brain](https://images.barewalls.com/comp/art-print-poster/bwc64467054/hemispheres-of-the-brain.jpg)
![hemispheres of the brain hemispheres of the brain](https://cdn-ak.f.st-hatena.com/images/fotolife/k/kskbyt/20170409/20170409025122.jpg)
The brain consists of specialised cells called neurones, and electrical impulses are sent from one neurone to another. The average adult brain weighs around one to two kilograms. The brain and spinal cord are wrapped in membranes (meninges) and nourished by a special liquid called cerebrospinal fluid. The brain is connected to the sensory and motor nerves of the body by the spinal cord. Symptoms and effects depend on which brain areas are affected. This delicate organ can be affected by a wide range of disorders and events such as trauma, stroke and tumours. "Higher connectivity density thus appears to be a crucial component for the linguistic superiority of our left hemisphere," adds Genç.The brain oversees bodily functions and allows consciousness. "It is because of this microstructure that processing of auditory speech is faster in the left hemisphere those individuals are presumably also able to decode what they hear at higher temporal precision," concludes Ocklenburg. The result: test participants who were capable of processing auditory speech in the left hemisphere at a high speed possessed an extraordinarily high number of densely packed neurites in the left planum temporale. At the same time, they used EEG measurements to analyse the processing speed of auditory speech information in both the left and the right hemispheres in the same individuals. The researchers have now closed this gap with the aid of so-called neurite orientation dispersion and density imaging.īy deploying this highly specific MRI technology, the bio-psychologists measured the density and spatial arrangement of planum temporale neurites in almost one hundred test participants. Since a method for counting the number of neural synapses in living humans had not existed until very recently, that number could not be conclusively linked to the performance of auditory speech processing. "However, it had previously not been understood if that asymmetrical microstructure is the decisive factor for the superiority of the left hemisphere when it comes to the processing of auditory speech," explains Erhan Genç, likewise a member of the biopsychology research unit. New measurement method facilitates hitherto impossible insights
![hemispheres of the brain hemispheres of the brain](https://image.shutterstock.com/image-vector/brain-hemisphere-functions-vector-260nw-156673889.jpg)
In the brains of deceased individuals who had donated their bodies to science, Frankfurt-based researchers later discovered that the nerve cells in the left planum temporale have a larger number of neuronal synapses than those in the right hemisphere. planum temporale, is frequently larger in the left hemisphere than in the right one," says Sebastian Ocklenburg from the biopsychology research unit in Bochum. "Researchers have long determined that a brain region that is crucial for the processing of auditory speech, i.e. When brainwaves are measured using EEG, it emerges that the left hemisphere processes auditory speech information more rapidly. The reason: language that is perceived via the right ear is processed in the left hemisphere. Using a simple experiment, researchers can demonstrate just how superior the left hemisphere is when it comes to the processing of auditory speech: when playing two different syllables - for example "Da" and "Ba" - to a person's left and right ear via headphones, most people will state that they only heard the syllable in the right ear. Onur Güntürkün and Dr Erhan Genç outlines their findings in an article published in the scientific journal Science Advances from July 11, 2018. The team headed by Dr Sebastian Ocklenburg, Patrick Friedrich, Christoph Fraenz, Prof Dr Dr h. A new form of magnetic resonance imaging (MRI) in combination with electroencephalography (EEG) measurements has made it possible to bundle insights into the microstructure of planum temporale with the speed of auditory speech processing.