Decomposition of a multiscale entropy tensor for sleep stage identification in preterm infants

Ofelie De Wel; Mario Lavanga; Alexander Caicedo; Katrien Jansen; Gunnar Naulaers; Sabine Van Huffel

doi:10.3390/e21100936

Decomposition of a multiscale entropy tensor for sleep stage identification in preterm infants

Ofelie De Wel
, Mario Lavanga
, Alexander Caicedo
, Katrien Jansen
, Gunnar Naulaers
, Sabine Van Huffel

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

11 Scopus citations

Abstract

Established sleep cycling is one of the main hallmarks of early brain development in preterm infants, therefore, automated classification of the sleep stages in preterm infants can be used to assess the neonate's cerebral maturation. Tensor algebra is a powerful tool to analyze multidimensional data and has proven successful in many applications. In this paper, a novel unsupervised algorithm to identify neonatal sleep stages based on the decomposition of a multiscale entropy tensor is presented. The method relies on the difference in electroencephalography(EEG) complexity between the neonatal sleep stages and is evaluated on a dataset of 97 EEG recordings. An average sensitivity, specificity, accuracy and area under the receiver operating characteristic curve of 0.80, 0.79, 0.79 and 0.87 was obtained if the rank of the tensor decomposition is selected based on the age of the infant.

Original language	English
Article number	936
Journal	Entropy
Volume	21
Issue number	10
DOIs	https://doi.org/10.3390/e21100936
State	Published - 01 Oct 2019
Externally published	Yes

Keywords

CPD
EEG
Multiscale entropy
Preterm neonate
Sleep staging
Tensor decomposition

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10.3390/e21100936

Cite this

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title = "Decomposition of a multiscale entropy tensor for sleep stage identification in preterm infants",

abstract = "Established sleep cycling is one of the main hallmarks of early brain development in preterm infants, therefore, automated classification of the sleep stages in preterm infants can be used to assess the neonate's cerebral maturation. Tensor algebra is a powerful tool to analyze multidimensional data and has proven successful in many applications. In this paper, a novel unsupervised algorithm to identify neonatal sleep stages based on the decomposition of a multiscale entropy tensor is presented. The method relies on the difference in electroencephalography(EEG) complexity between the neonatal sleep stages and is evaluated on a dataset of 97 EEG recordings. An average sensitivity, specificity, accuracy and area under the receiver operating characteristic curve of 0.80, 0.79, 0.79 and 0.87 was obtained if the rank of the tensor decomposition is selected based on the age of the infant.",

keywords = "CPD, EEG, Multiscale entropy, Preterm neonate, Sleep staging, Tensor decomposition",

author = "\{De Wel\}, Ofelie and Mario Lavanga and Alexander Caicedo and Katrien Jansen and Gunnar Naulaers and \{Van Huffel\}, Sabine",

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doi = "10.3390/e21100936",

language = "English",

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journal = "Entropy",

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TY - JOUR

T1 - Decomposition of a multiscale entropy tensor for sleep stage identification in preterm infants

AU - De Wel, Ofelie

AU - Lavanga, Mario

AU - Caicedo, Alexander

AU - Jansen, Katrien

AU - Naulaers, Gunnar

AU - Van Huffel, Sabine

PY - 2019/10/1

Y1 - 2019/10/1

N2 - Established sleep cycling is one of the main hallmarks of early brain development in preterm infants, therefore, automated classification of the sleep stages in preterm infants can be used to assess the neonate's cerebral maturation. Tensor algebra is a powerful tool to analyze multidimensional data and has proven successful in many applications. In this paper, a novel unsupervised algorithm to identify neonatal sleep stages based on the decomposition of a multiscale entropy tensor is presented. The method relies on the difference in electroencephalography(EEG) complexity between the neonatal sleep stages and is evaluated on a dataset of 97 EEG recordings. An average sensitivity, specificity, accuracy and area under the receiver operating characteristic curve of 0.80, 0.79, 0.79 and 0.87 was obtained if the rank of the tensor decomposition is selected based on the age of the infant.

AB - Established sleep cycling is one of the main hallmarks of early brain development in preterm infants, therefore, automated classification of the sleep stages in preterm infants can be used to assess the neonate's cerebral maturation. Tensor algebra is a powerful tool to analyze multidimensional data and has proven successful in many applications. In this paper, a novel unsupervised algorithm to identify neonatal sleep stages based on the decomposition of a multiscale entropy tensor is presented. The method relies on the difference in electroencephalography(EEG) complexity between the neonatal sleep stages and is evaluated on a dataset of 97 EEG recordings. An average sensitivity, specificity, accuracy and area under the receiver operating characteristic curve of 0.80, 0.79, 0.79 and 0.87 was obtained if the rank of the tensor decomposition is selected based on the age of the infant.

KW - CPD

KW - EEG

KW - Multiscale entropy

KW - Preterm neonate

KW - Sleep staging

KW - Tensor decomposition

UR - https://www.scopus.com/pages/publications/85074055832

U2 - 10.3390/e21100936

DO - 10.3390/e21100936

M3 - Article

AN - SCOPUS:85074055832

SN - 1099-4300

VL - 21

JO - Entropy

JF - Entropy

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ER -

Decomposition of a multiscale entropy tensor for sleep stage identification in preterm infants

Abstract

Keywords

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