P. R. Burgess scite author profile

SUMMARY1. The characteristics of receptors from the hairy skin of the hind limb of cat were studied by recording from single primary afferent fibres with fine micropipettes. The distinctive features of 513 fibres conducting under 51 m/sec are described.2. Seventy-four fibres conducting between 6 and 37 m/sec were classified as nociceptors because they responded only to damaging mechanical stimulation of the skin. These fibres responded maximally to pinching the skin with a serrated forceps or to cutting the skin. Noxious heat, noxious cold, acid applied to the receptive field and bradykinin injected into skin cuts did not evoke discharges from such receptors. Typically their receptive fields were 2-5 cm long by 1-2 5 cm wide and consisted of responsive spots (under 1 mm diameter) separated by unresponsive areas. There was a tendency for the most slowly conducting fibres so classified to be the least sensitive.3. Other afferent fibres had receptive fields similar to the nociceptors; however, they were excited by substantial but not noxious mechanical deformation. Their conduction velocities overlapped those of the nociceptors and extended upwards to 51 m/sec; the most rapidly conducting fibres tended to be the most sensitive to mechanical stimuli. These insensitive mechanoreceptors or moderate pressure receptors adapted more slowly than the nociceptors.4. The majority of fine myelinated axons originated from hair receptors and had conduction velocities concentrated between 14 and 22 m/sec.5. The possible relation of these observations to pain and reactions typical of pain is considered.

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Cutaneous Mechanoreceptors and Nociceptors

Burgess

Perl

1973

349

171

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Characteristics of knee joint receptors in the cat

Burgess¹,

Clark²

1969

The Journal of Physiology

287

140

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SUMMARY1. The conduction velocities of 278 posterior articular nerve fibres studied in dorsal root filaments ranged from 10 to 110 m/sec. The conduction velocities were distributed similarly to posterior articular nerve fibre diameters determined histologically.2. Two hundred and nine fibres were slowly adapting. Of these, 140 responded only at both marked flexion and marked extension, forty-seven responded only during flexion and twelve only during extension. Four slowly adapting fibres were activated specifically at intermediate joint positions. Outward twist of the tibia (abducting the foot) enhanced the discharge of most slowly adapting joint fibres.3. Two rapidly adapting receptor types were noted. Pacinian corpusclelike receptors (fourteen fibres) responded transiently to joint movement in any direction regardless of initial position. Phasic joint receptors (thirty fibres) were rapidly adapting at most joint positions but could give a low rate sustained discharge when strongly stimulated.4. Six slowly adapting posterior articular nerve fibres responded to succinylcholine, suggesting that they originated from muscle spindles. Spindle-like receptors were usually tonically active at intermediate joint positions.5. Eleven slowly conducting myelinated fibres responded only to extreme joint movement, which was probably noxious.

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Dynamic properties of mechanoreceptors with unmyelinated (C) fibers.

Bessou¹,

Burgess²,

Perl³

et al. 1971

Journal of Neurophysiology

239

129

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Receptor types in cat hairy skin supplied by myelinated fibers.

Burgess¹,

Petit²,

Warren³

1968

Journal of Neurophysiology

310

131

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P. R. Burgess

Myelinated afferent fibres responding specifically to noxious stimulation of the skin

Cutaneous Mechanoreceptors and Nociceptors

Characteristics of knee joint receptors in the cat

Dynamic properties of mechanoreceptors with unmyelinated (C) fibers.

Receptor types in cat hairy skin supplied by myelinated fibers.

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