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Introduction Discovery of receptive fields Organization of receptive field properties The classical receptive field The nonclassical receptive field Characterization of receptive field properties
Receptive field PHYSIOLOGY WRITTEN BY: Jonathan B. Levitt See Article History
Receptive field, region in the sensory periphery within which stimuli can influence the electrical activity of sensory cells. The receptive field encompasses the sensory receptors that feed into sensory neurons and thus includes specific receptors on a neuron as well as collectives of receptors that are capable of activating a neuron via synaptic connections. Receptive fields are found throughout the body, including over the body surface; in tissues such as muscles, joints, and the eyes; and in internal organs. The concept of the receptive field is central to sensory neurobiology, because it provides a description of the location at which a sensory stimulus must be presented in order to elicit a response from a sensory cell.
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Discovery Of Receptive Fields
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One of the first scientists to use the term receptive field was English
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physiologist Sir Charles Scott Sherrington, who in 1906 incorporated it
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into his discussion of the scratch reflex in dogs. Around the same time, a number of researchers were studying electrical potentials in the eye and optic nerve in response to visual stimuli. Although those studies provided some insight into the physiology of sensory reception, it was not until 1938 that the modern concept of the receptive field emerged. That year American physiologist Haldan Keffer Hartline became the first to isolate and record electrical responses from single optic nerve fibres of vertebrate eyes. Hartline defined the receptive field of a retinal ganglion cell as the retinal area from which an increase in the frequency of action potentials could be elicited. (An action potential is a temporary reversal in electrical polarization of the neuron membrane that produces a nerve impulse.) His work played a key role in the identification of receptive fields on single neurons. In 1953 British neuroscientist Horace B. Barlow and American neurophysiologist Stephen W. Kuffler extended Hartline’s definition to include all areas of the retina within which stimulation could either excite or inhibit the ganglion cell response. Also in the 1950s American physiologist Vernon B. Mountcastle described the response properties of single neurons in the somatosensory thalamus and the cortex.
Organization Of Receptive Field Properties There is a serial and hierarchical organization of receptive field properties. Each sensory modality is composed of multiple brain areas. As one proceeds from receptor to thalamus to the primary sensory cortex and higher cognitive areas of the brain, receptive fields demonstrate increasingly complex stimulus requirements. For example, in the auditory system, peripheral neurons may respond well to pure tones, whereas some central neurons respond better to frequency-modulated sounds. In the primary visual and somatosensory cortex, receptive fields are selective for the orientation or direction of motion of a stimulus, whereas in higher visual cortical areas, neurons may respond best to images of faces or objects.
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In the visual and somatosensory systems, receptive fields can be essentially circular or oval regions of retina or skin. By contrast, in the
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thalamus, visual and somatosensory receptive fields are circular and exhibit centre-surround antagonism, in which onset of a stimulus in one
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skin or retinal region elicits activating responses and in surrounding regions elicits inhibitory responses. Thus, the same stimulus produces
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opposite responses in those regions. The effects of stimulus antagonism at different locations are a manifestation of the phenomenon called lateral
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inhibition. In lateral inhibition the optimal stimulus is not spatially uniform
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across the receptive field; rather, it is a discrete spot of light (in the case of the eye) or contact (in the case of a body surface), with contrast between central and surrounding regions. Referring as it does to a region, a receptive field is fundamentally a spatial entity (a portion of the visual field or retina, or a portion of the body surface); that makes the most sense in the visual and somatosensory systems. In the auditory system hair cells tuned to particular frequencies are located at different locations along the basilar membrane, implying a spatial relevance for auditory receptive fields. In the auditory system one could define a cell’s receptive field as the specific set of frequencies to which the cell responds. In the nervous system generally, the receptive field of a sensory neuron is defined by its synaptic inputs; each cell’s receptive field results from the combination of fields of all of the neurons providing input to it. Because inputs are not simply summed, the receptive field properties of a neuron commonly are described in terms of the stimuli that elicit responses from the cell.
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The Classical Receptive Field
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The characteristics of a cell’s receptive field depend on how the field is measured. The classic method to determine the location and extent of the
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receptive field is to present discrete stimuli at different locations in the
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sensory periphery, such as on the retina or the skin. The region that yields deviations in action potential (or “spike”) discharge rate away from the
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background activity level of a neuron has been variously referred to as the
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receptive field, the classical receptive field, the receptive field centre, the discharge field, the discharge centre, the minimum discharge field, or the
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minimum response field. The region traditionally defined as the classical
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receptive field also includes the inhibitory subregions involved in centresurround antagonism, since stimuli presented in the inhibitory subregions can evoke responses when they are turned off. The classical receptive field excludes surrounding regions that may be relevant to a neuron’s activity. Thus, by definition, stimuli presented outside the cell’s receptive field do not by themselves change its spiking activity.
The Nonclassical Receptive Field Stimuli presented in regions beyond the classical receptive field can affect the cell that fires. Those regions have been described variously as end zones, end-inhibitory zones, the silent surround, the nonclassical receptive field surround, the facilitatory or suppressive surround, or the modulatory surround. Stimuli in the periphery of the receptive field typically are unable to evoke responses by themselves; they can, however, modulate or add their effect to responses driven by the moresensitive central portion of the receptive field. TRENDING TOPICS
In general, stimuli outside the classical receptive field are either
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receptive fields often has been carried out by varying the size of sine
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wave grating stimuli centred over the classical receptive field and
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comparing responses to stimuli smaller than or exceeding that region.
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Typically, responses summate over a region greater than the classical
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receptive field; that region is referred to as the summation area or
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subthreshold or inhibitory. Thus, nonclassical receptive fields can be identified by pairing stimuli in the classical receptive field (which can include both excitatory and inhibitory subregions) with stimuli in the surrounding region. In the visual system the identification of nonclassical
summation field. In the visual cortex there are high- and low-contrast summation fields. The dimensions of the summation area are greater at low stimulus contrast. By broad definition, the receptive field includes both the classical and the nonclassical areas. Thus, it is both the region within which sensory stimuli cause increases or decreases in firing and the region within which stimuli modulate responses. One must attend to how the receptive field has been
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defined in each study. In some instances there may be a classical receptive field surround as well as a nonclassical modulatory surround. One investigator’s receptive field is another investigator’s surround.
Characterization Of Receptive Field Properties Several methods are used to characterize the spatial structure of the receptive field and its temporal dynamics (the spatiotemporal receptive field). The characterizations capture the fact that the spatial structure of the receptive field typically evolves over time, with excitatory and inhibitory subregions growing and shrinking in the period following the presentation of a sensory stimulus. One approach is to define a peristimulus time (PST) response plane, in which response histograms are collected over time during and after stimulus presentation at a range of different locations. Spike-triggered averaging and reverse correlation (and other white-noise analysis) techniques are also employed to assess the spatial structure and stimulus CONNECT WITH BRITANNICA
selectivity of receptive fields and the way those evolve over time. Those techniques essentially look backward in time from the occurrence of a spike to determine what stimulus on average elicited that spike. In essence, that means computing a cross-correlation between the evoked spike train (series of action potentials) and the times and locations of stimulus occurrences. In the auditory system that yields the spectrotemporal response field of auditory neurons. Many studies have also been devoted to characterizing the shape, spatial organization, response timing, and stimulus selectivity of receptive fields, as well as their adaptation to responses. The stimulus selectivity of a neuron is its preference for specific stimulus parameters, examples of which include size, loudness, velocity, colour, spatial frequency, and tonemodulation frequency. A number of receptive field properties, such as extent or spatial organization (i.e., degree of centre-surround antagonism), can change with adaptation state. Thus, the apparent basic receptive field properties of a neuron are not entirely rigid; they depend on the way they are measured, on the adaptation state of the neuron, and on the definition of a given property chosen by the investigator. Jonathan B. Levitt The Editors of Encyclopædia Britannica
LEARN MORE in these related articles: human eye: Neurological basis Records from single optic nerve fibres of the frog and from the ganglion cell of the mammalian retina indicated three types of response. In the frog there were fibres that gave a discharge when a light was switched on the “on-fibres.” Another group, the “off-fibres,”… READ MORE
receptor Receptor, molecule, generally a protein, that receives signals for a cell. Small molecules, such as hormones outside the cell or second messengers inside the cell, bind tightly and specifically to their receptors. Binding is a critical element in effecting a cellular response to a signal and is influenced by a READ MORE
neuron Neuron, basic cell of the nervous system in vertebrates and most invertebrates from the level of the cnidarians (e.g., corals, jellyfish) upward. A typical neuron has a cell body containing a nucleus and two or more long fibres. Impulses are carried along one or more of
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Sir Charles Scott Sherrington Sir Charles Scott Sherrington, English physiologist whose 50 years of experimentation laid the foundations for an understanding of integrated nervous function in higher animals and brought him (with Edgar Adrian) the Nobel Prize for Physiology or Medicine in 1932.
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Haldan Keffer Hartline Haldan Keffer Hartline, American physiologist who was a cowinner (with George Wald and Ragnar Granit) of the 1967 Nobel Prize for Physiology or Medicine for his work in analyzing the neurophysiological mechanisms of vision. Hartline began his study of READ MORE
MORE ABOUT Receptive field 1 REFERENCE FOUND IN BRITANNICA ARTICLES
Assorted References function of retina (In human eye: Neurological basis)
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