Stroking modulates noxious-evoked brain activity in human infants (Current Biology – 17/12/18)

Just published, and already making headlines, is our new open-access paper in Current Biology.

SomAffect’s Francis McGlone and Susannah Walker (LJMU) have been working closely in collaboration with Rebecca Slater’s lab (University of Oxford) on this study which shows that stroking touch reduces infant neural (EEG) responses to pinpricks & clinical heel lance.

Professor McGlone said of the study: “This is the result of 4 years collaboration between the authors, which provides further evidence of the importance of C-Tactile afferents in early life, and a new take on the much revered Gate Control theory.

Read the Article in Current Biology
DOI: https://doi.org/10.1016/j.cub.2018.11.014

Abstract:
A subclass of C fibre sensory neurons found in hairy skin are activated by gentle touch [1] and respond optimally to stroking at ∼1–10 cm/s, serving a protective function by promoting affiliative behaviours. In adult humans, stimulation of these C-tactile (CT) afferents is pleasant, and can reduce pain perception [2]. Touch-based techniques, such as infant massage and kangaroo care, are designed to comfort infants during procedures, and a modest reduction in pain-related behavioural and physiological responses has been observed in some studies [3]. Here, we investigated whether touch can reduce noxious-evoked brain activity. We demonstrate that stroking (at 3 cm/s) prior to an experimental noxious stimulus or clinical heel lance can attenuate noxious-evoked brain activity in infants. CT fibres may represent a biological target for non-pharmacological interventions that modulate pain in early life.


Deniz Gursul, Sezgi Goksan, Caroline Hartley, Gabriela Schmidt Mellado, Fiona Moultrie, Amy Hoskin, Eleri Adams, Gareth Hathway, Susannah Walker, Francis McGlone, Rebeccah Slater, Stroking modulates noxious-evoked brain activity in human infants, Current Biology, Volume 28, Issue 24, 2018.

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