Apkarian AV Sosa Y Sonty S Levy RM Harden RN Parrish TB Gitelman DR

Chronic Back Pain Is Associated with Decreased Prefrontal and Thalamic Gray Matter Density.

J Neurosci. 24: 10410-10415Backonja M Howland EW Wang J Smith J Salinsky M Cleeland CS

Tonic changes in alpha power during immersion of the hand in cold water.

Electroencephalogr Clin Neurophysiol. 79: 192-203

Nociception, pain, negative moods and behavior selection.

Neuron. 87: 474-491Baliki MN Chialvo DR Geha PY Levy RM Harden RN Parrish TB Apkarian AV

Chronic Pain and the Emotional Brain: Specific Brain Activity Associated with Spontaneous Fluctuations of Intensity of Chronic Back Pain.

J Neurosci. 22: 12165-12173

An Information-Maximization Approach to Blind Separation and Blind Deconvolution.

Neural Comput. 7: 1129-1159Bergin MJG Hirata R Mista C Christensen SW Tucker K Vicenzino B Hodges P Graven-Nielsen T

Movement Evoked Pain and Mechanical Hyperalgesia after Intramuscular Injection of Nerve Growth Factor: A Model of Sustained Elbow Pain.

Pain Med. 16: 2180-2191Bornhövd K Quante M Glauche V Bromm B Weiller C Büchel C

Painful stimuli evoke different stimulus-response functions in the amygdala, prefrontal, insula and somatosensory cortex: A single-trial fMRI study.

Brain. 125: 1326-1336Chang PF Arendt-Nielsen L Chen ACN

Dynamic changes and spatial correlation of EEG activities during cold pressor test in man.

Brain Res Bull. 57: 667-675Chang PF Arendt-Nielsen L Graven-Nielsen T Chen ACN

Psychophysical and EEG responses to repeated experimental muscle pain in humans: Pain intensity encodes EEG activity.

Brain Res Bull. 59: 533-543Chang PF Arendt-Nielsen L Graven-Nielsen T Svensson P Chen ACN

Different EEG topographic effects of painful and non-painful intramuscular stimulation in man.

Exp Brain Res. 141: 195-203Chang PF Arendt-Nielsen L Graven-Nielsen T Svensson P Chen ACN

Topographic effects of tonic cutaneous nociceptive stimulation on human electroencephalograph.

Neurosci Lett. 305: 49-52Chen ACN Dworkin SF Haug J Gehrig J

Topographic brain measures of human pain and pain responsivity.

Pain. 37: 129-141

Brain and Human pain: Topographic EEG amplitude and coherence mapping.

Brain Topogr. 7: 129-140

Individual differences in pain thresholds.

Can J Psychol. 10: 69-76Coghill RC McHaffie JG Yen YF

Neural correlates of interindividual differences in the subjective experience of pain.

Proc Natl Acad Sci U S A. 100: 8538-8542Coghill RC Sang CN Maisog JMA Iadarola MJ Robert C Sang CN Maisog JM

Pain Intensity Processing Within the Human Brain : A Bilateral, Distributed Mechanism.

J Neurophysiol. 82: 1932-1943

EEGLAB : an open source toolbox for analysis of single-trial EEG dynamics including independent component analysis.

J Neurosci Methods. 134: 9-21De Martino E Petrini L Schabrun SM

Graven-Nielsen T: Cortical Somatosensory Excitability Is Modulated in Response To Several Days of Muscle Soreness.

J Pain. 19: 1296-1307

De Martino E, Zandalasini M, Schabrun S, Petrini L, Graven-Nielsen T: Experimental Muscle Hyperalgesia Modulates Sensorimotor Cortical Excitability, Which is Partially Altered by Unaccustomed Exercise. Pain, 159(12):2493-2502.

de Vries M Wilder-Smith OHG Jongsma MLA van den Broeke EN Arns M van Goor H van Rijn CM

Altered resting state EEG in chronic pancreatitis patients: Toward a marker for chronic pain.

J Pain Res. 6: 815-824Di Piero V Ferracuti S Sabatini U Pantano P Cruccu G Lenzi GL

A cerebral blood flow study on tonic pain activation in man.

Pain. 56: 167-173Emerson NM Zeidan F Lobanov OV. Hadsel MS Martucci KT Quevedo AS Starr CJ Nahman-Averbuch H Weissman-Fogel I Granovsky Y Yarnitsky D Coghill RC

Pain sensitivity is inversely related to regional grey matter density in the brain.

Pain;. 155: 566-573Ferracuti S Seri S Mattia D Cruccu G

Quantitative EEG modifications during the cold water pressor test: hemispheric and hand differences.

Int J Psychophysiol. 17: 261-268Flor H Braun C Elbert T Birbaumer N

Extensive reorganization of primary somatosensory cortex in chronic back pain patients.

Neurosci Lett. 224: 5-8Furman AJ Meeker TJ Rietschel JC Yoo S Muthulingam J Prokhorenko M Keaser ML Goodman RN Mazaheri A Seminowicz DA

Cerebral peak alpha frequency predicts individual differences in pain sensitivity.

Neuroimage;. 167: 203-210Furman AJ Prokhorenko M Keaser ML Zhang J Chen S Mazaheri A Seminowicz DA

Sensorimotor Peak Alpha Frequency Is a Reliable Biomarker of Prolonged Pain Sensitivity.

Cereb Cortex. : 1-14Furman AJ Thapa T Summers SJ Cavaleri R Fogarty JS Steiner GZ Schabrun SM Seminowicz DA

Cerebral peak alpha frequency reflects average pain severity in a human model of sustained, musculoskeletal pain.

J Neurophysiol. 122: 1784-1793Gelnar PA Krauss BR Sheehe PR Szeverenyi NM Apkarian AV

A comparative fMRI study of cortical representations for thermal painful, vibrotactile, and motor performance tasks.

Neuroimage. 10: 460-482Halgren M Ulbert I Bastuji H Fabó D Eross L Rey M Devinsky O Doyle WK Mak-McCully R Halgren E Wittner L Chauvel P Heit G Eskandar E Mandell A Cash SS

The generation and propagation of the human alpha rhythm.

Proc Natl Acad Sci. 116: 23772-23782Hayashi K Shiozawa S Ozaki N Mizumura K Graven-Nielsen T

Repeated intramuscular injections of nerve growth factor induced progressive muscle hyperalgesia, facilitated temporal summation, and expanded pain areas.

Pain. 154: 2344-2352

Neural indicators of perceptual variability of pain across species.

PNAS. 29: 1782-1791Huang G Xiao P Hung YS Zhang ZG Hu L

A novel approach to predict subjective pain perception from single-trial laser-evoked potentials.

Neuroimage. 81: 283-293Ikeuchi M Kolker SJ Burnes LA Walder RY Sluka KA

Role of ASIC3 in the primary and secondary hyperalgesia produced by joint inflammation in mice.

Pain. 137: 662-669Inoue A Iwasa M Nishikura Y Ogawa S Nakasuka A Nakata Y

The long-term exposure of rat cultured dorsal root ganglion cells to bradykinin induced the release of prostaglandin E2 by the activation of cyclooxygenase-2.

Neurosci Lett. 401: 242-247

Muscle function at the wrist after eccentric exercise.

Med Sci Sports Exerc. 33: 612-620Murase S Terazawa E Hirate K Yamanaka H Kanda H Noguchi K Ota H Queme F Taguchi T Mizumura K

Upregulated glial cell line-derived neurotrophic factor through cyclooxygenase-2 activation in the muscle is required for mechanical hyperalgesia after exercise in rats.

J Physiol. 591: 3035-3048Murase S Terazawa E Queme F Ota H Matsuda T Hirate K Kozaki Y Katanosaka K Taguchi T Urai H Mizumura K

Bradykinin and Nerve Growth Factor Play Pivotal Roles in Muscular Mechanical Hyperalgesia after Exercise (Delayed-Onset Muscle Soreness).

J Neurosci. 30: 3752-3761Nickel MM Ta Dinh S May ES Tiemann L Hohn VD Gross J Ploner M

Neural oscillations and connectivity characterizing the state of tonic experimental pain in humans.

Hum Brain Mapp. 41: 17-29Nie H Madeleine P Arendt-Nielsen L Graven-Nielsen T

Temporal summation of pressure pain during muscle hyperalgesia evoked by nerve growth factor and eccentric contractions.

Eur J Pain. 13: 704-710

The Normal EEG of the Waking Adult.

()Baltimore: Electroencephalography: Basic Principles, Clinical Applications and Related Fields. Lippincott Williams & Wilkins, Nielsen CS Staud R Price DD

Individual Differences in Pain Sensitivity: Measurement, Causation, and Consequences.

J Pain. 10: 231-237Nir RR Sinai A Moont R Harari E Yarnitsky D

Tonic pain and continuous EEG: Prediction of subjective pain perception by alpha-1 power during stimulation and at rest.

Clin Neurophysiol. 123: 605-612Nir RR Sinai A Raz E Sprecher E Yarnitsky D

Pain assessment by continuous EEG: Association between subjective perception of tonic pain and peak frequency of alpha oscillations during stimulation and at rest.

Brain Res. 1344: 77-86

The five percent electrode system for high-resolution EEG and ERP measurements.

Clin Neurophysiol. 112: 713-719

Changes of spontaneous oscillatory activity to tonic heat pain.

PLoS One. 9: 1-11

Sensory and signaling mechanisms of bradykinin, eicosanoids, platelet-activating factor, and nitric oxide in peripheral nociceptors.

Physiol Rev. 92: 1699-1775

Brain Rhythms of Pain.

Trends Cogn Sci. 21: 100-110Sarnthein J Stern J Aufenberg C Rousson V Jeanmonod D

Increased EEG power and slowed dominant frequency in patients with neurogenic pain.

Brain. 129: 55-64Schabrun SM Christensen SW Mrachacz-Kersting N Graven-Nielsen T

Motor Cortex Reorganization and Impaired Function in the Transition to Sustained Muscle Pain.

Cereb Cortex. 26: 1878-1890Schulz E May ES Postorino M Tiemann L Nickel MM Witkovsky V Schmidt P Gross J Ploner M

Prefrontal gamma oscillations encode tonic pain in humans.

Cereb Cortex. 25: 4407-4414Schulz E Tiemann L Schuster T Gross J Ploner M

Neurophysiological coding of traits and states in the perception of pain.

Cereb Cortex. 21: 2408-2414Seminowicz Wideman TH Naso L Hatami-Khoroushahi Z Fallatah S Ware MA Jarzem P Bushnell MC Shir Y Ouellet JA Stone LS

Effective Treatment of Chronic Low Back Pain in Humans Reverses Abnormal Brain Anatomy and Function.

J Neurosci. 31: 7540-7550Slater H Arendt-Nielsen L Wright A Graven-Nielsen T

Experimental deep tissue pain in wrist extensors - A model of lateral epicondylalgia.

Eur J Pain. 7: 277-288Teutsch S Herken W Bingel U Schoell E May A

Changes in brain gray matter due to repetitive painful stimulation.

Neuroimage. 42: 845-849Tsao H Danneels L Hodges P

ISSLS Prize Winner: Smudging the Motor Brain in Young Adults With Recurrent Low Back Pain.

Spine (Phila Pa 1976. 36: 1721-1727Valentini E Halder S McInnersey D Cooke J Romei V

Assessing the specificity of the relationship between brain alpha oscillations and tonic pain.

bioRxiv. Weger T Atlas L Lindquist M Roy M Woo C Kross E

An fMRI-Based Neurologic Signature of Physical Pain.

N Engl J Med. 368: 1388-1397Wemmie JA Taugher RJ Kreple CJ

Acid-sensing ion channels in pain and disease.

Nat Rev Neurosci. 14: 461-471