1. Spreading vasodilatation of the axon reflex type was evoked by contact heat stimulation of the hairy skin in the human forearm (13.3 cm2 stimulus area) and was detected by laser Doppler flowmetry at 8, 19 and 30 mm distance. 2. From a base temperature of 35 degrees C, rapidly rising short heat stimuli (4 degrees C s-1, 2 s plateau) elicited vasodilatation at an average threshold of 39.4 degrees C. For slowly rising sustained heat stimuli (64 s duration) the average threshold was 39.6 degrees C (n.s.) Laser Doppler flowmetry revealed a rapid onset within about 4 s, a long duration of several minutes beyond the end of the stimulus, and a rapid spread of vasodilatation to remote skin areas. These characteristics are typical for vasodilatation by an axon reflex of nociceptive afferents. 3. Axon reflex thresholds matched the lower range of C fibre nociceptor heat thresholds. Thermal stimuli that were adjusted to elicit about half-maximal phasic responses in warm fibres (steps from 30 to 35 degrees C), but were below the range of C fibre nociceptor thresholds, did not cause any vasodilatation. 4. Pain thresholds were higher than axon reflex thresholds for both rapidly and slowly rising heat stimuli and strongly depended on the stimulus pattern (40.1 degrees C for rapidly rising stimuli and > 43 degrees C for slowly rising stimuli). This observation is consistent with recent reports that the phasic response of nociceptive afferents is essential to overcome the summation requirements at central synapses. 5. In conclusion, axon reflex vasodilatation in response to heat stimuli in the hairy skin of humans is elicited by activation of heat-sensitive nociceptors, even in the absence of a conscious perception of heat pain. The dissociation of pain and vasodilatation thresholds supports the concept of two operating ranges of primary nociceptive afferents. Warm fibres do not contribute to axon reflex vasodilatation in the hairy skin of the human forearm. Release of vasoactive peptides by nociceptive primary afferents may also contribute to local heat-evoked vasodilatation at temperatures above 40 degrees C.