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Brain Topography
Erschienen in:

01.03.2025 | Comment

How Interoception and the Insula Shape Mental Imagery and Aphantasia

verfasst von: Juha Silvanto, Yoko Nagai

Erschienen in: Brain Topography | Ausgabe 2/2025

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Abstract

A major question in cognitive neuroscience is understanding the neural basis of mental imagery, particularly in cases of its absence, known as aphantasia. While research in this field has focused on the role of sensory domains, we propose that the key to understanding imagery lies in the intertwining of sensory processing and autonomic responses. Interoception plays a crucial role in mental imagery by anchoring experiences in first-person physiological signals, providing a self-referential perspective, and grounding the imagery in the body while also enabling its emotional aspects. Moreover, interoception contributes to the sense of agency and volitional control, as well as body schema—hallmarks of voluntary mental imagery. Therefore, imagery should be approached as an integrated phenomenon that combines sensory-specific information with interoceptive signals. At the neural level, this process engages the insula and anterior cingulate cortex (ACC), regions vital for synthesizing information across cognitive, emotional, and physical domains, as well as for supporting self-awareness. From this perspective, aphantasia may reflect a suboptimal functioning of the insula/ACC, which can account for its associations with deficits in autobiographical memory, emotion perception, and conditions such as autism and dyspraxia.
Literatur
Barkay G, Freedman N, Lester H, Louzoun Y, Sapoznikov D, Luckenbaugh D et al (2012) Brain activation and heart rate during script-driven traumatic imagery in PTSD: preliminary findings. Psychiatry Research: Neuroimaging 204(2–3):155–160CrossRef
Baron-Cohen S, Wheelwright S, Skinner R, Clubley E (2001) The autism-spectrum quotient (AQ): evidence from Asperger syndrome/high-functioning autism, males and females, scientists and mathematicians. J Autism Dev Disord 31(1):5–17CrossRefPubMed
Bornemann B, Singer T (2017) Taking time to feel our body: steady increases in heartbeat perception accuracy and decreases in alexithymia over 9 months of contemplative mental training. Psychophysiology 54(3):469–482. https://​doi.​org/​10.​1111/​psyp.​12790. Epub 2016 Dec 7. PMID: 27925645
Butti C, Hof PR (2010) The insular cortex: a comparative perspective. Brain Struct Function 214(5–6):477–493CrossRef
Calvert GA (2001) Crossmodal processing in the human brain: insights from functional neuroimaging studies. Cereb Cortex 11(12):1110–1123CrossRefPubMed
Carroll D, Baker J, Preston M (1979) Individual differences in visual imaging and the voluntary control of heart rate. Br J Psychol 70:39–49CrossRefPubMed
Craig AD (2009) How do you feel–now? The anterior insula and human awareness. Nat Rev Neurosci 10(1):59–70CrossRefPubMed
Critchley HD, Harrison NA (2013) Visceral influences on brain and behavior. Neuron 77(4):624–638CrossRefPubMed
Critchley HD, Wiens S, Rotshtein P, Ohman A, Dolan RJ (2004) Neural systems supporting interoceptive awareness. Nat Neurosci 7(2):189–195CrossRefPubMed
Critchley HD, Rotshtein P, Nagai Y, O’Doherty J, Mathias CJ, Dolan RJ (2005a) Activity in the human brain predicting differential heart rate responses to emotional facial expressions. NeuroImage 24(3):751–762CrossRefPubMed
Critchley HD, Tang J, Glaser D, Butterworth B, Dolan RJ (2005b) Anterior cingulate activity during error and autonomic response. NeuroImage 27(4):885–895CrossRefPubMed
Dance CJ, Jaquiery M, Eagleman DM, Porteous D, Zeman A, Simner J (2021) What is the relationship between aphantasia, synaesthesia, and autism? Conscious Cogn 89:103087CrossRefPubMed
Di Martino A, Ross K, Uddin LQ, Sklar AB, Castellanos FX, Milham MP (2009) Functional brain correlates of social and nonsocial processes in autism spectrum disorders: an activation likelihood estimation meta-analysis. Biol Psychiatry 65(1):63–74CrossRefPubMed
Ernst J, Böker H, Hättenschwiler J, Schüpbach D, Northoff G, Seifritz E, Grimm S (2014) The association of interoceptive awareness and alexithymia with neurotransmitter concentrations in the insula and anterior cingulate. Soc Cognit Affect Neurosci 9(6):857–863CrossRef
Frewen PA, Dozois DJA, Neufeld RWJ, Lane RD, Densmore M, Stevens TK, Lanius RA (2010) Individual differences in trait mindfulness predict dorsomedial prefrontal and amygdala response during emotional imagery: an fMRI study. Pers Indiv Differ 49(5):479–484CrossRef
Garfinkel SN, Critchley HD (2016) Threat and the body: how the hart supports fear processing. Trends Cogn Sci 20:34–46CrossRefPubMed
Garfinkel SN, Barrett AB, Minati L, Dolan RJ, Seth AK, Critchley HD (2013) What the heart forgets: cardiac timing influences memory for words and is modulated by metacognition and interoceptive sensitivity. Psychophysiology 50(6):505–512CrossRefPubMedPubMedCentral
Georgescu AL, Kuzmanovic B, Schilbach L, Tepest R, Kulbida R, Bente G, Vogeley K (2013) Neural correlates of social gaze processing in high-functioning autism under systematic variation of gaze duration. NeuroImage: Clin 3:340–351CrossRefPubMed
Hirschman R, Favaro L (1980) Individual differences in imagery vividness and voluntary heart rate control. Pers Individ Dif 1(2):129–133.
Holmes EA, Mathews A (2010) Mental imagery in emotion and emotional disorders. Clin Psychol Rev 30(3):349–362CrossRefPubMed
Jacobs C, Schwarzkopf DS, Silvanto J (2018) Visual working memory performance in aphantasia. Cortex 105:61–73CrossRefPubMed
Kokkonen P, Karvonen JT, Veijola J, Läksy K, Jokelainen J (2001) Perceived and sociodemographic correlates of alexithymia in a population sample of young adults. Compr Psychiatr 42(6):471–476CrossRef
Kvamme TL, Sandberg K, Silvanto J (2024b) Mental imagery as part of an ‘inwardly focused’ cognitive style. Neuropsychologia 204:108988CrossRefPubMed
Lane RD, Weihs KL, Herring A, Hishaw A, Smith R (2015) Affective agnosia: expansion of the alexithymia construct and a new opportunity to integrate and extend Freud’s legacy. Neurosci Biobehavioral Reviews 55:594–611CrossRef
Luminet O, Bagby RM, Taylor GJ (eds) (2018) Alexithymia: advances in research, theory, and clinical practice. Cambridge University Press
Medford N, Critchley HD (2010) Conjoint activity of anterior insular and anterior cingulate cortex: awareness and response. Brain Struct Function 214(5–6):535–549CrossRef
Monzel M, Karneboge J, Reuter M (2024) Affective processing in aphantasia and potential overlaps with alexithymia: Mental imagery facilitates the recognition of emotions in oneself and others. Biomarkers Neuropsychiatry 11:100106CrossRef
Necaise A, McConnell DS, Amon MJ (2022) The relationship between individual differences in mental imagery vividness and emotion distress. Proceedings of the Annual Meeting of the Cognitive Science Society’ 44(44)
Nemiah JC, Freyberger H, Sifneos PE (1976) Alexithymia: a view of the psychosomatic process. Mod Trends Psychosom Med 3:430–439
Nomi JS, Molnar-Szakacs I, Uddin LQ (2019) Insular function in autism: update and future directions in neuroimaging and interventions. Progress Neuropsychopharmacol Biol Psychiatry 89:412–426CrossRef
Okita K, Ghahremani DG, Payer DE, Robertson CL, Mandelkern MA, London ED (2016) Relationship of alexithymia ratings to dopamine D2-type receptors in the anterior cingulate and insula of healthy control subjects but not methamphetamine-dependent individuals. Int J Neuropsychopharmacol 19(5):pyv129CrossRefPubMed
Paus T (2001) Primate anterior cingulate cortex: where motor control, drive and cognition interface. Nat Rev Neurosci 2(6):417–424
Pearson J (2019) The human imagination: the cognitive neuroscience of visual mental imagery. Nat Rev Neurosci 20(10):624–634CrossRefPubMed
Pitskel NB, Bolling DZ, Hudac CM, Lantz SD, Minshew NJ, Wyk V, B. C., Pelphrey KA (2011) Brain mechanisms for processing direct and averted gaze in individuals with autism. J Autism Dev Disord 41(12):1686–1693CrossRefPubMedPubMedCentral
Pollatos O, Gramann K, Schandry R (2007) Neural systems connecting interoceptive awareness and feelings. Hum Brain Mapp 28(1):9–18CrossRefPubMed
Rushworth MF, Behrens TE (2008) Choice, uncertainty and value in prefrontal and cingulate cortex. Nat Neurosci 11(4):389–397CrossRefPubMed
Sherrill S, Watson J, Khan R, Nagai Y, Azevedo R, Tsakiris M, Garfinkel S, Critchley H (2023) Evidence that pupil dilation and cardiac afferent signaling differentially impact the processing of emotional intensity and racial bias. Biol Psychol 183:108699CrossRefPubMed
Sokolov EN (1963) Higher nervous functions; the orienting reflex. Annu Rev Physiol 25:545–580
Terasawa Y, Motomura K, Natsume A, Iijima K, Chalise L, Sugiura J, Yamamoto H, Koyama K, Wakabayashi T, Umeda S (2021) Effects of insular resection on interactions between cardiac interoception and emotion recognition. Cortex 137:271–281CrossRefPubMed
Tsakiris M, De Preester H (eds) (2019) The interoceptive mind: from homeostasis to awareness. Oxford University Press
Uddin LQ (2015) Salience processing and insular cortical function and dysfunction. Nat Rev Neurosci 16(1):55–61CrossRefPubMed
Van der Kolk BA (1994) The body keeps the score: memory and the evolving psychobiology of posttraumatic stress. Harv Rev Psychiatry 1(5):253–265CrossRefPubMed
Wiech K, Lin CS, Brodersen KH, Bingel U, Ploner M, Tracey I (2010) Anterior insula integrates information about salience into perceptual decisions about pain. J Neurosci 30(48):16324–16331CrossRefPubMedPubMedCentral
Zeman A (2024) Aphantasia and hyperphantasia: exploring imagery vividness extremes. Trends Cogn Sci 28(5):467–480CrossRefPubMed
Metadaten
Titel
How Interoception and the Insula Shape Mental Imagery and Aphantasia
verfasst von
Juha Silvanto
Yoko Nagai
Publikationsdatum
01.03.2025
Verlag
Springer US
Erschienen in
Brain Topography / Ausgabe 2/2025
Print ISSN: 0896-0267
Elektronische ISSN: 1573-6792
DOI
https://doi.org/10.1007/s10548-025-01101-6

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