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Journal ArticleDOI

Pain and temperature processing in dementia: a clinical and neuroanatomical analysis

Phillip D. Fletcher1, Laura E. Downey1, Hannah L. Golden1, Camilla N. Clark1, Catherine F. Slattery1, Ross W. Paterson1, Jonathan D. Rohrer1, Jonathan M. Schott1, Martin N. Rossor1, Jason D. Warren1 
UCL Institute of Neurology1
01 Nov 2015-Brain (Oxford University Press)-Vol. 138, Iss: 11, pp 3360-3372
TL;DR: Using a semi-structured caregiver questionnaire and MRI voxel-based morphometry in patients with frontotemporal degeneration or Alzheimer’s disease, Fletcher et al. show that symptoms are underpinned by atrophy in a distributed thalamo-temporo-insular network implicated in somatosensory processing.
Abstract: Symptoms suggesting altered processing of pain and temperature have been described in dementia diseases and may contribute importantly to clinical phenotypes, particularly in the frontotemporal lobar degeneration spectrum, but the basis for these symptoms has not been characterized in detail. Here we analysed pain and temperature symptoms using a semi-structured caregiver questionnaire recording altered behavioural responsiveness to pain or temperature for a cohort of patients with frontotemporal lobar degeneration (n = 58, 25 female, aged 52-84 years, representing the major clinical syndromes and representative pathogenic mutations in the C9orf72 and MAPT genes) and a comparison cohort of patients with amnestic Alzheimer's disease (n = 20, eight female, aged 53-74 years). Neuroanatomical associations were assessed using blinded visual rating and voxel-based morphometry of patients' brain magnetic resonance images. Certain syndromic signatures were identified: pain and temperature symptoms were particularly prevalent in behavioural variant frontotemporal dementia (71% of cases) and semantic dementia (65% of cases) and in association with C9orf72 mutations (6/6 cases), but also developed in Alzheimer's disease (45% of cases) and progressive non-fluent aphasia (25% of cases). While altered temperature responsiveness was more common than altered pain responsiveness across syndromes, blunted responsiveness to pain and temperature was particularly associated with behavioural variant frontotemporal dementia (40% of symptomatic cases) and heightened responsiveness with semantic dementia (73% of symptomatic cases) and Alzheimer's disease (78% of symptomatic cases). In the voxel-based morphometry analysis of the frontotemporal lobar degeneration cohort, pain and temperature symptoms were associated with grey matter loss in a right-lateralized network including insula (P < 0.05 corrected for multiple voxel-wise comparisons within the prespecified anatomical region of interest) and anterior temporal cortex (P < 0.001 uncorrected over whole brain) previously implicated in processing homeostatic signals. Pain and temperature symptoms accompanying C9orf72 mutations were specifically associated with posterior thalamic atrophy (P < 0.05 corrected for multiple voxel-wise comparisons within the prespecified anatomical region of interest). Together the findings suggest candidate cognitive and neuroanatomical bases for these salient but under-appreciated phenotypic features of the dementias, with wider implications for the homeostatic pathophysiology and clinical management of neurodegenerative diseases.

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Citations
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Journal ArticleDOI
Frontotemporal Dementia: A Clinical Review

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Harri Sivasathiaseelan1, Charles R. Marshall2, Charles R. Marshall1, Jennifer L. Agustus1, Elia Benhamou1, Rebecca L. Bond1, Janneke E P van Leeuwen1, Chris J.D. Hardy1, Jonathan D. Rohrer1, Jason D. Warren1 
UCL Institute of Neurology1, Queen Mary University of London2
29 Mar 2019-Seminars in Neurology
TL;DR: A clinical roadmap for diagnosis and assessment of the frontotemporal dementias is presented, motivated by the emerging understanding of the mechanisms by which pathogenic protein effects at the cellular level translate to abnormal neural network physiology and ultimately, complex clinical symptoms.
Abstract: Frontotemporal dementias are a clinically, neuroanatomically, and pathologically diverse group of diseases that collectively constitute an important cause of young-onset dementia. Clinically, frontotemporal dementias characteristically strike capacities that define us as individuals, presenting broadly as disorders of social behavior or language. Neurobiologically, these diseases can be regarded as “molecular nexopathies,” a paradigm for selective targeting and destruction of brain networks by pathogenic proteins. Mutations in three major genes collectively account for a substantial proportion of behavioral presentations, with far-reaching implications for the lives of families but also potential opportunities for presymptomatic diagnosis and intervention. Predicting molecular pathology from clinical and radiological phenotypes remains challenging; however, certain patterns have been identified, and genetically mediated forms of frontotemporal dementia have spearheaded this enterprise. Here we present a clinical roadmap for diagnosis and assessment of the frontotemporal dementias, motivated by our emerging understanding of the mechanisms by which pathogenic protein effects at the cellular level translate to abnormal neural network physiology and ultimately, complex clinical symptoms. We conclude by outlining principles of management and prospects for disease modification.

37 citations

Journal ArticleDOI
Reward deficits in behavioural variant frontotemporal dementia include insensitivity to negative stimuli.

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David C. Perry1, Samir Datta1, Virginia E. Sturm1, Kristie A. Wood1, Jessica Zakrzewski1, William W. Seeley1, Bruce L. Miller1, Joel H. Kramer1, Howard J. Rosen1 
University of California, San Francisco1
01 Dec 2017-Brain
TL;DR: Findings indicate that insensitivity to negative information may be a key component of the reward-seeking behaviours in behavioural variant frontotemporal dementia, and may relate to degeneration of structures that are involved in representing the emotional salience of sensory information.
Abstract: During reward processing individuals weigh positive and negative features of a stimulus to determine whether they will pursue or avoid it. Though patients with behavioural variant frontotemporal dementia display changes in their pursuit of rewards, such as food, alcohol, money, and sex, the basis for these shifts is not clearly established. In particular, it is unknown whether patients' behaviour results from excessive focus on rewards, insensitivity to punishment, or to dysfunction in a particular stage of reward processing, such as anticipation, consumption, or action selection. Our goal was to determine the nature of the reward deficit in behavioural variant frontotemporal dementia and its underlying anatomy. We devised a series of tasks involving pleasant, unpleasant, and neutral olfactory stimuli, designed to separate distinct phases of reward processing. In a group of 25 patients with behavioural variant frontotemporal dementia and 21 control subjects, diagnosis by valence interactions revealed that patients with behavioural variant frontotemporal dementia rated unpleasant odours as less aversive than did controls and displayed lower skin conductance responses when anticipating an upcoming aversive odour. Subjective pleasantness ratings and skin conductance responses did not differ between behavioural variant frontotemporal dementia and controls for pleasant or neutral smells. In a task designed to measure the effort subjects would expend to smell or avoid smelling a stimulus, patients with behavioural variant frontotemporal dementia were less motivated, and therefore less successful than control subjects, at avoiding what they preferred not to smell, but had equivalent success at obtaining stimuli they found rewarding. Voxel-based morphometry of patients with behavioural variant frontotemporal dementia revealed that the inability to subjectively differentiate the valence of pleasant and unpleasant odours correlated with atrophy in right ventral mid-insula and right amygdala. High pleasantness ratings of unpleasant stimuli correlated with left dorsal anterior insula and frontal pole atrophy. These findings indicate that insensitivity to negative information may be a key component of the reward-seeking behaviours in behavioural variant frontotemporal dementia, and may relate to degeneration of structures that are involved in representing the emotional salience of sensory information.

35 citations

Cites background or result from "Pain and temperature processing in ..."

  • ...The fact that subjective pleasantness ratings differed from controls when SCR did not is consistent with a previously observed loss of coupling between autonomic responses and valence ratings for emotional sounds (Fletcher et al., 2015b)....

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  • ...It is unlikely that the integrity of the participants’ sense of smell influenced the findings, but results may vary across sensory modalities, as suggested by intact valence ratings of emotional sounds in bvFTD (Fletcher et al., 2015b)....

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  • ...They often respond less to pain or extreme temperature (Fletcher et al., 2015a)....

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Journal ArticleDOI
The Role of Language in Alexithymia: Moving Towards a Multiroute Model of Alexithymia

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Hannah Hobson1, Rebecca Brewer2, Caroline Catmur3, Geoffrey Bird
University of Greenwich1, Royal Holloway, University of London2, King's College London3
23 May 2019-Emotion Review
TL;DR: Alexithymia is characterized by difficulty identifying and describing one's own emotion as discussed by the authors, which involves several cognitive processes, so it may result from the inability to identify and describe one's emotion.
Abstract: Alexithymia is characterized by difficulty identifying and describing one’s own emotion. Identifying and describing one’s emotion involves several cognitive processes, so alexithymia may result fro...

34 citations

Journal ArticleDOI
Impaired Interoceptive Accuracy in Semantic Variant Primary Progressive Aphasia.

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Charles R. Marshall1, Chris J.D. Hardy, Lucy L. Russell, Camilla N. Clark, Katrina M. Dick, Emilie V. Brotherhood, Rebecca L. Bond, Catherine J. Mummery, Jonathan M. Schott, Jonathan D. Rohrer, James M. Kilner1, Jason D. Warren 
University College London1
16 Nov 2017-Frontiers in Neurology
TL;DR: Impaired interoceptive accuracy correlated with reduced daily-life emotional sensitivity across the patient cohort, and with atrophy of right insula, cingulate, and amygdala on voxel-based morphometry in the impaired semantic variant group, delineating a network previously shown to support interoception processing in the healthy brain.
Abstract: Background: Interoception (the perception of internal bodily sensations) is strongly linked to emotional experience and sensitivity to the emotions of others in healthy subjects. Interoceptive impairment may contribute to the profound socio-emotional symptoms that characterize frontotemporal dementia syndromes, but remains poorly defined. Methods: Patients representing all major frontotemporal dementia syndromes and healthy age-matched controls performed a heartbeat counting task as a measure of interoceptive accuracy. Additionally, patients had volumetric MRI for voxel based morphometric analysis, and their caregivers completed a questionnaire assessing patients’ daily-life sensitivity to the emotions of others. Results: Interoceptive accuracy was impaired in patients with semantic variant primary progressive aphasia relative to healthy age-matched individuals, but not in behavioural variant frontotemporal dementia and nonfluent variant primary progressive aphasia. Impaired interoceptive accuracy correlated with reduced daily-life emotional sensitivity across the patient cohort, and with atrophy of right insula, cingulate and amygdala on voxel-based morphometry in the impaired semantic variant group, delineating a network previously shown to support interoceptive processing in the healthy brain. Conclusion: Interoception is a promising novel paradigm for defining mechanisms of reduced emotional reactivity, empathy and self-awareness in neurodegenerative syndromes, and may yield biomarkers for these complex symptoms.

34 citations

Journal ArticleDOI
Differential insular cortex sub-regional atrophy in neurodegenerative diseases: a systematic review and meta-analysis.

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Yasmine Y Fathy, Susanne E. Hoogers1, Henk W. Berendse, Ysbrand D. van der Werf2, Pieter Jelle Visser3, Frank Jan de Jong1, Wilma D.J. van de Berg 
Erasmus University Rotterdam1, VU University Amsterdam2, Maastricht University3
01 Dec 2020-Brain Imaging and Behavior
TL;DR: In conclusion, insular sub-regional atrophy, particularly the anterior dorsal region, may contribute to cognitive and neuropsychiatric deficits in neurodegeneration.
Abstract: The insular cortex is proposed to function as a central brain hub characterized by wide-spread connections and diverse functional roles. As a result, its centrality in the brain confers high metabolic demands predisposing it to dysfunction in disease. However, the functional profile and vulnerability to degeneration varies across the insular sub-regions. The aim of this systematic review and meta-analysis is to summarize and quantitatively analyze the relationship between insular cortex sub-regional atrophy, studied by voxel based morphometry, with cognitive and neuropsychiatric deficits in frontotemporal dementia (FTD), Alzheimer's disease (AD), Parkinson's disease (PD), and dementia with Lewy bodies (DLB). We systematically searched through Pubmed and Embase and identified 519 studies that fit our criteria. A total of 41 studies (n = 2261 subjects) fulfilled the inclusion criteria for the meta-analysis. The peak insular coordinates were pooled and analyzed using Anatomic Likelihood Estimation. Our results showed greater left anterior insular cortex atrophy in FTD whereas the right anterior dorsal insular cortex showed larger clusters of atrophy in AD and PD/DLB. Yet contrast analyses did not reveal significant differences between disease groups. Functional analysis showed that left anterior insular cortex atrophy is associated with speech, emotion, and affective-cognitive deficits, and right dorsal atrophy with perception and cognitive deficits. In conclusion, insular sub-regional atrophy, particularly the anterior dorsal region, may contribute to cognitive and neuropsychiatric deficits in neurodegeneration. Our results support anterior insular cortex vulnerability and convey the differential involvement of the insular sub-regions in functional deficits in neurodegenerative diseases.

30 citations

References
More filters
Journal ArticleDOI
An automated labeling system for subdividing the human cerebral cortex on MRI scans into gyral based regions of interest.

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Rahul S. Desikan1, Florent Ségonne2, Bruce Fischl3, Bruce Fischl2, Brian T. Quinn3, Bradford C. Dickerson3, Deborah Blacker3, Randy L. Buckner3, Randy L. Buckner4, Anders M. Dale5, R. Paul Maguire6, Bradley T. Hyman3, Marilyn S. Albert7, Ronald J. Killiany1 
Boston University1, Massachusetts Institute of Technology2, Harvard University3, Howard Hughes Medical Institute4, University of California, San Diego5, Pfizer6, Johns Hopkins University School of Medicine7
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TL;DR: An automated labeling system for subdividing the human cerebral cortex into standard gyral-based neuroanatomical regions is both anatomically valid and reliable and may be useful for both morphometric and functional studies of the cerebral cortex.

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"Pain and temperature processing in ..." refers background in this paper

  • ...1 (Desikan et al., 2006; Jenkinson et al., 2012) to fit the group mean template brain image....

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Journal ArticleDOI
A fast diffeomorphic image registration algorithm

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John Ashburner1
Wellcome Trust Centre for Neuroimaging1
15 Oct 2007-NeuroImage
TL;DR: DARTEL has been applied to intersubject registration of 471 whole brain images, and the resulting deformations were evaluated in terms of how well they encode the shape information necessary to separate male and female subjects and to predict the ages of the subjects.

6,999 citations

"Pain and temperature processing in ..." refers methods in this paper

  • ...Preprocessing of patients’ brain magnetic resonance images for VBM was performed using New Segment (Ashburner and Friston, 2005) and the DARTEL (Ashburner, 2007) toolbox of SPM8 (www....

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  • ...A study-specific group mean template brain image was created by warping all native space whole-brain images to the final DARTEL template and calculating the average of the warped brain images....

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  • ...Preprocessing of patients’ brain magnetic resonance images for VBM was performed using New Segment (Ashburner and Friston, 2005) and the DARTEL (Ashburner, 2007) toolbox of SPM8 (www.fil.ion.ucl.ac.uk/spm) running under Matlab7....

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Journal ArticleDOI
Dissociable Intrinsic Connectivity Networks for Salience Processing and Executive Control

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William W. Seeley1, Vinod Menon, Alan F. Schatzberg, Jennifer Keller, Gary H. Glover, Heather A. Kenna, Allan L. Reiss, Michael D. Greicius2 
University of California, San Francisco1, Stanford University2
28 Feb 2007-The Journal of Neuroscience
TL;DR: Two distinct networks typically coactivated during functional MRI tasks are identified, anchored by dorsal anterior cingulate and orbital frontoinsular cortices with robust connectivity to subcortical and limbic structures, and an “executive-control network” that links dorsolateral frontal and parietal neocortices.
Abstract: Variations in neural circuitry, inherited or acquired, may underlie important individual differences in thought, feeling, and action patterns. Here, we used task-free connectivity analyses to isolate and characterize two distinct networks typically coactivated during functional MRI tasks. We identified a "salience network," anchored by dorsal anterior cingulate (dACC) and orbital frontoinsular cortices with robust connectivity to subcortical and limbic structures, and an "executive-control network" that links dorsolateral frontal and parietal neocortices. These intrinsic connectivity networks showed dissociable correlations with functions measured outside the scanner. Prescan anxiety ratings correlated with intrinsic functional connectivity of the dACC node of the salience network, but with no region in the executive-control network, whereas executive task performance correlated with lateral parietal nodes of the executive-control network, but with no region in the salience network. Our findings suggest that task-free analysis of intrinsic connectivity networks may help elucidate the neural architectures that support fundamental aspects of human behavior.

6,049 citations

"Pain and temperature processing in ..." refers background in this paper

  • ...More anterior insular regions are also targeted in PNFA, providing a candidate locus for altered homeostatic awareness in this syndrome (Seeley et al., 2009)....

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Journal ArticleDOI
How do you feel--now? The anterior insula and human awareness.

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A.D. (Bud) Craig1
Barrow Neurological Institute1
01 Jan 2009-Nature Reviews Neuroscience
TL;DR: New findings suggest a fundamental role for the AIC (and the von Economo neurons it contains) in awareness, and thus it needs to be considered as a potential neural correlate of consciousness.
Abstract: The anterior insular cortex (AIC) is implicated in a wide range of conditions and behaviours, from bowel distension and orgasm, to cigarette craving and maternal love, to decision making and sudden insight. Its function in the re-representation of interoception offers one possible basis for its involvement in all subjective feelings. New findings suggest a fundamental role for the AIC (and the von Economo neurons it contains) in awareness, and thus it needs to be considered as a potential neural correlate of consciousness.

5,279 citations

"Pain and temperature processing in ..." refers background or methods or result in this paper

  • ...Such noisy processing might involve degraded temporal scheduling of salient sensory and emotional signals, a key function attributed to anterior insula that is vulnerable in FTLD (Wiener and Coslett, 2008; Craig, 2009; Henley et al., 2014)....

    [...]

  • ...Together these networks have a core role in regulation of bodily homeostasis: current neurobiological formulations emphasize convergent processing of somatic and visceral pain and thermoregulatory signals as functionally interdependent aspects of interoception (Craig, 2002, 2009)....

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  • ...…labelled lines have been incorporated by current models that emphasize the intimate association of pain and thermal information and their integration as joint aspects of interoception, salient sensory phenomena that are potentially critical for signalling body homeostasis (Craig, 2002, 2009)....

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  • ...…neural networks that are engaged jointly by these diverse phenomena and reaffirms the primacy of the thalamo-insular linkage in regulating the interface between homeostatic and environmental contingencies, reward and punishment (Craig, 2002, 2009; Perry et al., 2014; Zhou and Seeley, 2014)....

    [...]

  • ...This region may be involved in generating subjective psychological states via projections to anterior insula, anterior cingulate, orbitofrontal and prefrontal cortices and in programming coherent autonomic effector responses (Craig, 2002, 2009; Grecucci et al., 2013; Zhou and Seeley, 2014)....

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Journal ArticleDOI
How do you feel? Interoception: the sense of the physiological condition of the body.

[...]

A.D. (Bud) Craig1
Barrow Neurological Institute1
01 Aug 2002-Nature Reviews Neuroscience
TL;DR: Functional anatomical work has detailed an afferent neural system in primates and in humans that represents all aspects of the physiological condition of the physical body that might provide a foundation for subjective feelings, emotion and self-awareness.
Abstract: As humans, we perceive feelings from our bodies that relate our state of well-being, our energy and stress levels, our mood and disposition. How do we have these feelings? What neural processes do they represent? Recent functional anatomical work has detailed an afferent neural system in primates and in humans that represents all aspects of the physiological condition of the physical body. This system constitutes a representation of 'the material me', and might provide a foundation for subjective feelings, emotion and self-awareness.

4,673 citations

"Pain and temperature processing in ..." refers background or methods or result in this paper

  • ...The present evidence suggests a model for synthesizing neurodegenerative disease effects on these cortical operations that is consistent both with data from normal neurophysiological and functional neuroimaging work and the effects of focal brain lesions (Craig, 2002, 2009; Borsook, 2012)....

    [...]

  • ...…interpretation, as under most circumstances thermal comfort or distress reflects the degree of perceived mismatch between one’s own body temperature and the environment; temperature sensibility might therefore be regarded as a probe of interoceptive signal processing par excellence (Craig, 2002)....

    [...]

  • ...Peripheral somatic and visceral sensory afferents conveying pain and thermal information relay via postero-lateral thalamic nuclei to somatosensory cortex (Brodmann area 3a) and dorsal posterior insula (Craig, 2002)....

    [...]

  • ...Temperature sensibility is mediated by a closely overlapping network (Craig, 2002; Moulton et al., 2012)....

    [...]

  • ...Together these networks have a core role in regulation of bodily homeostasis: current neurobiological formulations emphasize convergent processing of somatic and visceral pain and thermoregulatory signals as functionally interdependent aspects of interoception (Craig, 2002, 2009)....

    [...]

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