Pain Mechanisms

Pain: General Overview [1][edit | edit source]

The most widely accepted and current definition of pain, established by the International Association for the Study of Pain (IASP), is "an unpleasant sensory and emotional experience associated with acutal or potential tissue damage, or described in terms of tissue damage, or both." Although several theoretical frameworks have been proposed to explain the physiological basis of pain, not one theory has been able to exclusively incorporate the entirety of all the aspects of pain perception. The four most influential theories of pain perception include Specificity, Intensity, Pattern and Gate Control theories of pain. However, in 1968, Melzack and Casey described pain as multi-dimensional, where the dimensions are not independent, but rather interactive. The dimensions include sensory-discriminative, affective-motivational and cognitive-evaluate components.

Pain Mechanisms [2][edit | edit source]

Determining the most plausible pain mechanism(s) is crucial during clinical assessments as this can serve as a guide to determine the most appropriate treatment(s) for a patient. Therefore, criteria upon which clinicians may base their decisions for appropriate classifications have been established through an expert consensus-derived list of clinical indicators. The tables below were adapted from Smart et al. (2010) that classified pain mechanisms as 'nociceptive', 'peripheral neuropathic' and 'central' and outlined both subjective and objective clinical indicators for each. Therefore, these tables serve as an adjunct to any current knowledge and provide as an outline that may guide clinical decision-making when determining the most appropriate mechanism(s) of pain.

Furthermore, being cognizant about the factors that may alter pain and pain perception may assist in determining the most appropriate pain mechanism for a patient. The following are risk factors that may alter pain and pain perception:

  • Biomedical
  • Psychosocial or Behavioural
  • Social and Economical
  • Professional/ Work-related

Nociceptive Pain Mechanism [2][edit | edit source]

Nociceptive pain is associated with the activation of peripheral receptive terminals of primary afferent neurons in response to noxious chemical (inflammatory), mechanical or ischemic stimuli.

Subjective[edit | edit source]

  • Clear, proportionate mechanical/anatomical nature to aggravating and easing factors
  • Pain associated with and in proportion to trauma, or pathological process (inflammatory nociceptive), or movement/postural dysfunction (ischemic nociceptive)
  • Pain localized to area of injury/dysfunction (with/without some somatic referral)
  • Usually rapid resolving or resolving in accordance with expected tissue healing/pathology recovery times
  • Responsive to simply NSAIDs/analgesics
  • Usually intermittent and sharp with movement/mechanical provocation; may be more constant dull ache or throb at rest
  • Pain in association with other symptoms of inflammation (i.e., swelling, redness, heat) (inflammatory nociceptive)
  • Absence of neurological symptoms
  • Pain of recent onset
  • Clear diurnal or 24h pattern to symptoms (i.e., morning stiffness)
  • Absence of or non-significantly associated with mal-adaptive psychosocial factors (i.e., negative emotions, poor self-efficacy)

Objective[edit | edit source]

  • Clear, consistent and proportionate mechanical/anatomical pattern of pain reproduction on movement/mechanical testing of target tissues
  • Localized pain on palpation
  • Absence of or expected/proportionate findings of (primary and/or secondary) hyperalgesia and/or allodynia
  • Antalgic (i.e., pain relieving) postures/movement patterns
  • Presence of other cardinal signs of inflammation (swelling, redness, heat)
  • Absence of neurological signs; negative neurodynamic tests (i.e., SLR, Brachial plexus tension test, Tinel’s)
  • Absence of maladaptive pain behaviour

Peripheral Neuropathic Pain Mechanism [2][edit | edit source]

Peripheral neuropathic pain is initiated or caused by a primary lesion or dysfunction in the peripheral nervous system (PNS) and involves numerous pathophysiological mechanisms associated with altered nerve functioning and responsiveness. Mechanisms include hyperexcitability and abnormal impulse generation and mechanical, thermal and chemical sensitivity.

Subjective[edit | edit source]

  • Pain described as burning, shooting, sharp, aching or electric-shock-like
  • History of nerve injury, pathology or mechanical compromise
  • Pain in association with other neurological symptoms (i.e., pins and needles, numbness, weakness)
  • Pain referred in dermatomal or cutaneous distribution
  • Less responsive to simple NSAIDs/analgesics and/or more responsive to anti-epileptic (i.e., Neurontin, Lyrica) or anti-depressant (i.e., Amitriptyline) medication
  • Pain of high severity and irritability (i.e., easily provoked, taking longer to settle)
  • Mechanical pattern to aggravating and easing factors involving activities/postures associated with movement, loading or compression of neural tissue
  • Pain in association with other dysesthesias (i.e., crawling, electrical, heaviness)
  • Reports of spontaneous (i.e., stimulus-independent) pain and/or paroxysmal pain (i.e., sudden recurrences and intensification of pain
  • Latent pain in response to movement/mechanical stresses
  • Pain worse at night and associated with sleep disturbance
  • Pain associated with psychological affect (i.e., distress, mood disturbances)

Objective[edit | edit source]

  • Pain/symptom provocation with mechanical/movement tests (i.e., active/passive, neurodynamic) that move/load/compress neural tissue
  • Pain/symptom provocation on palpation of relevant neural tissues
  • Positive neurological findings (including altered reflexes, sensation and muscle power in a dermatomal/myotomal or cutaneous nerve distribution)
  • Antalgic posturing of the affected limb/body part
  • Positive findings of hyperalgesia (primary or secondary) and/or allodynia and/or hyperpathia within the distribution of pain
  • Latent pain in response to movement/mechanical testing
  • Clinical investigations supportive of a peripheral neuropathic source (i.e., MRI, CT, nerve conduction tests)
  • Signs of autonomic dysfunction (i.e., trophic changes)

Note: Supportive clinical investigations (i.e., MRI) may not be necessary in order for clinicians to classify pain as predominantly “peripheral neuropathic”

Central Pain Mechanism [2][edit | edit source]

Central pain is pain initiated or caused by a primary lesion or dysfunction in the central nervous system (CNS).

Subjective[edit | edit source]

  • Disproportionate, non-mechanical, unpredictable pattern of pain provocation in response to multiple/non-specific aggravating/easing factors
  • Pain persisting beyond expected tissue healing/pathology recovery times
  • Pain disproportionate to nature and extent of injury or pathology
  • Widespread, non-anatomical distribution of pain
  • History of failed interventions (medical/surgical/therapeutic)
  • Strong association with maladaptive psychosocial factors (i.e., negative emotions, poor self-efficacy, maladaptive beliefs and pain behaviours altered by family/work/social life, medical conflict)
  • Unresponsive to NSAIDs and/or more responsive to anti-epileptic or anti-depressant medication 8. Reports of spontaneous (i.e., stimulus-independent) pain and/or paroxysmal pain (i.e., sudden recurrences and intensification of pain) 9. Pain in association with high levels of functional disability
  • More constant/unremitting pain
  • Night pain/disturbed sleep
  • Pain in association with other dysesthesias (i.e., burning, coldness, crawling)
  • Pain of high severity and irritability (i.e., easily provoked, taking long time to settle)
  • Latent pain in response to movement/mechanical stresses, ADLs 15. Pain in association with symptoms of autonomic nervous system dysfunction (skin discolouration, excessive sweating, trophic changes) 16. History of CNS disorder/lesion (i.e., SCI)

Objective[edit | edit source]

  • Disproportionate, inconsistent, non-mechanical/non-anatomical pattern of pain provocation in response to movement/mechanical testing
  • Positive findings of hyperalgesia (primary, secondary) and/or allodynia and/or hyperpathia within distribution of pain
  • Diffuse/non-anatomic areas of pain/tenderness on palpation
  • Positive identification of various psychosocial factors (i.e., catastrophisation, fear-avoidance behaviour, distress)
  • Absence of signs of tissue injury/pathology
  • Latent pain in response to movement/mechanical testing
  • Disuse atrophy of muscles
  • Signs of autonomic nervous system dysfunction (i.e., skin discolouration, sweating)
  • Antalgic (i.e., pain relieving) postures/movement patterns

Clinical Vignettes[edit | edit source]

The following clinical vignettes are here to supplement the above information and get those thinking about plausible pain mechanisms.

Case #1: Patient A is a 58-year-old female, retired high school teacher. History of current complaint, approximately 1 month ago, sudden onset of low back pain after starting a season of curling and has been getting worse with walking. Patient A presents with right-sided low back pain (P1) that is a constant dull ache, 7-8/10, and anterior leg pain stopping above the R knee (P2) that is an intermittent ache for ~10-30 minutes rated at 2/10, with an occasional burning pain above the knee. P1 is aggravated by curling with R knee as lead leg, walking >15 minutes, driving >30 minutes and stairs. P2 is aggravated by sitting on hard surfaces >30 minutes and sustained flexion. Coughing and sneezing does not make it worse and P1 is worse at the end of the day. General health is unremarkable. Patient A has had a previous low back injury approximately 10 years ago, underwent treatment and resolved with a good outcome. What is the dominant pain mechanism?

Case #2: Patient B is a 30-year-old male, accountant. History of current complaint is a sudden onset of an inability to turn neck to right and side bend neck to right 2 days ago. On observation, Patient B has head resting in a position of slight L rotation and L side bend. Patient B reports a low level of pain, 2-3/10, only when trying to move head to the R, otherwise movement “is stuck”. Patient B denies any numbness, tingling or burning pain and NSAIDs ineffective. Patient B reported heat and gentle massage to ease any symptoms. Objective findings indicate only right PPIVMs and PPAVMs to have decreased range and blocked. All other cervical spine mobilizations are WNL. What is the dominant pain mechanism?

Case #3: Patient C is a 25-year-old female student. History of current complaint is a MVA 40 days ago while going to school. Patient C was hit from behind, braced and braked with R foot, airbag inflated, checked out of the ER then home on bed rest. Since then, Patient C has had 6 visits of physiotherapy with no improvement and neck pain persisting. P1 is left C2-7 and upper trapezius, rated 3-9/10, and pain varies from a dull ache to sharp pain with occasional pins and needles, depending on neck position. P1 is aggravated by sitting and walking > 30 minutes and turning to the left. P1 occasionally disturbs sleep, particularly when rolling over in bed and coughing/sneezing does not increase pain. P1 is sometimes eased by heat and stretching. NSAIDs have no effect. X-ray day of MVA is negative, negative cauda equina, vertebral artery and cord signs. General health is generally good. Minor sprains and strains in sports, but never required treatment and no previous MVA. Patient C voices concern about fear of driving and has not been driving since the accident. Patient C has also reported an increase in sensitization in her lower extremities. What is the dominant pain mechanism?

References[edit | edit source]

  1. Moayedi M, Davis KD. Theories of pain: From specificity to gate control. J Neurophysiol 2013;109:5-12. (accessed 1 April 2014).
  2. 2.0 2.1 2.2 2.3 Smart KM, Blake C, Staines A, Doody C. Clinical indicators of 'nociceptive', 'peripheral neuropathic' and 'central' mechanisms of musculoskeletal pain. A Delphi survey of expert clinicians. Man Ther 2010;15:80-7. (accessed 1 April 2014).