Neurobiological aspects of pain in childhood Files/Event... · Neurobiological aspects of pain in...
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Neurobiological aspects of pain in
childhood
Maria Fitzgerald
Department of Neuroscience, Physiology & Pharmacology
University College London
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The purpose of pain
• Caused by actual or potential injury or tissue damage
• Defence mechanism
• Warning, protection
• Escape
• Rest, healing
• Learning
• Preserves life
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• Pain arises spontaneously
• Elicited by normally innocuous stimuli (touch)
• Exaggerated and prolonged response to noxious stimuli
• Spreads beyond the area of injury
• Clinical pain is unpredictable and
frequently poorly related to injury
• Is amplified or even generated by the central nervous system
In many cases pain is not protective
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Pain can also be maladaptive
• Too prolonged to act as a warning
• No possibility of escape
• Nothing is learned from it
• Causes great suffering
• Does not preserve life
• Lead to depression, anxiety, lack of mobility and social isolation
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Pain is triggered by nociceptors – but does
not result from a straight path to the brain
Signals from
two main nociceptor groups:
A deltas – short sharp pain
C fibres – dull, aching pain
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Central component to pain
A major contribution is made by the
central nervous system in generating pain
This central component is of fundamental
importance when considering clinical pain
It is therefore difficult to predict pain
on the basis of injury or damage
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Central sensitization
• A mechanism whereby pain is amplified or even
generated by the central nervous system
• An increase in excitability of central neurons such that
normal inputs evoke exaggerated responses.
• Results from synaptic and circuit plasticity in the CNS.
• A form of ‘learning’ whereby the CNS pain processing is
altered.
• Maintained ‘state’ of central sensitization beyond
the resolution of a peripheral injury
• ‘Latent’ central sensitization following previous injury
Woolf CJ. Pain. 2011 152:S2-15. Latremoliere A & Woolf CJ (2009) J. Pain 10 895-926.
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Hansen, N. et al. J Neurophysiol 97: 2559-2563 2007
Demonstrating a central component to pain in human volunteers: wind-up amplification
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In chronic pain patients, central sensitization
has become an established state
Experimental tests on chronic pain patients
O’Neill et al European Journal of Pain 11, 2007, 415-420
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Pain is processed at different levels of the
nervous system
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Pain experience is a result of active
processing in the central nervous system
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Dorsal horn – first nociceptor synapses in the
central nervous system; first site of change
Repeated C fibre stimulation
causes ‘wind-up’ of dorsal
horn cell activity
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Neuronal mechanism of central sensitization
LTP (long
term
potentiation):
strengthens
synaptic
transmission
C fibre nociceptor stimulation
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Disinhibition contributes to
central sensitization
GABA glycine
Inhibitory neurotransmitters become
less effective at controlling sensory
Input. Therefore activity in pain circuits
increases…..but this inhibition is already
weak in the young spinal cord
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Glial immune activation
contributes to central sensitization
Microglial activation (blue) among the
sensory terminals (green & red).
Release local cytokines and activate
pain circuits…but the glial responses
in young spinal cord appear
to retain a ‘memory’
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Previous injury in early life can ‘prime’ pain
circuits – enhancing central sensitization
Torsney C et al., 2002, Li J et al., 2009, Beggs S et al., 2012Changing neuroimmune profile
Synaptic changes in dorsal horn circuits
Prevented by local immune suppression
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Descending control of spinal pain processing
modelled in the rat
increase
decrease
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Late maturation of descending inhibition
in childhood
Hathway et al (2009) J Physiol. 587:2927-35
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Predictions of childhood pain from animal
data
• A ‘open’ system. Less natural inhibition within
pain circuits
• Central sensitization likely to be a very strong
component of pain
• Descending control weaker, less easy to control
pain centrally
• Pain may be primed by earlier tissue damage
through glial-immune changes
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To test this we need objective measures of
pain in children
– Pain in children is not the same as in adults
– Central nervous system is still developing
– Different CNS regions mature at different ages
– Developmental aspects will affect pain quality, intensity,
duration and importantly, endogenous pain control.
• Quantitative sensory testing
• Evoked potentials
• fMRI
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Children are more sensitive to noxious
stimuli than adolescents
blunt pressure
pain threshold
pinprick
pain threshold
wind up
ratio
Developmental differences between 7 & 14-year-olds using
quantitative sensory testing (QST)
Blankenburg et al., Pain. (2011)152:2625-31, Hirschfeld et al., Neuropediatrics (2012) 43:10-6
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Reduced pain thresholds in joint
inflammatory disease
• 17 patients 6-17 with ankle and knee joint inflammation
compared to 69 controls
• Pain thresholds lower in all tested sites, inflamed and non-
inflamed
0
1
2
3
4
5
6
1 2 3 4 5 6 7 8 9
Control
JIA
0
1
2
3
4
5
6
7
1 2 3 4 5 6 7 8 9
Control
JIA
Hogeweg et al., 1985 Pain 62:11
ankle knee
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Pain is not always related to active disease
state
Noxious thresholds for pressure, cold and heat pain at thenar eminence.
Joint inflammatory disease patients (n = 58), and controls (EU, n = 151; US, n
= 92). Patients were hypersensitive to all modalities.
Cornelissen L et al., Pediatr Rheumatol Online J. 2014 Sep 6;12:39.
Consolaro A Ravelli A Nature Reviews Rheumatology 9, 447-448 (2013)
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Recording pain activity from the cortex with
EEG electrodes
Worley et al., J Neurosci Methods 2012; 205: 252–257
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Pain is not always related to behaviour
Innoculation needle prick: EEG and behavioural score
Verriotis et al. Pain (2014) in press
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Studying connectivity in the child’s brain
Sava et al., Mol Pain. 2009 16;5:30.
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A child’s chronic pain
De Lalouvière LL et al., 2014 10(4):205-11
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Acknowledgements
• Pishan Chang
• Tom Carson
• Laura Cornelissen
• Amy Lee
• Madeleine Verriotis
• Gemma Williams
• Lorenzo Fabrizi, UCL Neuroscience
• Judith Meek, UCLH Neonatology
• Sophia Olhede, UCL Statistics
• Rebeccah Slater, Oxford Paediatrics