Subscribe to RSS
Please copy the URL and add it into your RSS Feed Reader.
https://www.thieme-connect.de/rss/thieme/en/10.1055-s-00049852.xml
MSK – Muskuloskelettale Physiotherapie 2024; 28(03): 167-175
DOI: 10.1055/a-2302-0353
DOI: 10.1055/a-2302-0353
Schmerzseiten
Schmerzverstärkung durch schmerzassoziierte Sprache
Schmerzassoziierte Wörter aktivieren die schmerzverarbeitenden Hirnstrukturen und erhöhen so das aktuelle Schmerzempfinden. Bei Patient*innen mit chronischen Schmerzen ist dieser Effekt sogar stärker ausgeprägt. Umgekehrt verändert Schmerz die Verarbeitung von Wörtern. Daraus ergeben sich Konsequenzen für eine „schmerzarme“ Kommunikation im Umgang mit Patient*innen.
Publication History
Article published online:
12 July 2024
© 2024. Thieme. All rights reserved.
Georg Thieme Verlag KG
Rüdigerstraße 14, 70469 Stuttgart, Germany
-
Literatur
- 1 Loeser JD, Treede R-D. The Kyoto protocol of IASP Basic Pain Terminology. Pain 2008; 137: 473-477
- 2 Singer T, Seymour B, O'Doherty J. et al. Empathy for pain involves the affective but not sensory components of pain. Science 2004; 303: 1157-1162
- 3 Vogt BA. Pain and emotion interactions in subregions of the cingulate gyrus. Nat Rev Neurosci 2005; 6: 533-544
- 4 Kenntner-Mabiala R, Pauli P. Affective modulation of brain potentials to painful and nonpainful stimuli. Psychophysiology 2005; 42: 559-567
- 5 Kenntner-Mabiala R, Weyers P, Pauli P. Independent effects of emotion and attention on sensory and affective pain perception. Cogn Emot 2007; 21: 1615-1629
- 6 Roa Romero Y, Straube T, Nitsch A. et al. Interaction between stimulus intensity and perceptual load in the attentional control of pain. Pain 2013; 154: 135-140
- 7 Richter M, Weiss T. Der Einfluss von Schmerzwörtern auf die Schmerzverarbeitung. Der Schmerzpatient 2018; 1: 168-175
- 8 Lautenbacher S. Commentary to “Do words hurt? Brain activation during the processing of pain words”. Pain 2010; 148: 179
- 9 Wager TD, Rilling JK, Smith EE. et al. Placebo-induced changes in fMRI in the anticipation and experience of pain. Science 2004; 303: 1162-1167
- 10 Luomajoki H, Morf R, Weiss T. Die Größe der Placebo-Effekte in klinischen Studien: Konsequenzen für die Praxis [The amount of placebo effects in clinical studies: consequences for the clinical practice]. MSK Muskuloskelettale Physiotherapie 2023; 27: 279-284
- 11 Hebb DO. The organization of behavior. New York: Wiley; 1949
- 12 Pulvermüller F. Active perception: sensorimotor circits as a cortical baiss for language. Nat Rev Neurosci 2010; 11: 351-360
- 13 Iannetti GD, Mouraux A. From the neuromatrix of the pain matrix (and back). Exp Brain Res 2010; 205: 1-12
- 14 Peyron R, Laurent B, Garcia-Larrea L. Functional imaging of brain responses to pain. A review and metaanalysis. Neurophysiol Clin 2000; 30: 263-288
- 15 Apkarian AV, Bushnell MC, Treede R-D. et al. Human brain mechanisms of pain perception and regulation in health and disease. Eur J Pain 2005; 9: 463-484
- 16 Richter M, Eck J, Straube T. et al. Do words hurt? Brain activation during explicit and implicit processing of pain words. Pain 2010; 148: 198-205
- 17 Richter M, Schroeter C, Puensch T. et al. Pain-related and negative semantic priming enhances perceived pain intensity. Pain Res Manag 2014; 19: 69-74
- 18 Eck J, Richter M, Straube T. et al. Affective brain regions are activated during the processing of painrelated words in migraine patients. Pain 2011; 125: 1104-1113
- 19 Ritter A, Franz M, Puta C. et al. Enhanced brain responses to pain-related words in chronic back pain patients and their modulation by current pain. Healthcare (Basel) 2016; 4
- 20 Miltner WHR, Weiss T. Brain electrical correlates of pain processing. Z Rheumatol 1998; 57: 14-18
- 21 Dillmann J, Miltner WHR, Weiss T. The influence of semantic priming on event-related potentials to painful laser-heat stimuli in humans. Neurosci Lett 2000; 284: 53-56
- 22 Ritter A, Franz M, Miltner WHR. et al. How words impact on pain. Brain Behav 2019; 9: e01377
- 23 Weiss T, Miltner WHR, Dillmann J. The influence of semantic priming on event-related potentials to painful laser-heat stimuli in migraine patients. Neurosci Lett 2003; 340: 135-138
- 24 Brodhun C, Borelli E, Weiss T. Neural correlates of word processing influenced by painful primes. PLoS ONE 2024; 19: e0295148
- 25 Puta C, Schulz B, Schoeler S. et al. Enhanced sensitivity to punctate painful stimuli in female patients with chronic low back pain. BMC Neurol 2012; 12: 98
- 26 Puta C, Schulz B, Schoeler S. et al. Sensory abnormalities for painful and innocuous stimuli at the back and at a site distinct from the region of pain in chronic low back pain patients. PLoS ONE 2013; 8: e58885
- 27 Ott J, Aust S, Nouri K. et al. An everyday phrase may harm your patients: The influence of negative words on pain during venous blood sampling. Clin J Pain 2012; 28: 324-328
- 28 Brodhun C, Borelli E, Weiss T. Influence of acute pain on valence rating of words. PLoS ONE 2021; 16: e0248744
- 29 Seeger D. Therapieplanung unter besonderer Berücksichtigung der Sprache. Der Schmerzpatient 2018; 1: 182-187
- 30 Benedetti F. How the doctorʼs words affect the patientʼs brain. Evaluation & the health professions 2002; 25: 369-386
- 31 Geisler M, Herbsleb M, Bär K-J. et al. Dissociation of Endogenous Pain Inhibition Due to Conditioned Pain Modulation and Placebo in Male Athletes Versus Nonathletes. Frontiers in psychology 2020; 11: 553530
- 32 Klinger R, Blasini M, Schmitz J. et al. Nocebo effects in clinical studies: hints for pain therapy. PAIN Reports 2017; 2: e586