Examples of somatosensory system in the following topics:
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- The somatosensory system is composed of the neurons that make sensing touch, temperature, and position in space possible.
- The somatosensory system is distributed throughout all major parts of our body.
- It includes both sensory receptor neurons in the periphery (eg., skin, muscle, and organs) and deeper neurons within the central nervous system.
- The somatosensory system functions in the body’s periphery, spinal
cord, and the brain.
- Describe how the somatosensory system is composed of neurons that make sensing touch, temperature and position in space possible
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- The somatosensory system allows the human body to perceive the physical sensations of pressure, temperature, and pain.
- The human sense of touch is known as the somatic or somatosensory system.
- Sensory cell function in the somatosensory system is determined by location.
- A somatic system disorder (formerly called a somatoform disorder) is a type of psychological disorder related to the somatosensory system.
- Summarize the stages of the somatosensory system in which physical stimuli are detected and processed
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- The somatosensory system is composed of the receptors and processing centers to produce the sensory modalities, such as touch and pain.
- The somatosensory is the system of nerve cells that responds to changes to the external or internal state of the body, predominately through the sense of touch, but also by the senses of body position and movement.
- Spread through all major parts of the body, it consists of sensory receptors and sensory neurons in the periphery (for example, skin, muscle, and organs), along with deeper neurons within the central nervous system.
- Processing primarily occurs in the primary somatosensory area in the parietal lobe of the cerebral cortex.
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- A sensory system is a part of the nervous system responsible for processing sensory information.
- A sensory system consists of sensory receptors, neural pathways, and parts of the brain involved in sensory perception.
- It is part of the somatosensory system and runs in parallel with the dorsal spinocerebellar tract.
- It is part of the somatosensory system and runs in parallel with the ventral spinocerebellar tract.
- The major somatosensory pathways communicating with the cerebellum are the anterior and posterior spinocerebellar tracts.
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- The somatosensory pathway is composed of three neurons located in the dorsal root ganglion, the spinal cord, and the thalamus.
- A somatosensory pathway will typically have three long neurons: primary, secondary and tertiary.
- The axons of many of these neurons terminate in the thalamus, and others terminate in the reticular activating system or the cerebellum.
- In the periphery, the somatosensory system detects various stimuli by sensory receptors, e.g., by mechanoreceptors for tactile sensation and nociceptors for pain sensation.
- In the spinal cord, the somatosensory system includes ascending pathways from the body to the brain .
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- The many types of somatosensory receptors work together to ensure our ability to process the complexity of stimuli that are transmitted.
- Both primary somatosensory cortex and secondary cortical areas are responsible for processing the complex picture of stimuli transmitted from the interplay of mechanoreceptors.
- In the somatosensory system, receptive fields are regions of the skin or of internal organs.
- During the transmission of sensory information from these fields, the signals must be conveyed to the nervous system.
- Structure of four different types of sensory receptors found within the sensory system.
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- The primary
somatosensory cortex is across the central sulcus and behind the primary motor cortex configured to generally
correspond with the arrangement of nearby motor cells related to specific body
parts.
- Olfaction is the only sensory system that is
not routed through the thalamus.
- For example, the right primary
somatosensory cortex receives information from the left limbs, and the right
visual cortex receives information from the left eye.
- This
somatotopic map has commonly been illustrated as a deformed human
representation, the somatosensory homunculus, where the size of different body
parts reflects the relative density of their innervation.
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- The spinothalamic tract is a somatosensory tract while the corticospinal tract conducts motor impulses from the brain.
- Somatosensory organization is divided into the dorsal column–medial lemniscus tract (the touch/proprioception/vibration sensory pathway) and the anterolateral system, or ALS (the pain/temperature sensory pathway).
- However, connections to the somatosensory
cortex suggest that the pyramidal tracts are also responsible for modulating
sensory information from the body.
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- This is the point-for-point correspondence of an area of the body to a specific point on the central nervous system.
- Typically, the area of the body corresponds to a point on the primary somatosensory cortex (postcentral gyrus).
- Areas such as the appendages, digits, and face can draw their sensory locations upon the somatosensory cortex.
- 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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- The thalamus has a system of myelinated fibers that separate the different thalamic subparts.
- These are all derived from the vertebrobasilar arterial system except the polar artery.
- In particular, every sensory system (with the exception of the olfactory system) has a thalamic nucleus that receives sensory signals and sends them to the associated primary cortical area.
- 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.
- The ventral posterior nucleus is a key somatosensory relay, which sends touch and proprioceptive information to the primary somatosensory cortex.