Central Sensitisation: Difference between revisions
Jo Etherton (talk | contribs) No edit summary |
Jo Etherton (talk | contribs) No edit summary |
||
| Line 10: | Line 10: | ||
*How it might impact upon a pain experience? | *How it might impact upon a pain experience? | ||
This page is coming together,but still needs a little work..can you help? For example..Could you add some videos any videos to support the text..perhaps around assessment findings? | This page is coming together,but still needs a little work..can you help? For example..Could you add some videos any videos to support the text..perhaps around assessment findings? Are there any blogs that could be used to support and develop the content of the page? Perhaps fromy bodyinmind.org? Could you add a section about management of patients with suspected central sensitisation? | ||
Could you add a section about management of patients with suspected central sensitisation? | |||
</div> <div class="editorbox"> | </div> <div class="editorbox"> | ||
'''Original Editor '''- Add a link to your Physiopedia profile here. | '''Original Editor '''- Add a link to your Physiopedia profile here. | ||
| Line 221: | Line 219: | ||
|} | |} | ||
<br> | <br> | ||
= Activity dependant Central sensitization = | = Activity dependant Central sensitization = | ||
| Line 233: | Line 231: | ||
A comprehensive description of the cellular processes can be found in Latremoliere and Woolf's 2009 review<ref name="Woolf 2009" />. | A comprehensive description of the cellular processes can be found in Latremoliere and Woolf's 2009 review<ref name="Woolf 2009" />. | ||
<br> | |||
How to explain central sensitisation to patients with ‘unexplained’ chronic musculoskeletal pain: Practice guidelines <ref>Nijs et al 2010</ref> | |||
<br>"Central sensitisation provides an evidence-based explanation for many cases of ‘unexplained’ chronic musculoskeletal pain. Prior to commencing rehabilitation in such cases, it is crucial to change maladaptive illness perceptions, to alter maladaptive pain cognitions and to reconceptualise pain. This can be accomplished by patient education about central sensitisation and its role in chronic pain, a strategy known as pain physiology education. Pain physiology education is indicated when: 1) the clinical picture is characterized and dominated by central sensitization; and 2) maladaptive illness perceptions are present. Both are prerequisites for commencing pain physiology education. Face-to-face sessions of pain physiology education, in conjunction with written educational material, are effective for changing pain cognitions and improving health status in patients with various chronic musculoskeletal pain disorders. These include patients with chronic low back pain, chronic whiplash, fibromyalgia and chronic fatigue syndrome. After biopsychosocial assessment pain physiology education comprises of a first face-to-face session explaining basic pain physiology and contrasting acute nociception versus chronic pain (Session 1). Written information about pain physiology should be provided as homework in between session 1 and 2. The second session can be used to correct misunderstandings, and to facilitate the transition from knowledge to adaptive pain coping during daily life. Pain physiology education is a continuous process initiated during the educational sessions and continued within both the active treatment and during the longer term rehabilitation program." | |||
<br>"Central sensitisation provides an evidence-based explanation for many cases of ‘unexplained’ chronic musculoskeletal pain. Prior to commencing rehabilitation in such cases, it is crucial to change maladaptive illness perceptions, to alter maladaptive pain cognitions and to reconceptualise pain. This can be accomplished by patient education about central sensitisation and its role in chronic pain, a strategy known as pain physiology education. Pain physiology education is indicated when: 1) the clinical picture is characterized and dominated by central sensitization; and 2) maladaptive illness perceptions are present. Both are prerequisites for commencing pain physiology education. Face-to-face sessions of pain physiology education, in conjunction with written educational material, are effective for changing pain cognitions and improving health status in patients with various chronic musculoskeletal pain disorders. These include patients with chronic low back pain, chronic whiplash, fibromyalgia and chronic fatigue syndrome. After biopsychosocial assessment pain physiology education comprises of a first face-to-face session explaining basic pain physiology and contrasting acute nociception versus chronic pain (Session 1). Written information about pain physiology should be provided as homework in between session 1 and 2. The second session can be used to correct misunderstandings, and to facilitate the transition from knowledge to adaptive pain coping during daily life. Pain physiology education is a continuous process initiated during the educational sessions and continued within both the active treatment and during the longer term rehabilitation program." | |||
= References = | = References = | ||
Revision as of 22:33, 22 February 2015
- Please do not edit unless you are involved in this project, but please come back in the near future to check out new information!!
- If you would like to get involved in this project and earn accreditation for your contributions, please get in touch!
Tips for writing this page:
- Define central sensitation
- Describe the processes underlying central sensitization
- Explain how this is similar and different from peripheral sensitization.
- How it might impact upon a pain experience?
This page is coming together,but still needs a little work..can you help? For example..Could you add some videos any videos to support the text..perhaps around assessment findings? Are there any blogs that could be used to support and develop the content of the page? Perhaps fromy bodyinmind.org? Could you add a section about management of patients with suspected central sensitisation?
Original Editor - Add a link to your Physiopedia profile here.
Top Contributors - Alberto Bertaggia, Nathan Benson, Laura Ritchie, Jo Etherton, Shaimaa Eldib, Jess Bell, Bruno Serra, Uchechukwu Chukwuemeka, Kim Jackson, Lucinda hampton, Admin, Michelle Lee, Claire Knott, Melissa Coetsee, Evan Thomas and WikiSysop
Central Sensitisation[edit | edit source]
Nociception is described by IASP as the neural process of encoding noxious stimuli. Central sensitisation describes the circumstances in which there is an enhancement of the function of neurons involved in nociception [1] resulting in
- hypersensitivity to stimuli[2],
- responsiveness to non-noxious stimuli[3]
- and an increased pain response evoked by stimuli outside the area of injury, an expanded receptive field[4].
The International Association for the Study of Pain (IASP) describes central sensitization as
“Increased responsiveness of nociceptive neurons in the central nervous system to their
normal or subthreshold afferent input.”[3]
Neural plasticity plays a role in cellular changes with a demonstrable increase in both membrane excitability and synaptic efficacy. The effect of this process is the recruitment of additional, sub-threshold synaptic inputs to nociception resulting in a greater field of receptivity and an increased output of nociception.The effects of this process may persist beyond the duration of the initial noxious input resulting in pain hypersensitivity to normally innocuous stimuli.
It is also thought to play a role in affecting pain facilitation and inhibition; inhibiting descending pathways[5] and over-activation of the ascending, pain facilitatory pathways[6]. Which, simplifed, means too many messages going in and not enough coming out.
The use of the term "central sensitisation" varies sometimes referring solely to the neural plastic changes only and sometimes to the the complex and multiple processes and systems which contribute to changes in the elicitation and perception of pain[7][8][9]. A discussion about the various descriptions and defintion s can be found on the Body in MInd website. The term was first used in a study of pain hypersensitivity in rats following repeated noxious stimuli to describe the use dependant neural plasticity demonstrated[10][7]. These central changes due to peripheral noxious stimuli have been referred to as "activity-dependant central sensitisation"[2].
Central vs Peripheral Sensitization[edit | edit source]
While descriptively central sensitization and Peripheral sensitisation may appear to be comparable processes, they represent quite distinct and processes and clinical features[2].
Peripheral sensitisation is described by the IASP as
"Increased responsiveness and reduced threshold of nociceptive neurons in the periphery to
the stimulation of their receptive fields."[11]
It is initiated when the peripheral terminus of nociceptors are exposed to noxious stimulus, for example inflammatory mediators in damaged tissue. On going stimulation results in a lowering of the activation threshold and thus and increase in responsiveness of nociceptors [12].
As a result of this it generally requires on going peripheral pathology for the sensitization to be maintained and is generally localised to the site of injury[12]. It has a role in altered heat sensation, but not in mechanical sensitivity[2].
In the process of central sensitisation novel inputs are recruited to the nociceptive pathways such as large, low-threshold mechanoreceptors classified as Aß fibres. This results in hypersensitivity in non-inflamed tissue and to touch.
Features of Central Sensitization[edit | edit source]
A survey of expert clinicians in a Delphi-derived survey found the following characteristics to describe central sensitisation in the clinical setting [1].
Subjective features[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/pathological recovery times.
- Pain disproportionate to the 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 (e.g. negative emotions, poor self-efficacy, maladaptive beliefs, and pain behaviours, altered family/work/social life, medical conflict).
- Unresponsive to NSAIDs and/or more responsive to anti-epileptic (e.g. Lyrica) /anti-depressants (e.g. Amitriptyline) medication.
- Reports of spontaneous (i.e. stimulus independent) pain and/or paroxysmal pain (i.e. sudden recurrences and intensification of pain).
- Pain in association with high levels of functional disability.
- More constant/unremitting pain.
- Night pain/disturbed sleep.
- Pain in association with other dysesthesias (e.g. burning, coldness, crawling).
- Hyperpathia or pain of high severity and irritability (i.e. easily provoked, taking a long time to settle).
Clinical features[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 the distribution of pain.
- Diffuse/non-anatomical areas of pain/tenderness on palpation.
- Positive identification of various psychosocial factors (e.g. catastrophisation, fear-avoidance behaviour, distress).
Identification in the Clinical Setting[edit | edit source]
Nijs et al[13] provided guidelines to aid the recognition of central sensitization on musculoskeletal patients.
In their paper they suggest that a patient's medical diagnosis can offer insight into the likelihood of the presence of central sensitization (fig 1) and this in conjunction with observable features (fig 2) can inform the therapist as to the presence of central sensitization.
| Medical Diagnosis | Central sensitization is a characteristic of this disorder | Central Sensitisation is present as a subgroup |
|---|---|---|
| Chronic lower back pain | X | |
| Chronic Whiplash associated disorders | X | |
| (Sub)acute whiplash associated disorders | X | |
| Tempromandibular disorders | X | |
| Myofascial pain syndrome | X | |
| Osteoarthritis | X | |
| Rheumatoid arthritis | X | |
| Fibromyalgia | X | |
| Chronic fatigue syndrome | X | |
| Chronic headache | X | |
| Irritable bowel syndrome | X |
| Symptom | Characteristic of central sensitization | Might be related to Central sensitization |
|---|---|---|
| Hypersensitivity to bright light | X | |
| Hypersensitivity to touch | X | |
| Hypersensitivity to noise | X | |
| Hypersensitivity to pesticides | X | |
| Hypersensitivity to mechanical pressure | X | |
| Hypersensitivity to medication | X | |
| Hypersensitivity to temperature (high or low) | X | |
| Fatigue | X | |
| Sleep disturbances | X | |
| Unrefreshing sleep | X | |
| Concentration difficulties | X | |
| Swollen feeling (e.g. in limbs) | X | |
| Tingling | X | |
| Numbness | X |
Activity dependant Central sensitization[edit | edit source]
Latremoliere and Woolf describe the changes demonstrated in their group's 1983 study as "activity dependent central sensitization". This describes the mechanism of functional synaptic plasticity evoked by in the dorsal horn neurons by input from nociceptors [2]. They found to invoke sensitization the noxious stimuli had to be sustained, intense and repeated. The changes can be divided into two, time dependent phases; An early, short duration phase which is phosphorylation-dependant/transcription-independent and a longer lasting transcription-dependant phase[14].
Activation of the NMDA receptor is an essential step in initiating and maintaining the sensitization (N-Methyl-D-Aspartate is a glutamate receptor. Glutamate is a widespread excitatory neurotransmitter in aht enwevious system.) Under normal circumstances this receptor channel is blocked by Mg2+ ions[15] Sustained release by nociceptors of glutamate, substance P and CGRP leads to membrane de-polarization, forcing the Mg2+ from the NMDA receptor[15]. This rapidly boosts synaptic efficacy and allows Ca2+ in to the neuron, activating intracellular pathways and maintaining central sensitization[2].
A comprehensive description of the cellular processes can be found in Latremoliere and Woolf's 2009 review[2].
How to explain central sensitisation to patients with ‘unexplained’ chronic musculoskeletal pain: Practice guidelines [16]
"Central sensitisation provides an evidence-based explanation for many cases of ‘unexplained’ chronic musculoskeletal pain. Prior to commencing rehabilitation in such cases, it is crucial to change maladaptive illness perceptions, to alter maladaptive pain cognitions and to reconceptualise pain. This can be accomplished by patient education about central sensitisation and its role in chronic pain, a strategy known as pain physiology education. Pain physiology education is indicated when: 1) the clinical picture is characterized and dominated by central sensitization; and 2) maladaptive illness perceptions are present. Both are prerequisites for commencing pain physiology education. Face-to-face sessions of pain physiology education, in conjunction with written educational material, are effective for changing pain cognitions and improving health status in patients with various chronic musculoskeletal pain disorders. These include patients with chronic low back pain, chronic whiplash, fibromyalgia and chronic fatigue syndrome. After biopsychosocial assessment pain physiology education comprises of a first face-to-face session explaining basic pain physiology and contrasting acute nociception versus chronic pain (Session 1). Written information about pain physiology should be provided as homework in between session 1 and 2. The second session can be used to correct misunderstandings, and to facilitate the transition from knowledge to adaptive pain coping during daily life. Pain physiology education is a continuous process initiated during the educational sessions and continued within both the active treatment and during the longer term rehabilitation program."
References[edit | edit source]
- ↑ 1.0 1.1 Smart KM, Blake C,Staines A, Doody C. Clinical Indicators of "Nociceptive", "peripheral neuropathic", and "central sensitisation" as mechanisms based classifications of musculoskeletal pain. A Delphi survey of expert clinicians. Manual Therapy 2010;15:80-7
- ↑ 2.0 2.1 2.2 2.3 2.4 2.5 2.6 Woolf CJ, Latremoliere A. Central Sensitization: A generator of pain hypersensitivity by central neural plasticity. The Journal of Pain 2009; 10(9):895-926
- ↑ 3.0 3.1 Loeser JD, Treede RD. The Kyoto protocol of IASP basic pain terminology. Pain 2008;137: 473–7.
- ↑ Dhal JB, Kehlet H. Postoperative pain and its management. In:McMahon SB, Koltzenburg M, editors. Wall and Melzack's Textbook of pain. Elsevier Churchill Livingstone;2006. p635-51.
- ↑ Meeus M, Nijs J, Van der Wauwer N, Toeback L, Truijen S. Diffuse noxious inhibitory control is delayed in chronic fatigue syndrome: an experimental study. Pain 2008;139:439-48
- ↑ Meeus M, Nijs J. Central Sensitization: a biopyschosocial explanation for chronic widespread pain in patients with fibromyalgia and chronic fatigue syndrome. Clinical Rheumatology 2007; 26:465-73
- ↑ 7.0 7.1 Woolf CJ. What to call the amplification of nociceptive signals in the central nervous system that contribute to widespread pain? Pain 2014. Article in Press.
- ↑ Hansson P. PAIN 2014. http://dx.doi.org/10.1016/j.pain.2014.07.016. pii: S0304-3959(14)00335-2
- ↑ Body in Mind. Everything you wanted to know about CENTRAL SENSITISATION http://www.bodyinmind.org/central-sensitisation/ (accessed 10 June 2014)
- ↑ Woolf CJ.Evidence of a central component of post-injury pain hypersensitivity. Nature 1983;306;686-688.
- ↑ International Association for the Study of Pain. Pain Terms: A Current List with Definitions and Notes on Usage. http://iasp.files.cms-plus.com/Content/ContentFolders/Publications2/ClassificationofChronicPain/Part_III-PainTerms.pdf(accessed 12 July 2014
- ↑ 12.0 12.1 Hucho T, Levine JD. Signalling pathways in sensitization: Towards a nociceptor cell biology. Neuron 2007;55:365-376
- ↑ 13.0 13.1 13.2 Nijs J, Van Houdenhove B, Oostendorp RAB. Recognition of central sensitization in patients with musculoskeletal pain: application of pain neurophysiology in manual therapy practice. Manual Therapy 2010;15:135-41
- ↑ Woolf CJ, Saltar MW. Neuronal plasticity:increasing the gain in pain. Science 2000;288:1765-69.
- ↑ 15.0 15.1 Mayer ML, Westbroke GL, Guthrie, PB. Voltage-dependant block by Mg2+ of NMDA responses in spinal cord neurones. Nature 1984;309:261-263.
- ↑ Nijs et al 2010
