QUANTITATIVE SOMATOSENSORY THERMOTEST: A KEY METHOD FOR FUNCTIONAL EVALUATION OF SMALL CALIBRE AFFERENT CHANNELS

doi:10.1093/brain/115.3.893

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Brain, Vol. 115, No. 3, 893-913, 1992
© 1992 Guarantors of Brain

research-article

QUANTITATIVE SOMATOSENSORY THERMOTEST: A KEY METHOD FOR FUNCTIONAL EVALUATION OF SMALL CALIBRE AFFERENT CHANNELS

RENATO VERDUGO and JOSÉ L. OCHOA

Departments of Neurology and Neurosurgery, Good Samaritan Hospital and Medical Center, Oregon Health Sciences University Portland, USA

Correspondence to: Correspondence to: Dr Jose L. Ochoa, Director, Peripheral Nerve Disease Unit, Good Samaritan Hospital and Medical Center, 1040 NW 22nd Avenue, Suite NSC-460, Portland, OR 97210, USA.

The quantitative somatosensory thermotest (QST) assesses thefunction of afferent channels concerned with sensory submodalitiesserved by small calibre fibres. Measured ramps of ascendingor descending temperature are applied to the skin through aPeltier contact thermode, and detection thresholds are recordedas the subject signals the onset of a particular sensation.

The present study describes underlying principles, methodologicalaspects and normal reference values for the QST. In patients,measurement of thresholds for cold sensation, warm sensation,cold-induced pain and heat-induced pain, applied to 465 individuals,yielded 13 abnormal patterns segregated into three main groups:(i) thermal (cold or warm) hypoaesthesia; (ii) thermal hyperalgesia(abnormally reduced threshold for cold and/or heat induced pain);(iii) thermal hypoaesthesia combined with thermal hyperalgesia.

Critical analysis of these results yielded a number of observationsof general relevance: (i) thermal specific (warm or cold) hypoaesthesiaand thermal (heat or cold) hyperalgesia may occur in the absenceof hypoaesthesia for tactile submodalities served by large calibreafferents; (ii) cold hypoaesthesia and warm hypoaesthesia maydissociate from each other; (iii) thermal pain hyperalgesiasmay occur in the absence of hypoaesthesias for specific coldor warm sensations; (iv) cold hyperalgesia and heat hyperalgesiamay dissociate from each other.

Thus, a negative routine sensory examination and unimpairedsensory nerve action potentials do not exclude possible somatosensorydysfunction. Furthermore, while most methods of sensory testingonly document normality or deficit, the QST permits additionaldocumentation of hyperalgesia, a positive sensory phenomenonthat implies unusual pathophysiologies such as sensitizationof receptors, central hyper-excitability, disinhibition or,possibly, ectopic nerve impulse discharge.

This psychophysical test does not specify the level within afferentchannels, between skin and brain-mind, where the abnormalityresides. It is recommended that the QST for all four thermalspecific and thermal pain functions be incorporated in routineneurological assessment.

Received June 20, 1991. Revised November 26, 1991. Accepted February 7, 1992.

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