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''' | ==Gyrus== | ||
A '''gyrus''' (plural: '''gyri''') is a prominent ridge or fold on the surface of the [[cerebral cortex]] in the [[brain]]. Gyri are created by the infolding of the cortex and are separated by grooves known as [[sulcus|sulci]]. The pattern of gyri and sulci is unique to each individual and is used to increase the surface area of the brain, allowing for a greater number of neurons and thus enhancing the brain's ability to process information. | |||
[[File:Gyrus_sulcus-en.svg|Diagram showing a gyrus and sulcus|thumb|right]] | |||
==Structure== | ==Structure== | ||
The | |||
The cerebral cortex is the outermost layer of the brain and is involved in many complex brain functions, including perception, thought, and decision-making. The gyri and sulci form a complex pattern that varies between individuals but follows a general layout that is consistent across the human species. This pattern is established during fetal development and continues to evolve throughout life. | |||
Each gyrus is composed of [[gray matter]], which contains the cell bodies of neurons. The arrangement of gyri and sulci allows for a compact packing of neurons, maximizing the brain's processing power within the limited space of the skull. | |||
==Function== | ==Function== | ||
Gyri play a crucial role in the brain's ability to process information. Different gyri are associated with different functions. For example, the [[precentral gyrus]] is involved in motor control, while the [[postcentral gyrus]] is associated with sensory perception. The [[superior temporal gyrus]] is important for auditory processing, and the [[fusiform gyrus]] is involved in facial recognition. | |||
The folding of the cortex into gyri and sulci increases the surface area of the brain, allowing for more neurons to be packed into the cortex. This increased surface area is thought to be one of the reasons for the advanced cognitive abilities of humans compared to other species. | |||
[[File:Gray726.png|Lateral view of the human brain showing gyri and sulci|thumb|left]] | |||
==Development== | |||
The development of gyri and sulci begins in the fetal stage and continues into early childhood. The process is influenced by both genetic and environmental factors. During development, the brain grows rapidly, and the cortex begins to fold to accommodate the increasing number of neurons. This folding is a complex process that involves the interaction of various molecular signals and mechanical forces. | |||
==Clinical Significance== | |||
Abnormalities in the pattern of gyri and sulci can be associated with various neurological conditions. For example, [[lissencephaly]] is a rare brain disorder characterized by the absence of normal gyri and sulci, leading to a "smooth brain" appearance. This condition is associated with severe developmental delays and neurological impairments. | |||
== | [[File:Gray727.svg|Diagram of the brain showing the location of various gyri|thumb|right]] | ||
* [[ | |||
==Related Pages== | |||
* [[Sulcus]] | |||
* [[Cerebral cortex]] | * [[Cerebral cortex]] | ||
* [[ | * [[Neuroscience]] | ||
* [[Brain]] | |||
{{ | {{Neuroscience}} | ||
[[Category:Neuroanatomy]] | [[Category:Neuroanatomy]] | ||
Latest revision as of 10:48, 23 March 2025
Gyrus[edit]
A gyrus (plural: gyri) is a prominent ridge or fold on the surface of the cerebral cortex in the brain. Gyri are created by the infolding of the cortex and are separated by grooves known as sulci. The pattern of gyri and sulci is unique to each individual and is used to increase the surface area of the brain, allowing for a greater number of neurons and thus enhancing the brain's ability to process information.
Structure[edit]
The cerebral cortex is the outermost layer of the brain and is involved in many complex brain functions, including perception, thought, and decision-making. The gyri and sulci form a complex pattern that varies between individuals but follows a general layout that is consistent across the human species. This pattern is established during fetal development and continues to evolve throughout life.
Each gyrus is composed of gray matter, which contains the cell bodies of neurons. The arrangement of gyri and sulci allows for a compact packing of neurons, maximizing the brain's processing power within the limited space of the skull.
Function[edit]
Gyri play a crucial role in the brain's ability to process information. Different gyri are associated with different functions. For example, the precentral gyrus is involved in motor control, while the postcentral gyrus is associated with sensory perception. The superior temporal gyrus is important for auditory processing, and the fusiform gyrus is involved in facial recognition.
The folding of the cortex into gyri and sulci increases the surface area of the brain, allowing for more neurons to be packed into the cortex. This increased surface area is thought to be one of the reasons for the advanced cognitive abilities of humans compared to other species.
Development[edit]
The development of gyri and sulci begins in the fetal stage and continues into early childhood. The process is influenced by both genetic and environmental factors. During development, the brain grows rapidly, and the cortex begins to fold to accommodate the increasing number of neurons. This folding is a complex process that involves the interaction of various molecular signals and mechanical forces.
Clinical Significance[edit]
Abnormalities in the pattern of gyri and sulci can be associated with various neurological conditions. For example, lissencephaly is a rare brain disorder characterized by the absence of normal gyri and sulci, leading to a "smooth brain" appearance. This condition is associated with severe developmental delays and neurological impairments.
Related Pages[edit]
