Learning to predict and control harmful events : chronic pain and conditioning

J.W.S. Vlaeyen*

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

Abstract

Pain is a biologically relevant signal and response to bodily threat, associated with the urge to restore the integrity of the body. Immediate protective responses include increased arousal, selective attention, escape, and facial expressions, followed by recuperative avoidance and safety-seeking behaviors. To facilitate early and effective protection against future bodily threat or injury, learning takes place rapidly. Learning is the observable change in behavior due to events in the internal and external environmental and includes nonassociative (habituation and sensitization) and associative learning (Pavlovian and operant conditioning). Once acquired, these knowledge representations remain stored in memory and may generalize to perceptually or functionally similar events. Moreover, these processes are not just a consequence of pain; they may directly influence pain perception. In contrast to the rapid acquisition of learned responses, their extinction is slow, fragile, context dependent and only occurs through inhibitory processes. Here, we review features of associative forms of learning in humans that contribute to pain, pain-related distress, and disability and discuss promising future directions. Although conditioning has a long and honorable history, a conditioning perspective still might open new windows on novel treatment modalities that facilitate the well-being of individuals with chronic pain.
Original languageEnglish
Pages (from-to)S86-S93
Number of pages8
JournalPain
Volume156
Issue number4
DOIs
Publication statusPublished - Apr 2015

Keywords

  • ACQUISITION
  • ANXIETY
  • Avoidance
  • BEHAVIOR
  • Behavior
  • Chronic pain
  • Conditioning
  • Discrimination
  • EXPOSURE IN-VIVO
  • Exposure
  • Extinction
  • FEAR-AVOIDANCE MODEL
  • Generalization
  • LOW-BACK-PAIN
  • Learning
  • MOVEMENT-RELATED PAIN
  • MUSCULAR RESPONSES
  • NEURAL MECHANISMS
  • SPOUSE

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