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Delayed responses to electrical stimuli reflect C-fiber responsiveness in human microneurography (1995)

Schmelz, M. ; Forster, C. ; Schmidt, R. ; [et al.]

Springer

Experimental brain research 104 (1995), S. 331-336

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ISSN: 1432-1106

Keywords: Microneurography ; C-fiber responsiveness ; Conduction velocity ; Relative refractory period

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The slowing of impulse conduction during the relative refractory period has often been used to assess activation of C-fibers, in particular, in human microneurography. This study aimed to evaluate the sensitivity of this method and the factors affecting it. Thirty cutaneous C-fibers were recorded from the peroneal nerves of healthy human subjects. Intracutaneous electrical stimulation in the receptive field at 4 s intervals, after some minutes of adaptation, induced spike discharges at constant latency. One or more conditioning stimulus pulses were interpolated at different intervals and the increase in latency after the subsequent regular pulse was assessed. The latency shift was found to depend on the number of interposed pulses, on the time interval between conditioning and conditioned stimulus, and on the conduction velocity of the C-unit. The increase in latency was larger with greater distance between stimulating and recording electrodes, indicating a contribution of the conductile membrane over its whole length. On the other hand, slowing was more pronounced, on average, in slower conducting C-units and conduction velocities were slower when recordings were performed more distally. These findings indicate that the slower terminal nerve branches contribute most to the latency increases. Even a single additional spike in between two regular pulses caused a reliable latency shift of 1.2±0.2 ms (mean ±SEM) and additional pulses lead to an approximately linear latency increase (2 pulses: 2.3±0.3 ms; 4 pulses: 5.9±0.7 ms). In contrast to the number of interposed stimuli, different intervals between interposed and regular stimuli had only a minor impact on the latency shifts. It is concluded that latency shifts are reliable indicators of C-fiber activation, being sensitive enough to detect even single spike responses. Furthermore, latency increases may be used as a relative measure of C-fiber activation, e.g., when comparing responses to stimuli of different strength.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00242018

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Limitation of sensitization to injured parts of receptive fields in human skin C-nociceptors (1996)

Schmelz, M. ; Schmidt, R. ; Ringkamp, M. ; [et al.]

Springer

Experimental brain research 109 (1996), S. 141-147

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ISSN: 1432-1106

Keywords: Microneurography ; C-fiber ; Sensitization ; Receptive field

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Unmyelinated cutaneous mechano-heat fibers (CMH) in the peroneal nerve of healthy human volunteers were studied by means of a “marking” technique which allows stable recordings from identified single units over extended periods. Mechanoreceptive field sizes were 105±13 mm2 in 25 units. These large receptive fields indicate extensive terminal branching of C fibers in the skin of foot and lower leg. Sensitization of CMHs was tested by assessment of thresholds for mechanical (von Frey hair) and heat stimuli before and after topical application of mustard oil (allyl isothiocyanate) and capsaicin (8-methyl-N-vanillyl-6-noneamide). While in a group of 14 CMHs the entire receptive field was treated with these irritant substances, in another group of 11 CMH units only parts of the receptive field were treated to check for signs of spreading sensitization through axon collaterals. Mustard oil application did not change mechanical thresholds, regardless of whether parts of or complete receptive fields were treated. However, mean heat thresholds dropped by 5.6° C to 36.5±1.5°C in completely treated receptive fields and by 5.7° C to 37.3±3.4° C in treated parts of receptive fields (“primary sensitization”). In contrast, heat thresholds in the non-treated parts did not change significantly (42.1±3.4° C vs 41.2±3.9° C), i.e. “secondary sensitization” to heat was lacking. The absence of primary sensitization to probing with von Frey hairs indicates that sensitization of insensitive C fibers and recruitment of insensitive axon collaterals may be more important for mechanical hyperalgesia than sensitization of conventional CMH units — apart from the contribution of central mechanisms. The lack of spread of sensitization to untreated parts of the receptive fields o CMHs (“secondary sensitization”) indicates that this fiber group is probably not involved in any form of secondary hyperalgesia to heating.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00228635

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Gating of tactile input from the hand (1990)

Schmidt, R. F. ; Schady, W. J. L. ; Torebjörk, H. E.

Springer

Experimental brain research 79 (1990), S. 97-102

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ISSN: 1432-1106

Keywords: Sensory gating ; Finger movement ; Cutaneous mechanoreceptors ; Microneurography ; Intraneural microstimulation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Intraneural microstimulation within the median nerve of alert healthy subjects was used to evoke tactile sensations at threshold for conscious detection. The effect of movement on these sensations was studied by asking the subjects to estimate their magnitude before, during and after movement of the appropriate finger at different speeds. It was found that sensations of flutter and pressure were both attenuated by movement, as was the magnitude of spontaneous paraesthesiae. The degree of sensory inhibition correlated positively with speed of movement and was comparable to the previously reported reduction in cortical somatosensory evoked potentials by movement, using suprathreshold stimuli. These results indicate that (i) movement inhibits tactile sensations of different qualities, (ii) such inhibition is velocity-dependent, and (iii) threshold sensations are amenable to central modulation short of their abolition. It is likely that the mechanisms of inhibition of exteroceptive inputs during movement are contingent upon the character of the sensory stimulus and the nature of the motor task.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00228877

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