Results of quantitative EEG analysis are associated with autism spectrum disorder and development abnormalities in infants with tuberous sclerosis complex

Mario Lavanga; Jessie De Ridder; Katarzyna Kotulska; Romina Moavero; Paolo Curatolo; Bernhard Weschke; Kate Riney; Martha Feucht; Pavel Krsek; Rima Nabbout; Anna C. Jansen; Konrad Wojdan; Dorota Domanska-Pakieła; Magdalena Kaczorowska-Frontczak; Christoph Hertzberg; Cyrille H. Ferrier; Sharon Samueli; Alena Jahodova; Eleonora Aronica; David J. Kwiatkowski; Floor E. Jansen; Sergiusz Jóźwiak; Lieven Lagae; Sabine Van Huffel; Alexander Caicedo

doi:10.1016/j.bspc.2021.102658

Results of quantitative EEG analysis are associated with autism spectrum disorder and development abnormalities in infants with tuberous sclerosis complex

Mario Lavanga, Jessie De Ridder, Katarzyna Kotulska, Romina Moavero, Paolo Curatolo, Bernhard Weschke, Kate Riney, Martha Feucht, Pavel Krsek, Rima Nabbout, Anna C. Jansen, Konrad Wojdan, Dorota Domanska-Pakieła, Magdalena Kaczorowska-Frontczak, Christoph Hertzberg, Cyrille H. Ferrier, Sharon Samueli, Alena Jahodova, Eleonora Aronica, David J. KwiatkowskiFloor E. Jansen, Sergiusz Jóźwiak, Lieven Lagae, Sabine Van Huffel, Alexander Caicedo

Universidad del Rosario

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6 Citas (Scopus)

Resumen

Objective: The aim of this study is the investigation of early-life EEG background abnormalities or “dysmature” traits in infants with tuberous sclerosis complex (TSC) and their capacity to predict autism spectrum disorder or neurodevelopmental outcome. Methods: EEG data were prospectively collected from TSC patients during the EPISTOP trial (NCT02098759). Subjects were younger than 4 months, and ASD risk and neurodevelopmental outcome were assessed at the age of 2 years. The EEG at the first visit was analyzed by means of Multiscale Entropy (MSE), multifractality (MFA), amplitude integrated EEG features and topological indices of the EEG network. These features were associated with both ASD and abnormal Bayley outcome of the infants using linear discriminant analysis. Results: The classification of the ASD patients shows that MFA and MSE had the best discrimination performances, with an area under the ROC curve AUC (MFA) = 0.74 and AUC(MSE) = 0.79 respectively, and kappa scores of Kappa(MFA) = 0.48 and Kappa(MSE) = 0.26. Concerning both abnormal Bayley outcome and ASD, the developmental abnormalities detection shows that entropy and fractal features outperform the other subsets of attributes and the multiclass analysis shows that those features can also discriminate patients with ASD from patients with only developmental abnormalities (Kappa(MFA) = 0.41 and Kappa(MSE) = 0.36). Conclusion: Quantitative EEG analysis shows that a dysmature EEG, i.e. a signal with higher fractal regularity and lower entropy, is associated with autism spectrum disorder or abnormal Bayley outcome at 2 years of age.

Idioma original	Inglés estadounidense
Número de artículo	102658
Publicación	Biomedical Signal Processing and Control
Volumen	68
DOI	https://doi.org/10.1016/j.bspc.2021.102658
Estado	Publicada - jul. 2021

Áreas temáticas de ASJC Scopus

Procesamiento de senales
Informática aplicada a la salud

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Lavanga, M., De Ridder, J., Kotulska, K., Moavero, R., Curatolo, P., Weschke, B., Riney, K., Feucht, M., Krsek, P., Nabbout, R., Jansen, A. C., Wojdan, K., Domanska-Pakieła, D., Kaczorowska-Frontczak, M., Hertzberg, C., Ferrier, C. H., Samueli, S., Jahodova, A., Aronica, E., ... Caicedo, A. (2021). Results of quantitative EEG analysis are associated with autism spectrum disorder and development abnormalities in infants with tuberous sclerosis complex. Biomedical Signal Processing and Control, 68, Artículo 102658. https://doi.org/10.1016/j.bspc.2021.102658

@article{43e23db99d8641ba87b9f5004eb8e574,

title = "Results of quantitative EEG analysis are associated with autism spectrum disorder and development abnormalities in infants with tuberous sclerosis complex",

abstract = "Objective: The aim of this study is the investigation of early-life EEG background abnormalities or “dysmature” traits in infants with tuberous sclerosis complex (TSC) and their capacity to predict autism spectrum disorder or neurodevelopmental outcome. Methods: EEG data were prospectively collected from TSC patients during the EPISTOP trial (NCT02098759). Subjects were younger than 4 months, and ASD risk and neurodevelopmental outcome were assessed at the age of 2 years. The EEG at the first visit was analyzed by means of Multiscale Entropy (MSE), multifractality (MFA), amplitude integrated EEG features and topological indices of the EEG network. These features were associated with both ASD and abnormal Bayley outcome of the infants using linear discriminant analysis. Results: The classification of the ASD patients shows that MFA and MSE had the best discrimination performances, with an area under the ROC curve AUC (MFA) = 0.74 and AUC(MSE) = 0.79 respectively, and kappa scores of Kappa(MFA) = 0.48 and Kappa(MSE) = 0.26. Concerning both abnormal Bayley outcome and ASD, the developmental abnormalities detection shows that entropy and fractal features outperform the other subsets of attributes and the multiclass analysis shows that those features can also discriminate patients with ASD from patients with only developmental abnormalities (Kappa(MFA) = 0.41 and Kappa(MSE) = 0.36). Conclusion: Quantitative EEG analysis shows that a dysmature EEG, i.e. a signal with higher fractal regularity and lower entropy, is associated with autism spectrum disorder or abnormal Bayley outcome at 2 years of age.",

author = "Mario Lavanga and {De Ridder}, Jessie and Katarzyna Kotulska and Romina Moavero and Paolo Curatolo and Bernhard Weschke and Kate Riney and Martha Feucht and Pavel Krsek and Rima Nabbout and Jansen, {Anna C.} and Konrad Wojdan and Dorota Domanska-Pakie{\l}a and Magdalena Kaczorowska-Frontczak and Christoph Hertzberg and Ferrier, {Cyrille H.} and Sharon Samueli and Alena Jahodova and Eleonora Aronica and Kwiatkowski, {David J.} and Jansen, {Floor E.} and Sergiusz J{\'o}{\'z}wiak and Lieven Lagae and {Van Huffel}, Sabine and Alexander Caicedo",

note = "Publisher Copyright: {\textcopyright} 2021 Elsevier Ltd",

year = "2021",

month = jul,

doi = "10.1016/j.bspc.2021.102658",

language = "English (US)",

volume = "68",

journal = "Biomedical Signal Processing and Control",

issn = "1746-8094",

publisher = "Elsevier BV",

}

Lavanga, M, De Ridder, J, Kotulska, K, Moavero, R, Curatolo, P, Weschke, B, Riney, K, Feucht, M, Krsek, P, Nabbout, R, Jansen, AC, Wojdan, K, Domanska-Pakieła, D, Kaczorowska-Frontczak, M, Hertzberg, C, Ferrier, CH, Samueli, S, Jahodova, A, Aronica, E, Kwiatkowski, DJ, Jansen, FE, Jóźwiak, S, Lagae, L, Van Huffel, S & Caicedo, A 2021, 'Results of quantitative EEG analysis are associated with autism spectrum disorder and development abnormalities in infants with tuberous sclerosis complex', Biomedical Signal Processing and Control, vol. 68, 102658. https://doi.org/10.1016/j.bspc.2021.102658

Results of quantitative EEG analysis are associated with autism spectrum disorder and development abnormalities in infants with tuberous sclerosis complex. / Lavanga, Mario; De Ridder, Jessie; Kotulska, Katarzyna et al.
En: Biomedical Signal Processing and Control, Vol. 68, 102658, 07.2021.

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

TY - JOUR

T1 - Results of quantitative EEG analysis are associated with autism spectrum disorder and development abnormalities in infants with tuberous sclerosis complex

AU - Lavanga, Mario

AU - De Ridder, Jessie

AU - Kotulska, Katarzyna

AU - Moavero, Romina

AU - Curatolo, Paolo

AU - Weschke, Bernhard

AU - Riney, Kate

AU - Feucht, Martha

AU - Krsek, Pavel

AU - Nabbout, Rima

AU - Jansen, Anna C.

AU - Wojdan, Konrad

AU - Domanska-Pakieła, Dorota

AU - Kaczorowska-Frontczak, Magdalena

AU - Hertzberg, Christoph

AU - Ferrier, Cyrille H.

AU - Samueli, Sharon

AU - Jahodova, Alena

AU - Aronica, Eleonora

AU - Kwiatkowski, David J.

AU - Jansen, Floor E.

AU - Jóźwiak, Sergiusz

AU - Lagae, Lieven

AU - Van Huffel, Sabine

AU - Caicedo, Alexander

PY - 2021/7

Y1 - 2021/7

N2 - Objective: The aim of this study is the investigation of early-life EEG background abnormalities or “dysmature” traits in infants with tuberous sclerosis complex (TSC) and their capacity to predict autism spectrum disorder or neurodevelopmental outcome. Methods: EEG data were prospectively collected from TSC patients during the EPISTOP trial (NCT02098759). Subjects were younger than 4 months, and ASD risk and neurodevelopmental outcome were assessed at the age of 2 years. The EEG at the first visit was analyzed by means of Multiscale Entropy (MSE), multifractality (MFA), amplitude integrated EEG features and topological indices of the EEG network. These features were associated with both ASD and abnormal Bayley outcome of the infants using linear discriminant analysis. Results: The classification of the ASD patients shows that MFA and MSE had the best discrimination performances, with an area under the ROC curve AUC (MFA) = 0.74 and AUC(MSE) = 0.79 respectively, and kappa scores of Kappa(MFA) = 0.48 and Kappa(MSE) = 0.26. Concerning both abnormal Bayley outcome and ASD, the developmental abnormalities detection shows that entropy and fractal features outperform the other subsets of attributes and the multiclass analysis shows that those features can also discriminate patients with ASD from patients with only developmental abnormalities (Kappa(MFA) = 0.41 and Kappa(MSE) = 0.36). Conclusion: Quantitative EEG analysis shows that a dysmature EEG, i.e. a signal with higher fractal regularity and lower entropy, is associated with autism spectrum disorder or abnormal Bayley outcome at 2 years of age.

AB - Objective: The aim of this study is the investigation of early-life EEG background abnormalities or “dysmature” traits in infants with tuberous sclerosis complex (TSC) and their capacity to predict autism spectrum disorder or neurodevelopmental outcome. Methods: EEG data were prospectively collected from TSC patients during the EPISTOP trial (NCT02098759). Subjects were younger than 4 months, and ASD risk and neurodevelopmental outcome were assessed at the age of 2 years. The EEG at the first visit was analyzed by means of Multiscale Entropy (MSE), multifractality (MFA), amplitude integrated EEG features and topological indices of the EEG network. These features were associated with both ASD and abnormal Bayley outcome of the infants using linear discriminant analysis. Results: The classification of the ASD patients shows that MFA and MSE had the best discrimination performances, with an area under the ROC curve AUC (MFA) = 0.74 and AUC(MSE) = 0.79 respectively, and kappa scores of Kappa(MFA) = 0.48 and Kappa(MSE) = 0.26. Concerning both abnormal Bayley outcome and ASD, the developmental abnormalities detection shows that entropy and fractal features outperform the other subsets of attributes and the multiclass analysis shows that those features can also discriminate patients with ASD from patients with only developmental abnormalities (Kappa(MFA) = 0.41 and Kappa(MSE) = 0.36). Conclusion: Quantitative EEG analysis shows that a dysmature EEG, i.e. a signal with higher fractal regularity and lower entropy, is associated with autism spectrum disorder or abnormal Bayley outcome at 2 years of age.

UR - http://www.scopus.com/inward/record.url?scp=85105339277&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85105339277&partnerID=8YFLogxK

U2 - 10.1016/j.bspc.2021.102658

DO - 10.1016/j.bspc.2021.102658

M3 - Article

AN - SCOPUS:85105339277

SN - 1746-8094

VL - 68

JO - Biomedical Signal Processing and Control

JF - Biomedical Signal Processing and Control

M1 - 102658

ER -

Results of quantitative EEG analysis are associated with autism spectrum disorder and development abnormalities in infants with tuberous sclerosis complex

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