A positron emission tomography study of wind-up pain in chronic postherniotomy pain

Ron Kupers; Markus Georg Lonsdale; Eske Kvanner Aasvang; Henrik Kehlet

doi:10.1016/j.ejpain.2011.01.003

A positron emission tomography study of wind-up pain in chronic postherniotomy pain

Ron Kupers, Markus Georg Lonsdale, Eske Kvanner Aasvang, Henrik Kehlet

9 Citations (Scopus)

Abstract

Many neuropathic pain conditions are characterized by abnormal responses to noxious or innocuous mechanical stimulation, including wind-up pain. Whereas previous brain imaging studies have explored the cerebral correlates of hyperalgesia and allodynia, no studies are available on mechanical-induced wind-up pain in neuropathic pain patients. We therefore used positron emission tomography (PET) to investigate the cerebral response pattern of mechanical wind-up pain in a homogenous group of 10 neuropathic pain patients with long-standing postherniotomy pain in the groin area. Patients were scanned in the following conditions: (1) rest; (2) wind-up pain, induced by 2Hz von Frey stimulation in the painful area; (3) non-painful 2Hz von Frey stimulation in the homologous contralateral area and (4) tonic pressure pain in the homologous contralateral area. A direct comparison between wind-up pain and non-painful von Frey stimulation revealed that the former more strongly activated contralateral secondary somatosensory cortex, insula, anterior cingulate cortex, right dorsolateral prefrontal cortex, thalamus and cerebellum. In addition, wind-up pain also activated the sublenticular extended amygdala (SLEA) and the brain stem. A direct comparison between wind-up pain and pressure pain revealed that both activated a largely overlapping network. Since no de novo brain areas were activated by wind-up pain, our data suggest that the processes specific to wind-up pain do not occur at the cerebral level.

Original language	English
Journal	European Journal of Pain
Volume	15
Issue number	7
Pages (from-to)	698.e1-698.e16
ISSN	1090-3801
DOIs	https://doi.org/10.1016/j.ejpain.2011.01.003
Publication status	Published - 1 Aug 2011

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title = "A positron emission tomography study of wind-up pain in chronic postherniotomy pain",

abstract = "Many neuropathic pain conditions are characterized by abnormal responses to noxious or innocuous mechanical stimulation, including wind-up pain. Whereas previous brain imaging studies have explored the cerebral correlates of hyperalgesia and allodynia, no studies are available on mechanical-induced wind-up pain in neuropathic pain patients. We therefore used positron emission tomography (PET) to investigate the cerebral response pattern of mechanical wind-up pain in a homogenous group of 10 neuropathic pain patients with long-standing postherniotomy pain in the groin area. Patients were scanned in the following conditions: (1) rest; (2) wind-up pain, induced by 2Hz von Frey stimulation in the painful area; (3) non-painful 2Hz von Frey stimulation in the homologous contralateral area and (4) tonic pressure pain in the homologous contralateral area. A direct comparison between wind-up pain and non-painful von Frey stimulation revealed that the former more strongly activated contralateral secondary somatosensory cortex, insula, anterior cingulate cortex, right dorsolateral prefrontal cortex, thalamus and cerebellum. In addition, wind-up pain also activated the sublenticular extended amygdala (SLEA) and the brain stem. A direct comparison between wind-up pain and pressure pain revealed that both activated a largely overlapping network. Since no de novo brain areas were activated by wind-up pain, our data suggest that the processes specific to wind-up pain do not occur at the cerebral level.",

author = "Ron Kupers and Lonsdale, {Markus Georg} and Aasvang, {Eske Kvanner} and Henrik Kehlet",

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T1 - A positron emission tomography study of wind-up pain in chronic postherniotomy pain

AU - Kupers, Ron

AU - Lonsdale, Markus Georg

AU - Aasvang, Eske Kvanner

AU - Kehlet, Henrik

PY - 2011/8/1

Y1 - 2011/8/1

N2 - Many neuropathic pain conditions are characterized by abnormal responses to noxious or innocuous mechanical stimulation, including wind-up pain. Whereas previous brain imaging studies have explored the cerebral correlates of hyperalgesia and allodynia, no studies are available on mechanical-induced wind-up pain in neuropathic pain patients. We therefore used positron emission tomography (PET) to investigate the cerebral response pattern of mechanical wind-up pain in a homogenous group of 10 neuropathic pain patients with long-standing postherniotomy pain in the groin area. Patients were scanned in the following conditions: (1) rest; (2) wind-up pain, induced by 2Hz von Frey stimulation in the painful area; (3) non-painful 2Hz von Frey stimulation in the homologous contralateral area and (4) tonic pressure pain in the homologous contralateral area. A direct comparison between wind-up pain and non-painful von Frey stimulation revealed that the former more strongly activated contralateral secondary somatosensory cortex, insula, anterior cingulate cortex, right dorsolateral prefrontal cortex, thalamus and cerebellum. In addition, wind-up pain also activated the sublenticular extended amygdala (SLEA) and the brain stem. A direct comparison between wind-up pain and pressure pain revealed that both activated a largely overlapping network. Since no de novo brain areas were activated by wind-up pain, our data suggest that the processes specific to wind-up pain do not occur at the cerebral level.

AB - Many neuropathic pain conditions are characterized by abnormal responses to noxious or innocuous mechanical stimulation, including wind-up pain. Whereas previous brain imaging studies have explored the cerebral correlates of hyperalgesia and allodynia, no studies are available on mechanical-induced wind-up pain in neuropathic pain patients. We therefore used positron emission tomography (PET) to investigate the cerebral response pattern of mechanical wind-up pain in a homogenous group of 10 neuropathic pain patients with long-standing postherniotomy pain in the groin area. Patients were scanned in the following conditions: (1) rest; (2) wind-up pain, induced by 2Hz von Frey stimulation in the painful area; (3) non-painful 2Hz von Frey stimulation in the homologous contralateral area and (4) tonic pressure pain in the homologous contralateral area. A direct comparison between wind-up pain and non-painful von Frey stimulation revealed that the former more strongly activated contralateral secondary somatosensory cortex, insula, anterior cingulate cortex, right dorsolateral prefrontal cortex, thalamus and cerebellum. In addition, wind-up pain also activated the sublenticular extended amygdala (SLEA) and the brain stem. A direct comparison between wind-up pain and pressure pain revealed that both activated a largely overlapping network. Since no de novo brain areas were activated by wind-up pain, our data suggest that the processes specific to wind-up pain do not occur at the cerebral level.

U2 - 10.1016/j.ejpain.2011.01.003

DO - 10.1016/j.ejpain.2011.01.003

M3 - Journal article

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VL - 15

SP - 698.e1-698.e16

JO - European Journal of Pain

JF - European Journal of Pain

IS - 7

ER -

A positron emission tomography study of wind-up pain in chronic postherniotomy pain

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