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.
2007-02-25 19:54:02
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answer #1
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answered by J.SWAMY I ఇ జ స్వామి 7
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What is the role of Sensory Receptors within the body?
Sensory receptors are receptors sensitive to light and contain sites that connect to nerve endings.
2015-08-19 00:45:44
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answer #2
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answered by ? 1
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I apologise for this lengthy answer but:- 1. You need to distinguish between general and special sensory receptors. 2.You need to avoid misinformation on Yahoo Answers. Receptors for the general senses are scattered throughout the body and are relatively simple in structure. These receptors are classified according to the nature of the stimulus that excites them. Important sensor classes include: Pain (nociceptors): They are common in the superficial portions of the skin, in joint capsules, within the periostea of bones, around the walls of blood vessels, plus a few in deep tissues or most visceral organs. These can produce fast pain (prickling) or slow pain (burning or aching). Temperature (thermoreceptors): They are free nerve endings scattered immediately beneath the skin surface and located in skeletal muscles, the liver, and hypothalamus. Cold receptors are three to four times more numerous than warm receptors, but there are no known structural differences between the two. Chemical stimuli (chemoreceptors): They respond only to water-soluble or lipid-soluble substances that are dissolved in surrounding fluid. There are no well-defined chemosensory pathways in the brain or spinal cord, with the exception of taste and smell. Neurons within the respiratory centers of the brain respond to concentrations of hydrogen ions and carbon dioxide molecules in the cerebrospinal fluid. Receptors in the periphery monitor the oxygen concentrations of arterial blood (found in carotid and aortic bodies). Touch / pressure / position (mechanoreceptors): They are sensitive to stimuli that distort their cell membranes. They contain mechanically regulated ion channels, which open and close in response to movement. There are three classes: tactile, baroreceptors, and proprioceptors. Tactile receptors provide the sensations of touch, pressure, and vibration. Distinctions between them are not well defined. Fine touch and pressure receptors provide detailed information about a source of stimulation, including the exact location, shape, size, texture, and movement. These receptors are extremely sensitive and have relatively narrow receptive fields. Crude touch and pressure receptors provide poor localization and information. Tactile receptors range in complexity from free nerve endings to specialized sensory complexes complete with accessory cells and supporting structures. There are at least six tactile receptors on the skin and called by various names according to the source: Free nerve endings are sensitive to touch and pressure. They are situated between epidermal cells and have no apparent differences in structure with those of the free nerve endings that provide temperature or pain sensations. Root hair plexus is made up of free nerve endings to detect hair movement. Merkel's discs are fine touch and pressure neurons located in the lower epidermal layer of the skin. Meissner's corpuscles are fine touch and pressure receptors located in the eyelids, lips, fingertips, nipples, and external genitalia. Pacinian corpuscles are large receptors sensitive to deep pressure and to pulsing or high-frequency vibrations. They are found in the skin, fingers, breasts, and external genitalia, as well as in joint capsules, mesenteries, the pancreas, and walls of the urinary bladder. Ruffini corpusles are located in the dermis of the skin and are sensitive to pressure and distortions of the skin. Baroreceptors monitor changes in pressure. These receptors consist of free nerve endings that branch within the elastic tissues in the walls of organs. When pressure inside the organ changes, the elastic walls stretch or recoil. Baroreceptors monitor blood pressure in the walls of major blood vessels and play a major role in cardiac function and in adjusting blood flow to vital tissues. In the lungs, they monitor the degree of lung expansion, where the information is then passed on to centers in the brain which sets the pace for respiration. Baroreceptors in the digestive and urinary tracts trigger various reflexes, including the elimination of wastes. Proprioceptors monitor position of joints, tension in tendons and ligaments, and the state of muscular contraction. Of all the sensory receptors, the proprioceptors are the most structurally and functionally complex. Two examples of this complexity are found in tendon organs, which monitor the strain on a tendon, and in muscle splindles, which monitor the length of a skeletal muscle. They, however, do not adapt to constant stimulation; and each receptor must continually send information to the CNS. NB. Special senses are:- taste smell equilibrium hearing vision
2016-04-07 01:16:57
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answer #3
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answered by Anonymous
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Use of the sight, sound, smell and touch - Their functions are obvious.
2016-03-19 09:30:52
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answer #4
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answered by Anonymous
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