Slow brushing reduces heat pain in humans

Background C‐tactile (CT) afferents are unmyelinated low‐threshold mechanoreceptors optimized for signalling affective, gentle touch. In three separate psychophysical experiments, we examined the contribution of CT afferents to pain modulation. Methods In total, 44 healthy volunteers experienced hea...

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Bibliographic Details
Published in:European journal of pain 2017-08, Vol.21 (7), p.1173-1185
Main Authors: Liljencrantz, J., Strigo, I., Ellingsen, D.M., Krämer, H.H., Lundblad, L.C., Nagi, S.S., Leknes, S., Olausson, H.
Format: Article
Language:English
Subjects:
Anesthesiology
c fibers
Emotions
flutter-vibration
Hot Temperature
human hairy
Humans
induced analgesia
insular cortex
low-force monofilaments
Mechanoreceptors - physiology
Nerve Fibers, Unmyelinated - physiology
Neurosciences
Neurosciences & Neurology
Neurovetenskaper
opioid analgesia
Pain
Pain Measurement
Psychophysics - methods
Skin
threshold
Touch
unmyelinated tactile afferents
Vibration
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Summary:Background C‐tactile (CT) afferents are unmyelinated low‐threshold mechanoreceptors optimized for signalling affective, gentle touch. In three separate psychophysical experiments, we examined the contribution of CT afferents to pain modulation. Methods In total, 44 healthy volunteers experienced heat pain and CT optimal (slow brushing) and CT sub‐optimal (fast brushing or vibration) stimuli. Three different experimental paradigms were used: Concurrent application of heat pain and tactile (slow brushing or vibration) stimulation; Slow brushing, applied for variable duration and intervals, preceding heat pain; Slow versus fast brushing preceding heat pain. Results Slow brushing was effective in reducing pain, whereas fast brushing or vibration was not. The reduction in pain was significant not only when the CT optimal touch was applied simultaneously with the painful stimulus but also when the two stimuli were separated in time. For subsequent stimulation, the pain reduction was more pronounced for a shorter time interval between brushing and pain. Likewise, the effect was more robust when pain was preceded by a longer duration of brush stimulation. Strong CT‐related pain reduction was associated with low anxiety and high calmness scores obtained by a state anxiety questionnaire. Conclusions Slow brushing – optimal for CT activation – is effective in reducing pain from cutaneous heating. The precise mechanisms for the pain relief are as yet unknown but possible mechanisms include inhibition of nociceptive projection neurons at the level of the dorsal horn as well as analgesia through cortical mechanisms. Significance Slow brushing stimuli – optimal for activation of C‐tactile fibres – can reduce pain from cutaneous heating. No such effect was seen with fast brushing or vibration. These observations indicate the role of C‐tactile fibres in pain modulation.
ISSN:1090-3801
1532-2149
1532-2149
DOI:10.1002/ejp.1018