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Human cerebral potentials evoked by CO2 laser stimuli causing pain (1987)

Bromm, B. ; Treede, R. -D.

Springer

Experimental brain research 67 (1987), S. 153-162

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ISSN: 1432-1106

Keywords: C-fibres ; Evoked cerebral potentials ; Ultralate components ; Pain ; Man ; Adaptive filter ; Single trial EEG analysis

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Brief radiant heat pulses, generated by a CO2 laser, were used to activate slowly conducting afferents in the hairy skin in man. In order to isolate C-fibre responses a preferential A-fibre block was applied by pressure to the radial nerve at the wrist. Stimulus estimation and evoked cerebral potentials (EP), as well as reaction times, motor and sudomotor activity were recorded in response to each stimulus. With intact nerve, the single supra-threshold stimulus induced a double pain sensation: A first sharp and stinging component (mean reaction time 480 ms) was followed by a second burning component lasting for seconds (mean reaction time 1350 ms). Under A-fibre block only one sensation remained with characteristics and latencies of second pain. The heat pulse evoked potential consisted of a late vertex negativity at 240 ms (N240) followed by a prominent late positive peak at 370 ms (P370). Later activity was not reliably present. Under A-fibre block this late EP was replaced by an ultralate EP beyond 1000 ms, which in the conventional average looked like a slow halfwave of 800 ms duration. This potential was distinct from eye movements, skin potentials or muscle artefacts. With cross-correlation methods waveforms similar to the N240/P370 were detected in the latency range from 900 to 1500 ms during A-fibre block, indicating a much greater latency jitter of the ultralate EP. Latency corrected averaging with a modified Woody filter yielded a grand mean ultralate EP (N1050/P1250), the shape of which was surprisingly similar to the late EP (N240/P370). The similarity of these components indicates that both EPs may be secondary responses to afferent input into neural centers, onto which myelinated and unmyelinated fibres converge. Such convergence may also explain through the known mechanisms of short term habituation and selective attention, why ultralate EPs are not reliably present without peripheral nerve block.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00269463

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Responses of human cutaneous afferents to CO2 laser stimuli causing pain (1984)

Bromm, B. ; Jahnke, M. T. ; Treede, R. -D.

Springer

Experimental brain research 55 (1984), S. 158-166

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ISSN: 1432-1106

Keywords: C-nociceptor ; Pain ratings ; Microelectroneurography ; Man ; Signal detection theory ; CO2 laser stimuli

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Microelectroneurographic studies in man allow the comparison of stimulus induced activity in the single peripheral nerve unit with the subject's ratings of sensation. Relationships between stimulus intensity, single unit discharges, and pain ratings were investigated using a CO2 laser stimulator which delivers radiant heat pulses of 50 ms duration. Recordings were performed percutaneously from the radial nerve at the wrist. Receptor types were identified by their response to different stimulus modalities and by their reaction delay to electrical test stimuli within the receptive field. Receptive fields of identified units were stimulated with randomised series of different radiant heat intensities between half and double the individual pain threshold (5 to 20 W; stimulation area 64 mm2). The largest receptor class observed to be activated by CO2 laser stimuli were polymodal C-nociceptors. None of them was spontaneously active. High discharge rates up to 75/s were not necessarily associated with pain but, if pain was felt, the impulse trains usually lasted for more than 60 ms. Inter-spike intervals were distributed over a wide range between 8 and 145 ms with a peak at about 25 ms. This peak was only slightly shifted by increasing the stimulus intensity. Higher correlations were found between the number of spikes and stimulus intensity. Measures of Signal Detection Theory indicated that the single unit discharges discriminated stimulus intensities better than the subjects' ratings. These findings underline the importance of temporal summation in the processing of C-fibre input with a considerable loss of information in the nociceptive system.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00240510

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Inward rectification in frog skeletal muscle membrane during alternating current stimulation (1971)

Bromm, B. ; Simon, R.

Springer

Pflügers Archiv 328 (1971), S. 155-169

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ISSN: 1432-2013

Keywords: Repetitive Activity ; Muscle Membrane ; Sodium Rectification ; Anomalous Rectification ; Short Reverse Double Pulses

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Changes in membrane potential of frog skeletal muscle fibres (m. iliofibularis) due to alternating current (ac) up to 10 kHz and direct current (dc) are recorded with two intracellular microelectrodes. 2. Stimulation by ac with frequencies above 500 Hz induces a mean depolarization $$\bar Vm{\text{ }} \bullet {\text{ }}\bar Vm$$ depends in a small range on the strength of the ac stimulus, and reaches a maximum of about 50 mV with stronger currents. When related to the absolute membrane potentialE m , this maximum $$(\bar E_m )max = E_m + (\bar Vm)max = - 45 mV$$ is hardly affected by alterations ofE m ; below a membrane potential of −45 mV the depolarizing effect of ac stimulation is negligible. 3. The mean depolarization $$\bar V_m $$ is explained mainly by rectification in the sodium channel; this interpretation is proved by the almost complete abolition of $$\bar V_m $$ in sodium free solution or in Ringer's solution containing tetrodotoxin 10−7 g/ml. A slight residual amount of $$\bar V_m $$ may be caused by anomalous rectification in the potassium system, as indicated by experiments in tetraethylammonium chloride 60 mM/l. 4. Ac and dc stimulation above threshold strength induce repetitive activity with trains of action potentials. The subsequent spikes are higher, the critical prepotentials are lower, and the time intervals are shorter with ac than with dc. 5. These facts agree, in principle, with findings on the nodal membrane; small differences may be attributed to anomalous rectification.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00592443

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