At the Heart of Neurological Dimensionality: Cross-Nosological and Multimodal Cardiac Interoceptive Deficits

Sofia Abrevaya; Sol Fittipaldi; Adolfo M. Garcia; Martin Dottori; Hernando Santamaria-Garcia; Agustina Birba; Adrian Yoris; Malin Katharina Hildebrandt; Paula Salamone; Alethia De La Fuente; Sofia Alarco-Marti; Indira Garcia-Cordero; Miguel Matorrel-Caro; Ricardo Marcos Pautassi; Cecilia Serrano; Lucas Sedeño; Agustin Ibañez

doi:10.1097/PSY.0000000000000868

At the Heart of Neurological Dimensionality: Cross-Nosological and Multimodal Cardiac Interoceptive Deficits

Sofia Abrevaya
, Sol Fittipaldi
, Adolfo M. Garcia
, Martin Dottori
, Hernando Santamaria-Garcia
, Agustina Birba
, Adrian Yoris
, Malin Katharina Hildebrandt
, Paula Salamone
, Alethia De La Fuente
, Sofia Alarco-Marti
, Indira Garcia-Cordero
, Miguel Matorrel-Caro
, Ricardo Marcos Pautassi
, Cecilia Serrano
, Lucas Sedeño
, Agustin Ibañez

Universidad Favaloro
Universidad de San Andrés
Universidad Nacional de Córdoba
National University of Cuyo (UNCuyo)
University of Santiago of Chile (USACH)
University of California at San Francisco
Institute for Clinical Psychology and Psychotherapy
Universidad de Buenos Aires
INIMEC-CONICET-UNC
Memory and Balance Clinic
Universidad Autonoma Del Caribe
Hospital Universitario San Ignacio
Universidad Adolfo Ibáñez

Research output: Contribution to journal › Article › peer-review

30 Scopus citations

Abstract

Objective Neurological nosology, based on categorical systems, has largely ignored dimensional aspects of neurocognitive impairments. Transdiagnostic dimensional approaches of interoception (the sensing of visceral signals) may improve the descriptions of cross-pathological symptoms at behavioral, electrophysiological, and anatomical levels. Alterations of cardiac interoception (encompassing multidimensional variables such as accuracy, learning, sensibility, and awareness) and its neural correlates (electrophysiological markers, imaging-based anatomical and functional connectivity) have been proposed as critical across disparate neurological disorders. However, no study has examined the specific impact of neural (relative to autonomic) disturbances of cardiac interoception or their differential manifestations across neurological conditions. Methods Here, we used a computational approach to classify and evaluate which markers of cardiac interoception (behavioral, metacognitive, electrophysiological, volumetric, or functional) offer the best discrimination between neurological conditions and cardiac (hypertensive) disease (model 1), and among neurological conditions (Alzheimer's disease, frontotemporal dementia, multiple sclerosis, and brain stroke; model 2). In total, the study comprised 52 neurological patients (mean [standard deviation] age = 55.1 [17.3] years; 37 women), 25 cardiac patients (age = 66.2 [9.1] years; 13 women), and 72 healthy controls (age = 52.65 [17.1] years; 50 women). Results Cardiac interoceptive outcomes successfully classified between neurological and cardiac conditions (model 1: >80% accuracy) but not among neurological conditions (model 2: 53% accuracy). Behavioral cardiac interoceptive alterations, although present in all conditions, were powerful in differentiating between neurological and cardiac diseases. However, among neurological conditions, cardiac interoceptive deficits presented more undifferentiated and unspecific disturbances across dimensions. Conclusions Our result suggests a diffuse pattern of interoceptive alterations across neurological conditions, highlighting their potential role as dimensional, transdiagnostic markers.

Original language	English
Pages (from-to)	850-861
Number of pages	12
Journal	Psychosomatic Medicine
Volume	82
Issue number	9
DOIs	https://doi.org/10.1097/PSY.0000000000000868
State	Published - Nov 2020
Externally published	Yes

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This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

AAL = Automated Anatomical Labeling Atlas
ACC = anterior cingulate cortex
AD = Alzheimer's disease
Abbreviations
ECG = electrocardiography
EEG = electroencephalography
FC = functional connectivity
HBD = heartbeat detection
HEP = heart-evoked potential
HR = heart rate
MS = multiple sclerosis
ST = stroke
bvFTD = behavioral variant frontotemporal dementia
cardiac interoception
dimensional approaches
hypertension
linear discriminant analysis
machine learning
neurological diseases

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10.1097/PSY.0000000000000868

Cite this

Abrevaya, S., Fittipaldi, S., Garcia, A. M., Dottori, M., Santamaria-Garcia, H., Birba, A., Yoris, A., Hildebrandt, M. K., Salamone, P., De La Fuente, A., Alarco-Marti, S., Garcia-Cordero, I., Matorrel-Caro, M., Pautassi, R. M., Serrano, C., Sedeño, L., & Ibañez, A. (2020). At the Heart of Neurological Dimensionality: Cross-Nosological and Multimodal Cardiac Interoceptive Deficits. Psychosomatic Medicine, 82(9), 850-861. https://doi.org/10.1097/PSY.0000000000000868

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title = "At the Heart of Neurological Dimensionality: Cross-Nosological and Multimodal Cardiac Interoceptive Deficits",

abstract = "Objective Neurological nosology, based on categorical systems, has largely ignored dimensional aspects of neurocognitive impairments. Transdiagnostic dimensional approaches of interoception (the sensing of visceral signals) may improve the descriptions of cross-pathological symptoms at behavioral, electrophysiological, and anatomical levels. Alterations of cardiac interoception (encompassing multidimensional variables such as accuracy, learning, sensibility, and awareness) and its neural correlates (electrophysiological markers, imaging-based anatomical and functional connectivity) have been proposed as critical across disparate neurological disorders. However, no study has examined the specific impact of neural (relative to autonomic) disturbances of cardiac interoception or their differential manifestations across neurological conditions. Methods Here, we used a computational approach to classify and evaluate which markers of cardiac interoception (behavioral, metacognitive, electrophysiological, volumetric, or functional) offer the best discrimination between neurological conditions and cardiac (hypertensive) disease (model 1), and among neurological conditions (Alzheimer's disease, frontotemporal dementia, multiple sclerosis, and brain stroke; model 2). In total, the study comprised 52 neurological patients (mean [standard deviation] age = 55.1 [17.3] years; 37 women), 25 cardiac patients (age = 66.2 [9.1] years; 13 women), and 72 healthy controls (age = 52.65 [17.1] years; 50 women). Results Cardiac interoceptive outcomes successfully classified between neurological and cardiac conditions (model 1: >80\% accuracy) but not among neurological conditions (model 2: 53\% accuracy). Behavioral cardiac interoceptive alterations, although present in all conditions, were powerful in differentiating between neurological and cardiac diseases. However, among neurological conditions, cardiac interoceptive deficits presented more undifferentiated and unspecific disturbances across dimensions. Conclusions Our result suggests a diffuse pattern of interoceptive alterations across neurological conditions, highlighting their potential role as dimensional, transdiagnostic markers.",

keywords = "AAL = Automated Anatomical Labeling Atlas, ACC = anterior cingulate cortex, AD = Alzheimer's disease, Abbreviations, ECG = electrocardiography, EEG = electroencephalography, FC = functional connectivity, HBD = heartbeat detection, HEP = heart-evoked potential, HR = heart rate, MS = multiple sclerosis, ST = stroke, bvFTD = behavioral variant frontotemporal dementia, cardiac interoception, dimensional approaches, hypertension, linear discriminant analysis, machine learning, neurological diseases",

author = "Sofia Abrevaya and Sol Fittipaldi and Garcia, \{Adolfo M.\} and Martin Dottori and Hernando Santamaria-Garcia and Agustina Birba and Adrian Yoris and Hildebrandt, \{Malin Katharina\} and Paula Salamone and \{De La Fuente\}, Alethia and Sofia Alarco-Marti and Indira Garcia-Cordero and Miguel Matorrel-Caro and Pautassi, \{Ricardo Marcos\} and Cecilia Serrano and Lucas Sede{\~n}o and Agustin Iba{\~n}ez",

note = "Publisher Copyright: {\textcopyright} 2021 Lippincott Williams \& Wilkins.",

year = "2020",

month = nov,

doi = "10.1097/PSY.0000000000000868",

language = "English",

volume = "82",

pages = "850--861",

journal = "Psychosomatic Medicine",

issn = "0033-3174",

publisher = "Lippincott Williams and Wilkins",

number = "9",

}

Abrevaya, S, Fittipaldi, S, Garcia, AM, Dottori, M, Santamaria-Garcia, H, Birba, A, Yoris, A, Hildebrandt, MK, Salamone, P, De La Fuente, A, Alarco-Marti, S, Garcia-Cordero, I, Matorrel-Caro, M, Pautassi, RM, Serrano, C, Sedeño, L & Ibañez, A 2020, 'At the Heart of Neurological Dimensionality: Cross-Nosological and Multimodal Cardiac Interoceptive Deficits', Psychosomatic Medicine, vol. 82, no. 9, pp. 850-861. https://doi.org/10.1097/PSY.0000000000000868

TY - JOUR

T1 - At the Heart of Neurological Dimensionality

T2 - Cross-Nosological and Multimodal Cardiac Interoceptive Deficits

AU - Abrevaya, Sofia

AU - Fittipaldi, Sol

AU - Garcia, Adolfo M.

AU - Dottori, Martin

AU - Santamaria-Garcia, Hernando

AU - Birba, Agustina

AU - Yoris, Adrian

AU - Hildebrandt, Malin Katharina

AU - Salamone, Paula

AU - De La Fuente, Alethia

AU - Alarco-Marti, Sofia

AU - Garcia-Cordero, Indira

AU - Matorrel-Caro, Miguel

AU - Pautassi, Ricardo Marcos

AU - Serrano, Cecilia

AU - Sedeño, Lucas

AU - Ibañez, Agustin

PY - 2020/11

Y1 - 2020/11

N2 - Objective Neurological nosology, based on categorical systems, has largely ignored dimensional aspects of neurocognitive impairments. Transdiagnostic dimensional approaches of interoception (the sensing of visceral signals) may improve the descriptions of cross-pathological symptoms at behavioral, electrophysiological, and anatomical levels. Alterations of cardiac interoception (encompassing multidimensional variables such as accuracy, learning, sensibility, and awareness) and its neural correlates (electrophysiological markers, imaging-based anatomical and functional connectivity) have been proposed as critical across disparate neurological disorders. However, no study has examined the specific impact of neural (relative to autonomic) disturbances of cardiac interoception or their differential manifestations across neurological conditions. Methods Here, we used a computational approach to classify and evaluate which markers of cardiac interoception (behavioral, metacognitive, electrophysiological, volumetric, or functional) offer the best discrimination between neurological conditions and cardiac (hypertensive) disease (model 1), and among neurological conditions (Alzheimer's disease, frontotemporal dementia, multiple sclerosis, and brain stroke; model 2). In total, the study comprised 52 neurological patients (mean [standard deviation] age = 55.1 [17.3] years; 37 women), 25 cardiac patients (age = 66.2 [9.1] years; 13 women), and 72 healthy controls (age = 52.65 [17.1] years; 50 women). Results Cardiac interoceptive outcomes successfully classified between neurological and cardiac conditions (model 1: >80% accuracy) but not among neurological conditions (model 2: 53% accuracy). Behavioral cardiac interoceptive alterations, although present in all conditions, were powerful in differentiating between neurological and cardiac diseases. However, among neurological conditions, cardiac interoceptive deficits presented more undifferentiated and unspecific disturbances across dimensions. Conclusions Our result suggests a diffuse pattern of interoceptive alterations across neurological conditions, highlighting their potential role as dimensional, transdiagnostic markers.

AB - Objective Neurological nosology, based on categorical systems, has largely ignored dimensional aspects of neurocognitive impairments. Transdiagnostic dimensional approaches of interoception (the sensing of visceral signals) may improve the descriptions of cross-pathological symptoms at behavioral, electrophysiological, and anatomical levels. Alterations of cardiac interoception (encompassing multidimensional variables such as accuracy, learning, sensibility, and awareness) and its neural correlates (electrophysiological markers, imaging-based anatomical and functional connectivity) have been proposed as critical across disparate neurological disorders. However, no study has examined the specific impact of neural (relative to autonomic) disturbances of cardiac interoception or their differential manifestations across neurological conditions. Methods Here, we used a computational approach to classify and evaluate which markers of cardiac interoception (behavioral, metacognitive, electrophysiological, volumetric, or functional) offer the best discrimination between neurological conditions and cardiac (hypertensive) disease (model 1), and among neurological conditions (Alzheimer's disease, frontotemporal dementia, multiple sclerosis, and brain stroke; model 2). In total, the study comprised 52 neurological patients (mean [standard deviation] age = 55.1 [17.3] years; 37 women), 25 cardiac patients (age = 66.2 [9.1] years; 13 women), and 72 healthy controls (age = 52.65 [17.1] years; 50 women). Results Cardiac interoceptive outcomes successfully classified between neurological and cardiac conditions (model 1: >80% accuracy) but not among neurological conditions (model 2: 53% accuracy). Behavioral cardiac interoceptive alterations, although present in all conditions, were powerful in differentiating between neurological and cardiac diseases. However, among neurological conditions, cardiac interoceptive deficits presented more undifferentiated and unspecific disturbances across dimensions. Conclusions Our result suggests a diffuse pattern of interoceptive alterations across neurological conditions, highlighting their potential role as dimensional, transdiagnostic markers.

KW - AAL = Automated Anatomical Labeling Atlas

KW - ACC = anterior cingulate cortex

KW - AD = Alzheimer's disease

KW - Abbreviations

KW - ECG = electrocardiography

KW - EEG = electroencephalography

KW - FC = functional connectivity

KW - HBD = heartbeat detection

KW - HEP = heart-evoked potential

KW - HR = heart rate

KW - MS = multiple sclerosis

KW - ST = stroke

KW - bvFTD = behavioral variant frontotemporal dementia

KW - cardiac interoception

KW - dimensional approaches

KW - hypertension

KW - linear discriminant analysis

KW - machine learning

KW - neurological diseases

UR - https://www.scopus.com/pages/publications/85095861999

U2 - 10.1097/PSY.0000000000000868

DO - 10.1097/PSY.0000000000000868

M3 - Article

C2 - 33003072

AN - SCOPUS:85095861999

SN - 0033-3174

VL - 82

SP - 850

EP - 861

JO - Psychosomatic Medicine

JF - Psychosomatic Medicine

IS - 9

ER -

At the Heart of Neurological Dimensionality: Cross-Nosological and Multimodal Cardiac Interoceptive Deficits

Abstract

UN SDGs

Keywords

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