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The Journal of Neuroscience, April 5, 2006, 26(14):3662-3666; doi:10.1523/JNEUROSCI.0348-06.2006
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Brief Communications
Cortical Pain Responses in Human Infants
Rebeccah Slater,1 Anne Cantarella,2 Shiromi Gallella,2 Alan Worley,3 Stewart Boyd,3 Judith Meek,2 andMaria Fitzgerald1 1The London Pain Consortium, Department of Anatomy and Developmental Biology, University College London, London WC1E 6BT, United Kingdom, 2Neonatal Intensive Care Unit, Elizabeth Garrett Anderson and Obstetric Hospital, London WC1E 6DH, United Kingdom, and 3Department of Clinical Neurophysiology, Great Ormond Street Hospital, London WC1N 3JH, United Kingdom
Correspondence should be addressed to Rebeccah Slater, The London Pain Consortium, Department of Anatomy and Developmental Biology, University College London, Gower Street, London WC1E 6BT, UK. Email: r.slater{at}ucl.ac.uk
Despite the recent increase in our understanding of the development of pain processing, it is still not known whether premature infants are capable of processing pain at a cortical level. In this study, changes in cerebral oxygenation over the somatosensory cortex were measured in response to noxious stimulation using real-time near-infrared spectroscopy in 18 infants aged between 25 and 45 weeks postmenstrual age. The noxious stimuli were heel lances performed for routine blood sampling; no blood tests were performed solely for the purpose of the study. Noxious stimulation produced a clear cortical response, measured as an increase in total hemoglobin concentration [HbT] in the contralateral somatosensory cortex, from 25 weeks (mean
[HbT] = 7.74 µmol/L; SE, 1.10). Cortical responses were significantly greater in awake compared with sleeping infants, with a mean difference of 6.63 µmol/L [95% confidence interval (CI) limits: 2.35, 10.91 µmol/L; mean age, 35.2 weeks]. In awake infants, the response in the contralateral somatosensory cortex increased with age (regression coefficient, 0.698 µmol/L/week; 95% CI limits: 0.132, 1.265 µmol/L/week) and the latency decreased with age (regression coefficient, –0.9861 µmol/L/week; 95% CI limits: –1.5361, –0.4361 µmol/L/week; age range, 25–38 weeks). The response was modality specific because no response was detected after non-noxious stimulation of the heel, even when accompanied by reflex withdrawal of the foot. We conclude that noxious information is transmitted to the preterm infant cortex from 25 weeks, highlighting the potential for both higher-level pain processing and pain-induced plasticity in the human brain from a very early age.
Key words: nociception; analgesia; neonatal; pediatric; spectroscopy; cerebral oxygenation
Received Oct. 31, 2005; revised Feb. 21, 2006; accepted Feb. 21, 2006.
Correspondence should be addressed to Rebeccah Slater, The London Pain Consortium, Department of Anatomy and Developmental Biology, University College London, Gower Street, London WC1E 6BT, UK. Email: r.slater{at}ucl.ac.uk
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