Robert W. Dykes scite author profile

Extracellular recordings of 209 neurons were obtained with carbon fiber-containing multibarrel micropipettes. The cells were isolated in the primary somatosensory cortex of cats anesthetized with barbiturate and classified according to the nature of their response to natural stimuli, the nature of the surrounding multiunit responses to the same stimuli, the response to thalamic stimulation, and their depth in the cortex. To study factors controlling the excitability of somatosensory neurons, their receptive fields were examined in the presence of iontophoretically administered gamma-aminobutyric acid (GABA), glutamate, and bicuculline methiodide (BMI). Even when the neurons were depolarized to perithreshold levels with glutamate, or when local inhibitory influences mediated by GABA were antagonized by BMI, the apparent specificity for one class of afferent input was maintained. Neurons responding to stimulation of either cutaneous or deep receptors maintained their modality specificity, and neurons in cutaneous rapidly adapting regions never took on slowly adapting properties. When ejected at currents that did not elicit action potentials, glutamate lowered the threshold for activation by cutaneous stimuli but did not enlarge the receptive field. With larger ejecting currents, the neurons developed an on-going discharge, but even at these higher doses, glutamate did not produce an increase in the receptive-field size. Some neurons in regions of cortex exhibiting slowly adapting multiunit responses were relatively insensitive to glutamate. These cells required four to five times more glutamate to evoke discharges than did most neurons. Other cells, previously unresponsive to somatic stimuli, could be shown to possess distinct cutaneous receptive fields when either glutamate or BMI was ejected in their vicinity. Iontophoretically administered BMI altered the firing pattern of somatosensory neurons, causing them to discharge in bursts of 3-15 impulses. BMI enlarged the receptive-field size of neurons in regions displaying rapidly adapting multiunit background discharges but not in those regions with slowly adapting multiunit discharges. This differential effect of BMI, suggesting that GABA controls receptive-field size in rapidly adapting regions, also indicates that neurons in rapidly adapting regions differ pharmacologically from those in other submodality regions. In all cortical regions, BMI blocked the poststimulus inhibitory period that normally followed thalamic stimulation.(ABSTRACT TRUNCATED AT 400 WORDS)

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The somatotopic organization of the ventroposterior thalamus of the squirrel monkey, Saimiri sciureus

Kaas

Nelson

Sur

et al. 1984

J of Comparative Neurology

171

113

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Multiunit microelectrode mapping techniques were used to investigate the organization of the somatosensory thalamus in squirrel monkeys. Receptive fields and response characteristics were determined for closely spaced recording sites along arrays of electrode penetrations that passed through the ventral thalamus dorsoventrally, rostrocaudally, or lateromedially. The results were related to thalamic architecture and led to the following conclusions: (1) A large, single, systematic representation of the body surface occupied most or all of the ventroposterior nucleus, VP. The nucleus was further defined by a distinct cytoarchitectonic appearance, produced by densely packed, deeply stained neurons. (2) Recording sequences in VP were characterized by (a) abrupt shifts in receptive field locations over short recording distances indicating that the electrode had crossed discontinuities or folds in the representation, (b) long sequences of overlapping receptive fields indicating regions of continuous representation and the maintenance of adjacency in the map, and (c) similar receptive field locations for sites along the trajectory of a penetration indicating regions of isorepresentation. Major somatotopic discontinuities were associated with crossing narrow cell-poor laminae that partially divided VP into subnuclei related to the hand, foot, trunk, and tail in lateral VP and the face in medial VP. Somatotopic discontinuities occurred for electrode penetrations in all three planes, but discontinuities were greater and more frequent for lateromedial electrode penetrations. Lines of isorepresentation and gradual change were most extensive in the rostrocaudal and dorsoventral planes. We hypothesize that the disruptions, regions of isorepresentation, and regions of gradual change result from the thickening, splitting, and folding of a two-dimensional representation of the skin surface to occupy a three-dimensional volume. (3) The magnifications of various skin surfaces in VP were variable so that some skin surfaces, especially the tips of the digits, occupied relatively large portions of the nucleus, while other skin surfaces such as the trunk activated little tissue. It appeared that regions of isorepresentation varied in extent according to magnification factor and position in the map. (4) Within VP, neurons could be classified as slowly adapting or rapidly adapting to maintained skin indentation. Each type of neuron formed small groups or clusters in the nucleus so that several successive recording sites typically encountered one type before a sequence of the other type was observed.(ABSTRACT TRUNCATED AT 400 WORDS)

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Binaural response-specific bands in primary auditory cortex (AI) of the cat: Topographical organization orthogonal to isofrequency contours

1980

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A review of current theories and treatments for phantom limb pain

Collins¹,

Russell²,

Schumacher³

et al. 2018

134

102

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Following amputation, most amputees still report feeling the missing limb and often describe these feelings as excruciatingly painful. Phantom limb sensations (PLS) are useful while controlling a prosthesis; however, phantom limb pain (PLP) is a debilitating condition that drastically hinders quality of life. Although such experiences have been reported since the early 16th century, the etiology remains unknown. Debate continues regarding the roles of the central and peripheral nervous systems. Currently, the most posited mechanistic theories rely on neuronal network reorganization; however, greater consideration should be given to the role of the dorsal root ganglion within the peripheral nervous system. This Review provides an overview of the proposed mechanistic theories as well as an overview of various treatments for PLP.

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Afferent fibers from mystacial vibrissae of cats and seals

Dykes¹

1975

Journal of Neurophysiology

118

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1. Studies of vibrissae of cats and seals revealed minor species-specific differences in functional characteristics of the afferent fibers: vibrissal fibers from the seal showed a significantly higher rate (P smaller than 0.05) and frequency of occurrence (P smaller than 0.01) of spontaneous activity, and a significantly greater percentage (P smaller than 0.01) responded to vibrations greater than 256 Hz. None of these differences could be interpreted as an adaptation to the aquatic environment. 2. Of 455 afferent fibers obtained from the infraorbital nerve, a large proportion (66% in cats and 85% in seals) served vibrissae. A population study of 357 such fibers showed that two-thirds were rapidly adapting (RA) and the remainder were slowly adapting (SA). Neither group displayed preferential directional sensitivity, but for 75% of the individual fibers in cats and 71% in seals, a particular direction elicited maximal response. 3. On the basis of their tuning curves, the RA fibers were divisible into three major groups: insensitive, sensitive, and those with frequency-dependent tuning curves. Single RA fibers provided little information about vibratory stimulus amplitude. However, it is postulated that the range of thresholds in the RA fiber group within each follicle represents a mechanism of encoding the intensity of vibratory stimuli. 4. By contrast, single SA fibers encoded precisely the intensity of steady stimuli. The average fiber conveyed 2.7 bits of information about the magnitude of vibrissal deflections of smaller than 17 degrees (1.5 mm, at 5 mm from skin). 5. Each type of fiber abstracted one or more features from the environment, and conveyed these abstractions by its individual pattern of neural activity. It is postulated that vibrissae provide fine textural information about surfaces.

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Robert W. Dykes

Functional role of GABA in cat primary somatosensory cortex: shaping receptive fields of cortical neurons

The somatotopic organization of the ventroposterior thalamus of the squirrel monkey, Saimiri sciureus

Binaural response-specific bands in primary auditory cortex (AI) of the cat: Topographical organization orthogonal to isofrequency contours

A review of current theories and treatments for phantom limb pain

Afferent fibers from mystacial vibrissae of cats and seals

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