Comprehensive evaluation of machine learning algorithms for predicting sleep–wake conditions and differentiating between the wake conditions before and after sleep during pregnancy based on heart rate variability

INTRODUCTION: Perinatal women tend to have difficulties with sleep along with autonomic characteristics. This study aimed to identify a machine learning algorithm capable of achieving high accuracy in predicting sleep–wake conditions and differentiating between the wake conditions before and after s...

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Autores principales: Li, Xue, Ono, Chiaki, Warita, Noriko, Shoji, Tomoka, Nakagawa, Takashi, Usukura, Hitomi, Yu, Zhiqian, Takahashi, Yuta, Ichiji, Kei, Sugita, Norihiro, Kobayashi, Natsuko, Kikuchi, Saya, Kimura, Ryoko, Hamaie, Yumiko, Hino, Mizuki, Kunii, Yasuto, Murakami, Keiko, Ishikuro, Mami, Obara, Taku, Nakamura, Tomohiro, Nagami, Fuji, Takai, Takako, Ogishima, Soichi, Sugawara, Junichi, Hoshiai, Tetsuro, Saito, Masatoshi, Tamiya, Gen, Fuse, Nobuo, Fujii, Susumu, Nakayama, Masaharu, Kuriyama, Shinichi, Yamamoto, Masayuki, Yaegashi, Nobuo, Homma, Noriyasu, Tomita, Hiroaki
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2023
Materias:
Psychiatry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10322181/
https://www.ncbi.nlm.nih.gov/pubmed/37415686
http://dx.doi.org/10.3389/fpsyt.2023.1104222
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author Li, Xue
Ono, Chiaki
Warita, Noriko
Shoji, Tomoka
Nakagawa, Takashi
Usukura, Hitomi
Yu, Zhiqian
Takahashi, Yuta
Ichiji, Kei
Sugita, Norihiro
Kobayashi, Natsuko
Kikuchi, Saya
Kimura, Ryoko
Hamaie, Yumiko
Hino, Mizuki
Kunii, Yasuto
Murakami, Keiko
Ishikuro, Mami
Obara, Taku
Nakamura, Tomohiro
Nagami, Fuji
Takai, Takako
Ogishima, Soichi
Sugawara, Junichi
Hoshiai, Tetsuro
Saito, Masatoshi
Tamiya, Gen
Fuse, Nobuo
Fujii, Susumu
Nakayama, Masaharu
Kuriyama, Shinichi
Yamamoto, Masayuki
Yaegashi, Nobuo
Homma, Noriyasu
Tomita, Hiroaki
author_facet Li, Xue
Ono, Chiaki
Warita, Noriko
Shoji, Tomoka
Nakagawa, Takashi
Usukura, Hitomi
Yu, Zhiqian
Takahashi, Yuta
Ichiji, Kei
Sugita, Norihiro
Kobayashi, Natsuko
Kikuchi, Saya
Kimura, Ryoko
Hamaie, Yumiko
Hino, Mizuki
Kunii, Yasuto
Murakami, Keiko
Ishikuro, Mami
Obara, Taku
Nakamura, Tomohiro
Nagami, Fuji
Takai, Takako
Ogishima, Soichi
Sugawara, Junichi
Hoshiai, Tetsuro
Saito, Masatoshi
Tamiya, Gen
Fuse, Nobuo
Fujii, Susumu
Nakayama, Masaharu
Kuriyama, Shinichi
Yamamoto, Masayuki
Yaegashi, Nobuo
Homma, Noriyasu
Tomita, Hiroaki
author_sort Li, Xue
collection PubMed
description INTRODUCTION: Perinatal women tend to have difficulties with sleep along with autonomic characteristics. This study aimed to identify a machine learning algorithm capable of achieving high accuracy in predicting sleep–wake conditions and differentiating between the wake conditions before and after sleep during pregnancy based on heart rate variability (HRV). METHODS: Nine HRV indicators (features) and sleep–wake conditions of 154 pregnant women were measured for 1 week, from the 23rd to the 32nd weeks of pregnancy. Ten machine learning and three deep learning methods were applied to predict three types of sleep–wake conditions (wake, shallow sleep, and deep sleep). In addition, the prediction of four conditions, in which the wake conditions before and after sleep were differentiated—shallow sleep, deep sleep, and the two types of wake conditions—was also tested. RESULTS AND DISCUSSION: In the test for predicting three types of sleep–wake conditions, most of the algorithms, except for Naïve Bayes, showed higher areas under the curve (AUCs; 0.82–0.88) and accuracy (0.78–0.81). The test using four types of sleep–wake conditions with differentiation between the wake conditions before and after sleep also resulted in successful prediction by the gated recurrent unit with the highest AUC (0.86) and accuracy (0.79). Among the nine features, seven made major contributions to predicting sleep–wake conditions. Among the seven features, “the number of interval differences of successive RR intervals greater than 50 ms (NN50)” and “the proportion dividing NN50 by the total number of RR intervals (pNN50)” were useful to predict sleep–wake conditions unique to pregnancy. These findings suggest alterations in the vagal tone system specific to pregnancy.
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spelling pubmed-103221812023-07-06 Comprehensive evaluation of machine learning algorithms for predicting sleep–wake conditions and differentiating between the wake conditions before and after sleep during pregnancy based on heart rate variability Li, Xue Ono, Chiaki Warita, Noriko Shoji, Tomoka Nakagawa, Takashi Usukura, Hitomi Yu, Zhiqian Takahashi, Yuta Ichiji, Kei Sugita, Norihiro Kobayashi, Natsuko Kikuchi, Saya Kimura, Ryoko Hamaie, Yumiko Hino, Mizuki Kunii, Yasuto Murakami, Keiko Ishikuro, Mami Obara, Taku Nakamura, Tomohiro Nagami, Fuji Takai, Takako Ogishima, Soichi Sugawara, Junichi Hoshiai, Tetsuro Saito, Masatoshi Tamiya, Gen Fuse, Nobuo Fujii, Susumu Nakayama, Masaharu Kuriyama, Shinichi Yamamoto, Masayuki Yaegashi, Nobuo Homma, Noriyasu Tomita, Hiroaki Front Psychiatry Psychiatry INTRODUCTION: Perinatal women tend to have difficulties with sleep along with autonomic characteristics. This study aimed to identify a machine learning algorithm capable of achieving high accuracy in predicting sleep–wake conditions and differentiating between the wake conditions before and after sleep during pregnancy based on heart rate variability (HRV). METHODS: Nine HRV indicators (features) and sleep–wake conditions of 154 pregnant women were measured for 1 week, from the 23rd to the 32nd weeks of pregnancy. Ten machine learning and three deep learning methods were applied to predict three types of sleep–wake conditions (wake, shallow sleep, and deep sleep). In addition, the prediction of four conditions, in which the wake conditions before and after sleep were differentiated—shallow sleep, deep sleep, and the two types of wake conditions—was also tested. RESULTS AND DISCUSSION: In the test for predicting three types of sleep–wake conditions, most of the algorithms, except for Naïve Bayes, showed higher areas under the curve (AUCs; 0.82–0.88) and accuracy (0.78–0.81). The test using four types of sleep–wake conditions with differentiation between the wake conditions before and after sleep also resulted in successful prediction by the gated recurrent unit with the highest AUC (0.86) and accuracy (0.79). Among the nine features, seven made major contributions to predicting sleep–wake conditions. Among the seven features, “the number of interval differences of successive RR intervals greater than 50 ms (NN50)” and “the proportion dividing NN50 by the total number of RR intervals (pNN50)” were useful to predict sleep–wake conditions unique to pregnancy. These findings suggest alterations in the vagal tone system specific to pregnancy. Frontiers Media S.A. 2023-06-06 /pmc/articles/PMC10322181/ /pubmed/37415686 http://dx.doi.org/10.3389/fpsyt.2023.1104222 Text en Copyright © 2023 Li, Ono, Warita, Shoji, Nakagawa, Usukura, Yu, Takahashi, Ichiji, Sugita, Kobayashi, Kikuchi, Kimura, Hamaie, Hino, Kunii, Murakami, Ishikuro, Obara, Nakamura, Nagami, Takai, Ogishima, Sugawara, Hoshiai, Saito, Tamiya, Fuse, Fujii, Nakayama, Kuriyama, Yamamoto, Yaegashi, Homma and Tomita. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Psychiatry
Li, Xue
Ono, Chiaki
Warita, Noriko
Shoji, Tomoka
Nakagawa, Takashi
Usukura, Hitomi
Yu, Zhiqian
Takahashi, Yuta
Ichiji, Kei
Sugita, Norihiro
Kobayashi, Natsuko
Kikuchi, Saya
Kimura, Ryoko
Hamaie, Yumiko
Hino, Mizuki
Kunii, Yasuto
Murakami, Keiko
Ishikuro, Mami
Obara, Taku
Nakamura, Tomohiro
Nagami, Fuji
Takai, Takako
Ogishima, Soichi
Sugawara, Junichi
Hoshiai, Tetsuro
Saito, Masatoshi
Tamiya, Gen
Fuse, Nobuo
Fujii, Susumu
Nakayama, Masaharu
Kuriyama, Shinichi
Yamamoto, Masayuki
Yaegashi, Nobuo
Homma, Noriyasu
Tomita, Hiroaki
Comprehensive evaluation of machine learning algorithms for predicting sleep–wake conditions and differentiating between the wake conditions before and after sleep during pregnancy based on heart rate variability
title Comprehensive evaluation of machine learning algorithms for predicting sleep–wake conditions and differentiating between the wake conditions before and after sleep during pregnancy based on heart rate variability
title_full Comprehensive evaluation of machine learning algorithms for predicting sleep–wake conditions and differentiating between the wake conditions before and after sleep during pregnancy based on heart rate variability
title_fullStr Comprehensive evaluation of machine learning algorithms for predicting sleep–wake conditions and differentiating between the wake conditions before and after sleep during pregnancy based on heart rate variability
title_full_unstemmed Comprehensive evaluation of machine learning algorithms for predicting sleep–wake conditions and differentiating between the wake conditions before and after sleep during pregnancy based on heart rate variability
title_short Comprehensive evaluation of machine learning algorithms for predicting sleep–wake conditions and differentiating between the wake conditions before and after sleep during pregnancy based on heart rate variability
title_sort comprehensive evaluation of machine learning algorithms for predicting sleep–wake conditions and differentiating between the wake conditions before and after sleep during pregnancy based on heart rate variability
topic Psychiatry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10322181/
https://www.ncbi.nlm.nih.gov/pubmed/37415686
http://dx.doi.org/10.3389/fpsyt.2023.1104222
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