Relationships Between Skin Temperature and Temporal Summation of Heat and Cold Pain

Overview

Journal J Neurophysiol

Publisher American Physiological Society

Specialties Neurology
Physiology

Date 2003 Jul 5

PMID 12843304

Citations 19

Authors

Andre P Mauderli

Charles J Vierck Jr

Richard L Cannon

Anthony Rodrigues

Chiayi Shen

Affiliations

Soon will be listed here.

Abstract

Temporal summation of heat pain during repetitive stimulation is dependent on C nociceptor activation of central N-methyl-d-aspartate (NMDA) receptor mechanisms. Moderate temporal summation is produced by sequential triangular ramps of stimulation that control skin temperature between heat pulses but do not elicit distinct first and second pain sensations. Dramatic summation of second pain is produced by repeated contact of the skin with a preheated thermode, but skin temperature between taps is not controlled by this procedure. Therefore relationships between recordings of skin temperature and psychophysical ratings of heat pain were evaluated during series of repeated skin contacts. Surface and subcutaneous recordings of skin temperatures revealed efficient thermoregulatory compensation for heat stimulation at interstimulus intervals (ISIs) ranging from 2 to 8 s. Temporal summation of heat pain was strongly influenced by the ISIs and cannot be explained by small increases in skin temperature between taps or by heat storage throughout a stimulus series. Repetitive brief contact with a precooled thermode was utilized to evaluate whether temporal summation of cold pain occurs, and if so, whether it is influenced by skin temperature. Surface and subcutaneous recordings of skin temperature revealed a sluggish thermoregulatory compensation for repetitive cold stimulation. In contrast to heat stimulation, skin temperature did not recover between cold stimuli throughout ISIs of 3-8 s. Psychophysically, repetitive cold stimulation produced an aching pain sensation that progressed gradually and radiated beyond the site of stimulation. The magnitude of aching pain was well related to skin temperature and thus appeared to be established primarily by peripheral factors.

Citing Articles

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Tempo-spatial integration of nociceptive stimuli assessed via the nociceptive withdrawal reflex in healthy humans.

Henrich M, Frahm K, Andersen O J Neurophysiol. 2021; 126(2):373-382.

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Novel Characterization Of Thermal Temporal Summation Response By Analysis Of Continuous Pain Vs Time Curves And Exploratory Modeling.

Kong J, Bagarinao E, Olshen R, Mackey S J Pain Res. 2019; 12:3231-3244.

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Whitsel B, Vierck C, Waters R, Tommerdahl M, Favorov O J Pain. 2018; 20(4):405-419.

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Methodological Considerations for the Temporal Summation of Second Pain.

Eckert N, Vierck C, Simon C, Calderon S, Cruz-Almeida Y, Staud R J Pain. 2017; 18(12):1488-1495.

PMID: 28801070 PMC: 5682202. DOI: 10.1016/j.jpain.2017.07.009.