Sensory receptor: Difference between revisions
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*[[Free nerve endings]] characterize the [[nociceptor]]s and [[thermoreceptor]]s and are called thus because the terminal branches of the neuron are unmyelinated and spread throughout the [[dermis]] and [[Epidermis (skin)|epidermis]]. |
*[[Free nerve endings]] characterize the [[nociceptor]]s and [[thermoreceptor]]s and are called thus because the terminal branches of the neuron are unmyelinated and spread throughout the [[dermis]] and [[Epidermis (skin)|epidermis]]. |
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*[[Encapsulated receptor]]s consist of the remaining types of cutaneous receptors. Encapsulation exists for specialized functioning. |
*[[Encapsulated receptor]]s consist of the remaining types of cutaneous receptors. Encapsulation exists for specialized functioning. |
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===by adaptation to stimuli=== |
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* A [[tonic receptor]] is a sensory receptor that adapts slowly to a stimulus<ref>http://caspar.bgsu.edu/~courses/Glossary.htm</ref> and continues to produce [[action potential]]s over the duration of the stimulus.<ref>http://img154.imageshack.us/img154/4423/g10dec03panohi0.jpg</ref> In this way it conveys information about the duration of the stimulus.<br /> |
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Some tonic receptors are permanently active and indicate a background level. Examples of such tonic receptors are [[pain receptors]], [[joint capsule]], and [[muscle spindle]].<ref>http://frank.mtsu.edu/~jshardo/bly2010/nervous/receptor.html</ref> |
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* A [[phasic receptor]] is a sensory receptor that returns to its resting potential even though the stimulus is still applied. |
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==Innervation== |
==Innervation== |
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Revision as of 19:34, 3 December 2008
In a sensory system, a sensory receptor is a structure that recognizes a stimulus in the internal or external environment of an organism. In response to stimuli the sensory receptor initiates sensory transduction by creating graded potentials or action potentials in the same cell or in an adjacent one.
Functions
The sensory receptors involved in taste and smell contain receptors that bind to specific chemicals. Odor receptors in olfactory receptor neurons, for example, are activated by interacting with molecular structures on the odor molecule. Similarly, taste receptors (gustatory receptors) in taste buds interact with chemicals in food to produce an action potential.
Other receptors such as mechanoreceptors and photoreceptors respond to physical stimuli. For example, photoreceptor cells contain specialized proteins such as rhodopsin to transduce the physical energy in light into electrical signals. Some types of mechanoreceptors fire action potentials when their membranes are physically stretched.
The sensory receptor functions as the first component in a sensory system.
Sensory receptors respond to specific stimulus modalities. The stimulus modality to which a sensory receptor responds is determined by the sensory receptor's adequate stimulus.
The sensory receptor responds to its stimulus modality by initiating sensory transduction. This may be accomplished by a net shift in the initial states of a receptor(see a picture of these putative states [1] with the biophysical description - link [2]).
Classification
by adequate stimulus
A sensory receptor's adequate stimulus is the stimulus modality for which it possesses the adequate sensory transduction apparatus. Adequate stimulus can be used to classify sensory receptors:
- Ampullae of Lorenzini respond to electric fields, salinity, and to temperature, but function primarily as electroreceptors
- Baroreceptors respond to pressure
- Chemoreceptors respond to chemical stimuli
- Hydroreceptors respond to changes in humidity
- Mechanoreceptors respond to mechanical stress or mechanical strain
- Nociceptors respond to damage to body tissues leading to pain perception
- Osmoreceptors respond to the osmolarity of fluids (such as in the hypothalamus)
- Photoreceptors respond to light
- Proprioceptors provide the sense of position
- Thermoreceptors respond to temperature, either heat, cold or both
- Electromagnetic Receptors's respond to electromagnetic waves
by location
Sensory receptors can be classified by location:
- Cutaneous receptors are sensory receptors found in the dermis or epidermis.
- Muscle spindles contain mechanoreceptors that detect stretch in muscles.
by morphology
Somatic sensory receptors near the surface of the skin can usually be divided into two groups based on morphology:
- Free nerve endings characterize the nociceptors and thermoreceptors and are called thus because the terminal branches of the neuron are unmyelinated and spread throughout the dermis and epidermis.
- Encapsulated receptors consist of the remaining types of cutaneous receptors. Encapsulation exists for specialized functioning.
by adaptation to stimuli
- A tonic receptor is a sensory receptor that adapts slowly to a stimulus[1] and continues to produce action potentials over the duration of the stimulus.[2] In this way it conveys information about the duration of the stimulus.
Some tonic receptors are permanently active and indicate a background level. Examples of such tonic receptors are pain receptors, joint capsule, and muscle spindle.[3]
- A phasic receptor is a sensory receptor that returns to its resting potential even though the stimulus is still applied.
Innervation
Different sensory receptors are innervated by different types of nerve fibers. Muscles and associated sensory receptors are innvervated by type I and II sensory fibers, while cutaneous receptors are innervated by Aβ, Aδ and C fibers.
See also
External links
- Sensory+Receptors at the U.S. National Library of Medicine Medical Subject Headings (MeSH)
