Probabilistic glycemic control decision support in ICU: Proof of concept using bayesian network
Glycemic control in intensive care patients is complex in terms of patients� response to care and treatment. The variability and the search for improved insulin therapy outcomes have led to the use of human physiology model based on per-patient metabolic condition to provide personalized automated r...
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my.uniten.dspace-247592023-05-29T15:26:45Z Probabilistic glycemic control decision support in ICU: Proof of concept using bayesian network Abu-Samah A. Razak N.N.A. Suhaimi F.M. Jamaludin U.K. Ralib A.M. 56719596600 37059587300 36247893200 55330889600 37031770900 Glycemic control in intensive care patients is complex in terms of patients� response to care and treatment. The variability and the search for improved insulin therapy outcomes have led to the use of human physiology model based on per-patient metabolic condition to provide personalized automated recommendations. One of the most promising solutions for this is the STAR protocol, which is based on a clinically validated insulin-nutrition-glucose physiological model. However, this approach does not consider demographical background such as age, weight, height, and ethnicity. This article presents the extension to intensive care personalized solution by integrating per-patient demographical, and upon admission information to intensive care conditions to automate decision support for clinical staff. In this context, a virtual study was conducted on 210 retrospectives intensive care patients� data. To provide a ground, the integration concept is presented roughly, but the details are given in terms of a proof of concept using Bayesian Network, linking the admission background and performance of the STAR control. The proof of concept shows 71.43% and 73.90% overall inference precision, and reliability, respectively, on the test dataset. With more data, improved Bayesian Network is believed to be reproduced. These results, nevertheless, points at the feasibility of the network to act as an effective classifier using intensive care units data, and glycemic control performance to be the basis of a probabilistic, personalized, and automated decision support in the intensive care units. � 2019 Penerbit UTM Press. All rights reserved. Final 2023-05-29T07:26:45Z 2023-05-29T07:26:45Z 2019 Article 10.11113/jt.v81.12721 2-s2.0-85062991963 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85062991963&doi=10.11113%2fjt.v81.12721&partnerID=40&md5=26647c1c6103200ef6a23bbf11ce83ea https://irepository.uniten.edu.my/handle/123456789/24759 81 2 61 69 All Open Access, Bronze, Green Penerbit UTM Press Scopus |
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Glycemic control in intensive care patients is complex in terms of patients� response to care and treatment. The variability and the search for improved insulin therapy outcomes have led to the use of human physiology model based on per-patient metabolic condition to provide personalized automated recommendations. One of the most promising solutions for this is the STAR protocol, which is based on a clinically validated insulin-nutrition-glucose physiological model. However, this approach does not consider demographical background such as age, weight, height, and ethnicity. This article presents the extension to intensive care personalized solution by integrating per-patient demographical, and upon admission information to intensive care conditions to automate decision support for clinical staff. In this context, a virtual study was conducted on 210 retrospectives intensive care patients� data. To provide a ground, the integration concept is presented roughly, but the details are given in terms of a proof of concept using Bayesian Network, linking the admission background and performance of the STAR control. The proof of concept shows 71.43% and 73.90% overall inference precision, and reliability, respectively, on the test dataset. With more data, improved Bayesian Network is believed to be reproduced. These results, nevertheless, points at the feasibility of the network to act as an effective classifier using intensive care units data, and glycemic control performance to be the basis of a probabilistic, personalized, and automated decision support in the intensive care units. � 2019 Penerbit UTM Press. All rights reserved. |
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56719596600 |
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56719596600 Abu-Samah A. Razak N.N.A. Suhaimi F.M. Jamaludin U.K. Ralib A.M. |
| format |
Article |
| author |
Abu-Samah A. Razak N.N.A. Suhaimi F.M. Jamaludin U.K. Ralib A.M. |
| spellingShingle |
Abu-Samah A. Razak N.N.A. Suhaimi F.M. Jamaludin U.K. Ralib A.M. Probabilistic glycemic control decision support in ICU: Proof of concept using bayesian network |
| author_sort |
Abu-Samah A. |
| title |
Probabilistic glycemic control decision support in ICU: Proof of concept using bayesian network |
| title_short |
Probabilistic glycemic control decision support in ICU: Proof of concept using bayesian network |
| title_full |
Probabilistic glycemic control decision support in ICU: Proof of concept using bayesian network |
| title_fullStr |
Probabilistic glycemic control decision support in ICU: Proof of concept using bayesian network |
| title_full_unstemmed |
Probabilistic glycemic control decision support in ICU: Proof of concept using bayesian network |
| title_sort |
probabilistic glycemic control decision support in icu: proof of concept using bayesian network |
| publisher |
Penerbit UTM Press |
| publishDate |
2023 |
| _version_ |
1806427291215986688 |
| score |
13.188404 |