Pain-free resting-state functional brain connectivity predicts individual pain sensitivity

Spisák, Tamás; Kincses, Bálint; Schlitt, Frederik; Zunhammer, Matthias; Schmidt‐Wilcke, Tobias; Kincses, Zsigmond Tamás; Bingel, Ulrike

doi:10.1101/790709

Cited by 8 publications

(16 citation statements)

References 75 publications

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“…Analogous to the current findings, a recent study demonstrated that data-driven, multivariate analyses of rsFC in a pain-free state predicted individual differences in pain sensitivity during later testing [84].…”

Section: Discussionsupporting

confidence: 83%

“…pain anticipation [15,56] and following nociceptive stimulation [64]. Analogous to the current findings, a recent study demonstrated that data-driven, multivariate analyses of rsFC in a pain-free state predicted individual differences in pain sensitivity during later testing [73]. Their measure of pain sensitivity was a ‘composite’ based on a weighted average of heat, cold and mechanical pain thresholds delivered 1-3 days from the time of resting-state functional imaging.…”

Section: Discussionsupporting

confidence: 73%

“…Greater insight into these individual differences has been provided by structural and functional brain imaging studies [23,31,40,43,[59][60][61]. Notably, structural grey matter differences [30,31] and resting-state functional connectivity (rsFC) [21,84] are related to individual differences in pain sensitivity in laboratory-based studies. However, laboratory-based studies of experimental pain are limited in their ecological validity in evaluating a realistic painful experience.…”

Section: Introductionmentioning

confidence: 99%

“…However, laboratory-based studies of experimental pain are limited in their ecological validity in evaluating a realistic painful experience. Recent studies of brain-based predictors of pain have relied on multivariate machine learning approaches, which provide limited insight into neural mechanisms [73,75,79]. Here, we investigate whether baseline brain structure and function can predict pain induced by an ecologically valid and clinically relevant tonic orofacial pain stimulus—orthodontic elastomeric separator insertion.…”

Section: Introductionmentioning

confidence: 99%

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Baseline Resting-State Functional Connectivity Determines Subsequent Pain Ratings to a Tonic Ecologically Valid Experimental Model of Orofacial Pain

Ayoub

McAndrews

Barnett

et al. 2020

Preprint

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Pain is a subjective experience with significant individual differences. Laboratory studies investigating pain thresholds and acute pain have identified structural and functional neural correlates. However, these types of pain stimuli have limited ecological validity to real-life pain experience. Here, we use an orthodontic procedure which typically induces pain lasting several days. We aimed to determine whether the baseline structure and resting-state functional connectivity (rsFC) of key regions along the trigeminal nociceptive and pain modulatory pathways correlate with subsequent peak pain ratings. Twenty-six healthy individuals underwent structural (T1, diffusion-weighted MRI) and resting-state functional (rs-fMRI) scanning prior to the orthodontic procedure, the insertion of an elastomeric separator between teeth, for five days. Participants recorded pain ratings three times, daily. Peak pain was not correlated with structural measures for the trigeminal nerve or any brain region. However, peak pain correlated with rsFC between the contralateral thalamus and bilateral insula, and negatively correlated with connectivity between the periaqueductal gray and core nodes of the default mode network (medial prefrontal and posterior cingulate cortices). In this ecologically valid model, we demonstrate that both ascending nociceptive and descending pain modulatory pathways shape the individual pain experience.

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Section: Discussionsupporting

confidence: 83%

Section: Discussionsupporting

confidence: 73%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Baseline Resting-State Functional Connectivity Determines Subsequent Pain Ratings to a Tonic Ecologically Valid Experimental Model of Orofacial Pain

Ayoub

McAndrews

Barnett

et al. 2020

Preprint

View full text Add to dashboard Cite

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“…A high degree of correspondence between resting-state and task-related brain activities has been observed in adult fMRI studies 26,27 . In adults, fMRI-recorded resting-state activity is a distinguishing feature of an individual's brain functionality 28 , predicts individuals' task-related brain activity under both experimental 29 and clinical conditions 30 , as well as adults' individual pain sensitivities 31 . While analogous studies have not been conducted in neonatal populations, large-scale resting-state networks are detectable using fMRI from birth and correspond to adult canonical resting-state and task-response networks 32,33 , suggesting a similar functional coupling could exist at this early developmental stage.…”

Section: Introductionmentioning

confidence: 99%

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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Migraine Disability, Pain Catastrophizing, And Headache Severity Are Associated With Evoked Pain And Targeted By Mind-Body Therapy

Krimmel

et al. 2021

Preprint

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Meta-analysis suggests migraine patients are no more sensitive to experimentally evoked pain than healthy controls. At the same time, studies have linked some migraine symptoms to Quantitative Sensory Testing (QST) profiles. Unfortunately, previous studies associating migraine symptoms and QST have important methodological shortcomings, stemming from inappropriate statistics, small sample sizes, and frequent use of univariate statistics for multivariate research questions. In the current study we seek to address these limitations by using a large sample of episodic migraine patients (n=103) and a multivariate analysis that associates pain ratings from many thermal intensities simultaneously with 12 clinical measures ranging from headache frequency to sleep abnormalities. We identified a single dimension of association between QST and migraine symptoms that relates to pain ratings for all stimulus intensities and a subset of migraine symptoms relating to disability (Headache Impact Trauma 6 and Brief Pain Inventory interference), catastrophizing (Pain Catastrophizing Scale), and pain severity (average headache pain, Brief Pain Inventory severity, and Short Form McGill Pain Questionnaire 2). Headache frequency, allodynia, affect, and sleep disturbances were unrelated to this dimension. Consistent with previous research, we did not observe any difference in QST ratings between migraine patients and healthy controls. Additionally, we found that the linear combination of symptoms that related to QST were modified by mind-body therapy. These results suggest that QST has a selective relationship with pain symptoms even in the absence of between-subjects differences between chronic pain patients and healthy controls.

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Pain-free resting-state functional brain connectivity predicts individual pain sensitivity

Cited by 8 publications

References 75 publications

Baseline Resting-State Functional Connectivity Determines Subsequent Pain Ratings to a Tonic Ecologically Valid Experimental Model of Orofacial Pain

Baseline Resting-State Functional Connectivity Determines Subsequent Pain Ratings to a Tonic Ecologically Valid Experimental Model of Orofacial Pain

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

Migraine Disability, Pain Catastrophizing, And Headache Severity Are Associated With Evoked Pain And Targeted By Mind-Body Therapy

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