Examples of primary visual cortex in the following topics:
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- Parts of the cortex that receive sensory inputs
from the thalamus are called primary sensory areas.
- The primary
somatosensory cortex, located across the central sulcus and behind the primary motor cortex, is configured to generally
correspond with the arrangement of nearby motor cells related to specific body
parts.
- For example, the right primary
somatosensory cortex receives information from the left limbs, and the right
visual cortex receives information from the left eye.
- Neighboring points in the primary visual
cortex, for example, correspond to neighboring points in the retina.
- Similarly, there is a tonotopic map in the primary
auditory cortex and a somatotopic map in the primary sensory cortex.
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- It is generally believed to act as a relay between a variety of subcortical areas and the cerebral cortex.
- For the visual system, for example, inputs from the retina are sent to the lateral geniculate nucleus of the thalamus, which in turn projects to the primary visual cortex in the occipital lobe.
- Each of the primary sensory relay areas receives strong back projections from the cerebral cortex.
- Similarly, the medial geniculate nucleus acts as a key auditory relay between the inferior colliculus of the midbrain and the primary auditory cortex.
- The ventral posterior nucleus is a key somatosensory relay, which sends touch and proprioceptive information to the primary somatosensory cortex.
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- The precentral gyrus, forming the posterior border of the frontal lobe, contains the primary motor cortex, which controls voluntary movements of specific body parts.
- For example, it comprises the somatosensory cortex and the dorsal stream of the visual system.
- This enables regions of the parietal cortex to map objects perceived visually into body coordinate positions.
- The temporal lobe is involved in primary auditory perception such as hearing and holds the primary auditory cortex.
- The superior temporal gyrus includes an area where auditory signals from the ear first reach the cerebral cortex and are processed by the primary auditory cortex in the left temporal lobe.
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- It is primarily involved in vision: seeing,
recognizing, and identifying the visual world.
- These functions originate
within the primary motor cortex and other frontal lobe motor areas where
actions are planned.
- Upper motor neurons in the primary motor cortex send their
axons to the brainstem and spinal cord to synapse on the lower motor neurons,
which innervate the muscles.
- The cerebral cortex is the outer layer depicted in dark violet.
- Notice the folded structure of the cortex: the "valleys" of the cortex are known as sulci.
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- The motor areas of the brain are located in both hemispheres of the cortex.
- Primary motor cortex: Main contributor
to the generation of neural impulses that control the execution of movement.
- Premotor cortex: Located anterior
to the primary motor cortex and responsible for some aspects of motor
control.
- It is located on the midline
surface of the hemisphere anterior to the primary motor cortex.
- $$Topography of the human motor cortex, including the premotor cortex, SMA, primary motor cortex, primary somatosensory cortex, and posterior parietal cortex.
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- A cortical homunculus is a pictorial representation of the anatomical divisions of the primary motor cortex and the primary somatosensory cortex, i.e., the portion of the human brain directly responsible for the movement and exchange of sensory and motor information of the body.
- The primary somesthetic cortex (sensory) pertains to the signals within the postcentral gyrus coming from the thalamus, and the primary motor cortex pertains to signals within the precentral gyrus coming from the premotor area of the frontal lobes.
- Typically, the area of the body corresponds to a point on the primary somatosensory cortex (postcentral gyrus).
- The idea
of the cortical homunculus was created by Wilder Penfield and serves as a rough
map of the receptive fields for regions of primary somatosensory cortex.
- The
postcentral gyrus is located in the parietal lobe of the human cortex and is
the primary somatosensory region of the human brain.
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- Like the cerebral cortex, the cerebellum is divided into two hemispheres.
- Based on surface appearance, three lobes can be distinguished in the cerebellum: the flocculonodular lobe, anterior lobe (above the primary fissure), and the posterior lobe (below the primary fissure).
- Its primary connections are with the vestibular nuclei, although it also receives visual and other sensory input.
- It receives proprioception input from the dorsal columns of the spinal cord (including the spinocerebellar tract) and from the trigeminal nerve, as well as from visual and auditory systems.
- It receives input exclusively from the cerebral cortex (especially the parietal lobe) via the pontine nuclei (forming corticopontocerebellar pathways), and sends output mainly to the ventrolateral thalamus (in turn connected to motor areas of the premotor cortex and primary motor area of the cerebral cortex) and to the red nucleus.
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- The primary motor cortex is the neural center for voluntary respiratory control.
- The center for diaphragm control is posterior to the location of
thoracic control (within the superior portion of the primary motor
cortex).
- The inferior portion of the primary motor cortex
may be involved in controlled exhalation.
- Topography of the primary motor cortex, on an outline drawing of the human brain.
- Each part of the primary motor cortex controls a different part of the body.
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- The adrenal cortex is devoted to the synthesis of corticosteroid and androgen hormones.
- The primary mineralocorticoid is aldosterone.
- The primary glucocorticoid released by the adrenal gland in the human is cortisol and corticosterone in many other animals.
- Dehydroepiandrosterone (DHEA): It is the primary precursor of natural estrogens.
- The layers of the adrenal cortex are shown in this figure.
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- In 1991, Tim Pons and colleagues at the National Institutes of Health (NIH) showed that the primary somatosensory cortex undergoes substantial reorganization after the loss of sensory input .
- Recent research by Flor et al. suggests that non-painful referred sensations are correlated with a wide neural network outside the primary cortical areas.
- Through the use of artificial visual feedback, it becomes possible for the patient to 'move' the phantom limb and to unclench it from potentially painful positions.
- This is a stylized map of the way parts of the body map to the somatosensory cortex at the postcentral gyrus.
- The patient thus receives artificial visual feedback that the 'resurrected' limb is now moving when they move the good hand.