TY - JOUR
T1 - Cerebral peak alpha frequency reflects average pain severity in a human model of sustained, musculoskeletal pain
AU - Furman, Andrew J.
AU - Thapa, Tribikram
AU - Summers, Simon J.
AU - Cavaleri, Rocco
AU - Fogarty, Jack S.
AU - Steiner, Genevieve Z.
AU - Schabrun, Siobhan M.
AU - Seminowicz, David A.
PY - 2019
Y1 - 2019
N2 - Heightened pain sensitivity, the amount of pain experienced in response to a noxious event, is a known risk factor for development of chronic pain. We have previously reported that pain-free, sensorimotor Peak Alpha Frequency (PAF) is a reliable biomarker of pain sensitivity for thermal, prolonged pains lasting tens of minutes. To test whether PAF can provide information about pain sensitivity occurring over clinically relevant timescales (i.e., weeks), EEG was recorded before and while participants experienced a long-lasting pain model, repeated intramuscular injection of nerve growth factor (NGF), that produces progressively developing muscle pain for up to 21 days. We demonstrate that pain-free, sensorimotor PAF is negatively correlated with NGF pain sensitivity; increasingly slower PAF is associated with increasingly greater pain sensitivity. Furthermore, PAF remained stable following NGF injection indicating that the presence of NGF pain for multiple weeks is not sufficient to induce the PAF slowing reported in chronic pain. In total, our results demonstrate that slower pain-free, sensorimotor PAF is associated with heightened sensitivity to a long-lasting musculoskeletal pain and also suggest that the apparent slowing of PAF in chronic pain may reflect pre-disease pain sensitivity.
AB - Heightened pain sensitivity, the amount of pain experienced in response to a noxious event, is a known risk factor for development of chronic pain. We have previously reported that pain-free, sensorimotor Peak Alpha Frequency (PAF) is a reliable biomarker of pain sensitivity for thermal, prolonged pains lasting tens of minutes. To test whether PAF can provide information about pain sensitivity occurring over clinically relevant timescales (i.e., weeks), EEG was recorded before and while participants experienced a long-lasting pain model, repeated intramuscular injection of nerve growth factor (NGF), that produces progressively developing muscle pain for up to 21 days. We demonstrate that pain-free, sensorimotor PAF is negatively correlated with NGF pain sensitivity; increasingly slower PAF is associated with increasingly greater pain sensitivity. Furthermore, PAF remained stable following NGF injection indicating that the presence of NGF pain for multiple weeks is not sufficient to induce the PAF slowing reported in chronic pain. In total, our results demonstrate that slower pain-free, sensorimotor PAF is associated with heightened sensitivity to a long-lasting musculoskeletal pain and also suggest that the apparent slowing of PAF in chronic pain may reflect pre-disease pain sensitivity.
KW - chronic pain
KW - biochemical markers
KW - nerve growth factor
KW - electroencephalography
UR - http://hdl.handle.net/1959.7/uws:52544
U2 - 10.1152/jn.00279.2019
DO - 10.1152/jn.00279.2019
M3 - Article
VL - 122
SP - 1784
EP - 1793
JO - Journal of Neurophysiology
JF - Journal of Neurophysiology
IS - 4
ER -