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An ultrafast system for signaling mechanical pain in human skin

Authors :
Nagi, Saad S.
Marshall, Andrew G.
Makdani, Adarsh
Jarocka, Ewa
Liljencrantz, Jaquette
Ridderstrom, Mikael
Shaikh, Sumaiya
O'Neill, Francis
Saade, Dimah
Donkervoort, Sandra
Foley, A. Reghan
Minde, Jan
Trulsson, Mats
Cole, Jonathan
Bonnemann, Carsten G.
Chesler, Alexander T.
Bushnell, M. Catherine
McGlone, Francis
Olausson, Hakan
Nagi, Saad S.
Marshall, Andrew G.
Makdani, Adarsh
Jarocka, Ewa
Liljencrantz, Jaquette
Ridderstrom, Mikael
Shaikh, Sumaiya
O'Neill, Francis
Saade, Dimah
Donkervoort, Sandra
Foley, A. Reghan
Minde, Jan
Trulsson, Mats
Cole, Jonathan
Bonnemann, Carsten G.
Chesler, Alexander T.
Bushnell, M. Catherine
McGlone, Francis
Olausson, Hakan
Publication Year :
2019

Abstract

The canonical view is that touch is signaled by fast-conducting, thickly myelinated afferents, whereas pain is signaled by slow-conducting, thinly myelinated (“fast” pain) or unmyelinated (“slow” pain) afferents. While other mammals have thickly myelinated afferents signaling pain (ultrafast nociceptors), these have not been demonstrated in humans. Here, we performed single-unit axonal recordings (microneurography) from cutaneous mechanoreceptive afferents in healthy participants. We identified A-fiber high-threshold mechanoreceptors (A-HTMRs) that were insensitive to gentle touch, encoded noxious skin indentations, and displayed conduction velocities similar to A-fiber low-threshold mechanoreceptors. Intraneural electrical stimulation of single ultrafast A-HTMRs evoked painful percepts. Testing in patients with selective deafferentation revealed impaired pain judgments to graded mechanical stimuli only when thickly myelinated fibers were absent. This function was preserved in patients with a loss-of-function mutation in mechanotransduction channel PIEZO2. These findings demonstrate that human mechanical pain does not require PIEZO2 and can be signaled by fast-conducting, thickly myelinated afferents.

Details

Database :
OAIster
Notes :
application/pdf, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1233716156
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1126.sciadv.aaw1297