Inferring pain experience in infants using quantitative whole-brain functional MRI signatures: a cross-sectional, observational study

Duff, Eugene P.; Moultrie, Fiona; Vaart, Marianne van der; Goksan, Sezgi; Abós, Alexandra; Fitzgibbon, Sean P.; Baxter, Luke; Wager, Tor D.; Slater, Rebeccah

doi:10.1016/s2589-7500(20)30168-0

Cited by 29 publications

(33 citation statements)

References 39 publications

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“…This measure does not represent all nociceptive activity across the brain and cannot be used to investigate the various aspects of pain perception ; a multi-modal approach to pain assessment is therefore important in follow-on studies (Vaart et al, 2019). However, in the absence of verbalisation, neuroimaging methods provide an objective proxy approach which has been used to infer pain perception following noxious events (Baxter et al, 2020;Duff et al, 2020;Gursul et al, 2019;Hartley et al, 2017).…”

Section: Discussionmentioning

confidence: 99%

Quantifying noxious-evoked baseline sensitivity in neonates to optimise analgesic trials

Cobo

Hartley

Gursul

et al. 2021

eLife

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Despite the high burden of pain experienced by hospitalised neonates there are few analgesics with proven efficacy. Testing analgesics in neonates is experimentally and ethically challenging and minimising the number of neonates required to demonstrate efficacy is essential. EEG-derived measures of noxious-evoked brain activity can be used to assess analgesic efficacy, however, as variability exists in neonate's responses to painful procedures, large sample sizes are often required. Here we present a novel experimental paradigm to account for individual differences in noxious-evoked baseline sensitivity which can be used to improve the design of analgesic trials in neonates. The paradigm is developed and tested across four observational studies using clinical, experimental and simulated data (92 neonates). We provide evidence of the efficacy of gentle brushing and paracetamol, substantiating the need for randomised controlled trials of these interventions. This work provides an important step towards safe, cost-effective clinical trials of analgesics in neonates.

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Section: Discussionmentioning

confidence: 99%

Quantifying noxious-evoked baseline sensitivity in neonates to optimise analgesic trials

Cobo

Hartley

Gursul

et al. 2021

eLife

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“…While this BOLD response neither directly re ects nociception, the neural process of encoding noxious stimuli 16 , nor pain perception, the unpleasant sensory and emotional subjective experience 16 , it is a pertinent and accessible feature of central importance to understanding neonates' neural responses to noxious input and the neurophysiology of the early developing pain system. This overall noxious-evoked BOLD response pattern resembles that of adults 10 and expresses the adult Neurologic Pain Signature (NPS) 17 , a multivariate fMRI signature predictive of adult verbal reports of physical pain. The overall response captures inter-individual variability in the multidimensional noxiousevoked activity, which is tightly linked to the pre-stimulation functional status of the descending pain modulatory system 18 and is likely to be driven by variability in sensory-discriminative, cognitive, and emotional aspects.…”

Section: Introductionmentioning

confidence: 82%

Functional and diffusion MRI reveal the functional and structural basis of infants’ noxious-evoked brain activity

Baxter

Moultrie

Fitzgibbon

et al. 2021

Preprint

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Understanding the neurophysiology underlying neonatal responses to noxious stimulation is central to improving early life pain management. In this neonatal multimodal MRI study, we use resting-state and diffusion MRI to investigate inter-individual variability in noxious-evoked brain activity. We demonstrate that cerebral haemodynamic responses to experimental noxious stimulation can be predicted from separately acquired resting-state brain activity (n=18). Applying this prediction model to independent Developing Human Connectome Project data (n=215), we identify negative associations between predicted noxious-evoked responses and white matter mean diffusivity. These associations are subsequently confirmed in the original noxious stimulation paradigm dataset, validating the prediction model. This study in healthy neonates demonstrates that noxious-evoked brain activity is tightly coupled to both resting-state activity and white matter microstructure, that neural features can be used to predict responses to noxious stimulation, and that the dHCP dataset could be utilised for future exploratory research of early life pain system neurophysiology.

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“…Increasing brain coverage to include pain-relevant regions such as the amygdala and orbitofrontal cortex and networks such as the salience network would likely improve the accuracy and generalisability of neonatal resting-state based-predictions. Furthermore, as part of a recent study in adults demonstrating the predictability of individual pain sensitivity from resting-state functional connectivity 31 , the researchers have developed a Resting-state Pain susceptibility Network (RPN) signature that may also have predictive value when applied to neonates, analogous to application of the adult Neurologic Pain Signature (NPS) 37 to the neonatal population in the current study and a recent publication 17 .…”

Section: Discussionmentioning

confidence: 99%

Functional and diffusion MRI reveal the neurophysiological basis of neonates’ noxious-stimulus evoked brain activity

Baxter

Moultrie

Fitzgibbon

et al. 2021

Preprint

Self Cite

View full text Add to dashboard Cite

Understanding the neurophysiology underlying neonatal responses to noxious stimulation is central to improving early life pain management. In this neonatal multimodal MRI study, we use resting-state and diffusion MRI to investigate inter-individual variability in noxious-stimulus evoked brain activity. We observe that cerebral haemodynamic responses to experimental noxious stimulation can be predicted from separately acquired resting-state brain activity (n=18). Applying this prediction model to independent Developing Human Connectome Project data (n=215), we identify negative associations between predicted noxious-stimulus evoked responses and white matter mean diffusivity. These associations are subsequently confirmed in the original noxious stimulation paradigm dataset, validating the prediction model. Here, we observe that noxious-stimulus evoked brain activity in healthy neonates is coupled to resting-state activity and white matter microstructure, that neural features can be used to predict responses to noxious stimulation, and that the dHCP dataset could be utilised for future exploratory research of early life pain system neurophysiology.

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Inferring pain experience in infants using quantitative whole-brain functional MRI signatures: a cross-sectional, observational study

Cited by 29 publications

References 39 publications

Quantifying noxious-evoked baseline sensitivity in neonates to optimise analgesic trials

Quantifying noxious-evoked baseline sensitivity in neonates to optimise analgesic trials

Functional and diffusion MRI reveal the functional and structural basis of infants’ noxious-evoked brain activity

Functional and diffusion MRI reveal the neurophysiological basis of neonates’ noxious-stimulus evoked brain activity

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