Usually on books we see the brain divided into halves, they are two
hemispheres, the right and left, each hemisphere consists of two indivisible
structures: cerebral cortex and white matter. The first consists of the body
and the thin extensions of neurons (main cells of the nervous system) and the
second by thick extensions or axons, and none of these elements can operate in
an isolated manner. The surface of each cerebral hemisphere forms folds that
are separated by a deep space the online media in whose depth is the Corpus Callosum that connects both hemispheres.
In order to
facilitate the description of the brain, it’s usual to divide each hemisphere into lobes which are named
according to the name of the cranial bones under which are located and thus
have the frontal, parietal, temporal and occipital lobes. There are processes attributed
to each of the lobes, however, it is known that the brain works jointly.
This division is somewhat arbitrary between back and front because the term can be ambiguous, for example, if we talk about prefrontal cortex, is the anterior cingulate prefrontal? so this division should be used only as a scheme and not like real division.
This division is somewhat arbitrary between back and front because the term can be ambiguous, for example, if we talk about prefrontal cortex, is the anterior cingulate prefrontal? so this division should be used only as a scheme and not like real division.
The frontal
lobe is located in the most anterior part of the brain. Hence all the
muscles of the body are represented and its role is to design individual
movements of each; it also stores programs of motor activity gathered as a
result of past experience.
It is said
to cause the formation of words is related to the formation of the personality
of the individual, said regulating the depth of feelings, and is associated
with the determination of the initiative and the judgment of the individual; It
regulates the sense of anticipation of the future and is the center of anxiety.
Moreover,
also allows the relationship between vision and the human bipedal position and
appears to be functionally linked with more cognitive processes that emotional
such as introspection and the coordination of stimulus-driven thinking and
independent thinking.
Another
division is given by the parietal lobe, which is located on the
lateral surface of the brain, near the crown, back and above the central
fissure. Its main function is to receive and integrate different sensory modalities.
One of the
multiple tasks processed by this lobe is the recognition objects placed in the
hands without the help of the view, even manages information about the shape
and size of objects relating to past experiences; It also allow the ability to
read and design maps, since it allows orientation in three-dimensional space
and the ability to use symbols, so also has a part in the development of the
language, an injury to this area produces alexia, known by the difficulty to decipher the writing and
lesions in this lobe are causing greater impairment, intellectual and of
everyday life.
Meanwhile,
the occipital lobe, is located in the posterior part of the brain, at
the height of the Crown, its function is to relate the visual information
received by the primary visual area with past Visual experiences, allowing you
to recognize and appreciate what is being.
In the
occipital lobe is where the world is actually displayed. Lesions in this area
undermine the visual capacity; in some cases patients perceive only visual
field side, reporting black spots on the lateral fields. If the lesion is not
very big, you can report only points or spots which move along with the
movements of the eyes.
To conclude
with this brain division include the temporal lobe, which is also
located on the sides of the brain. In this area at the same time are auditory
areas that relate to the reception and interpretation of sounds, as well as the
sensitive area of the language known as Wernicke's area, which allows the
compression of speech writing, i.e., complete the process of reading of a
phrase, understand it and read it aloud, in this sense the chain of events has
the task of connecting with the Visual auditory stimuli.
Lesions in
this area can result in various difficulties for the written expression, even
when the language ability is not affected, because sometimes the individuals
have the ability to write but not read, while sometimes they can distinguish
numbers but not the letters, either naming the objects but not the colors; also
can be affected the ability to recognize faces, even of the people closer, even
if a person is able to recognize animals or inanimate objects. This shows the
division of brain tasks and the complexity of their integration.
Even though there are no differences in brain architecture of men and
women, there are slight differences in the volume of these. In this sense, even
though the males possess brains with greater volume, proportions of the major
lobes relationships are similar.
In both sexes, the frontal lobe is approximately 38% of the hemispheres
(with a variation between 36 and 43%); the temporal lobe, the 22% (ranging
between 19 and 24%); the parietal lobe, 25% (with an oscillation between 21 and
28%), and the occipital lobe, 9% (with an oscillation between 7% and 12%).
These differences, although subtle will have some impact in learning processes,
since they show a trend, which is by no means determinant, that men have
better ability visuospatial and women better verbal ability.
Although the brain is a cluster of processes
that seem chaotic, actually separate studies have shown that there is a certain
order, although still not known at all.
References
Allen, J.; Bruss, J. & Damasio, H. (2005) Estructura
del cerebro humano. Investigación
y ciencia. 23 (1) 68-75.
Bloom, F: Beal, M & Kupfer, D. (2006) The Dana guide to brain health. Dana Press. Estados Unidos.
Buritica
– Ramírez, E. y Pimienta- Jiménez, H. (2007) Corteza frontopolar humana: área
10. Revista Latinoamericana de Psicología. Volumen 39, No 1, 127-142.
Downing, P.E., Peelen, M. (2012) The role of
occipitotemporal body –selective regions in person perception. Cognitive Neuroscience. 2 (3-4) 186-203.
Kandel, E.;
Schwartz J.H, Jessell, T.M (2000) Principles of Neural Science. New York: McGraw-Hill.
Levine, B., Craik, FIM. (2012) Mind and the frontal lobes. Oxford
University Press.USA.
Muñoz-Ruata, J., Caro-Martínez,
E., Pérez- Martínez, L., & Borja, M. (2010) Visual perception and frontal
lobe in intelectual disabilities: a study with evoked potentials and
neuropsychology. Journal of Intellectual
Disability Research. 54 (12) 1116-1129.
Sherman, C. (2013) Right brain-left brain a
primer. The Dana Foundation. Available at: http://www.dana.org/media/detail.aspx?id=40274
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