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Lateralized Functional Differences and Significant regions in each side of the brain and their function
The left and right hemispheres operate the contralateral sides of the body. Each hemisphere contains sections of all 4 lobes: the frontal lobe, parietal lobe, temporal lobe, and occipital lobe. The two hemispheres are separated along the mediated longitudinal fissure and are connected by the corpus callosum which allows for communication and coordination of stimuli and information. The corpus callosum is the largest collective pathway of white matter tissue in the body that is made of more than 200 million nerve fibers. The left and right hemispheres are associated with different functions and specialize in interpreting the same data in different ways, referred to as lateralization of the brain. The left hemisphere is associated with language and calculations, while the right hemisphere is more closely associated with visual-spatial recognition and facial recognition. This lateralization of brain function results in some specialized regions being only present in a certain hemisphere or being dominant in one hemisphere versus the other. Some of the significant regions included in each hemisphere are listed below.

Left Hemisphere:
Broca's Area :

Broca’s area is located in the left hemisphere prefrontal cortex above the cingulate gyrus in the third frontal convolution. Broca’s area was discovered by Paul Broca in 1865. This area handles speech production. Damage to this area would result in Broca aphasia which causes the patient to become unable to formulate coherent appropriate sentences.

Weirneck’s Area:

Wernicke’s area was discovered in 1976 by Carl Wernicke and was found to be the site of language comprehension. Wernicke’s area is also found in the left hemisphere in the temporal lobe. Damage to this area of the brain results in the individual losing the ability to understand language. However, they are still able to produce sounds, words, and sentence although they are not used in the appropriate context.

Right Hemisphere:
Fusiform Face Area

The Fusiform Face Area (FFA) is an area that has been studied to be highly active when faces are being attended to in the visual field. A FFA is found to be present in both hemispheres, however, studies have found that the FFA is predominantly lateralized in the right hemisphere where a more in-depth cognitive processing of faces is conducted ]. The left hemisphere FFA is associated with rapid processing of faces and their features.

Other Regions and Associated Diseases
Some significant regions that can present as asymmetrical in the brain can result in either of the hemispheres due to factors such as genetics. An example would include handedness. Handedness can result from asymmetry in the motor cortex of one hemisphere. For right handed individuals, since the brain operates the contralateral side of the body, they could have a more induced motor cortex in the left hemisphere. Conditions associated with damage to one side or the other

Several diseases have been found to exacerbate brain asymmetries that are already present in the brain. Researchers are starting to look into the effect and relationship of brain asymmetries to diseases such as schizophrenia and dyslexia.

Schizophrenia

Schizophrenia is a complex long-term mental disorder that causes hallucinations, delusions and a lack of concentration, thinking, and motivation in an individual. Studies have found that individuals with schizophrenia have a lack in brain asymmetry thus reducing the functional efficiency of affected regions such as the frontal lobe. Conditions include leftward functional hemispheric lateralization, loss of laterality for language comprehension, a reduction in gyrification, brain torsion ect.

Dyslexia

As study earlier, language is usually dominant in the left hemisphere. Developmental language disorders, such as dyslexia, have been researched using brain imaging techniques to understand the neuronal or structural changes associated with the disorder. Past research has exhibited that hemispheric asymmetries that are usually found in healthy adults such as the size of the temporal lobe is not present in adult patients with dyslexia. In conjunction, past research has exhibited that patients with dyslexia lack a lateralization of language in their brain compared to healthy patients. Instead patients with dyslexia showed to have a bilateral hemispheric dominance for language.