TY - GEN
T1 - Treatment Prediction in the ICU Using a Partitioned, Sequential, Deep Time Series Analysis
AU - Shapiro, Michael
AU - Shahar, Yuval
N1 - Publisher Copyright:
© 2024 International Medical Informatics Association (IMIA) and IOS Press.
PY - 2024/1/25
Y1 - 2024/1/25
N2 - We have developed a time-oriented machine-learning tool to predict the binary decision of administering a medication and the quantitative decision regarding the specific dose. We evaluated our tool on the MIMIC-IV ICU database, for three common medical scenarios. We use an LSTM based neural network, and considerably extend its use by introducing several new concepts. We partition the common 12-hour prediction horizon into three sub-windows. Partitioning models the treatment dynamics better, and allows the use of previous sub-windows' data as additional training data with improved performance. We also introduce a sequential prediction process, composed of a binary treatment-decision model, followed, when relevant, by a quantitative dose-decision model, with improved accuracy. Finally, we examined two methods for including non-temporal features, such as age, within the temporal network. Our results provide additional treatment-prediction tools, and thus another step towards a reliable and trustworthy decision-support system that reduces the clinicians' cognitive load.
AB - We have developed a time-oriented machine-learning tool to predict the binary decision of administering a medication and the quantitative decision regarding the specific dose. We evaluated our tool on the MIMIC-IV ICU database, for three common medical scenarios. We use an LSTM based neural network, and considerably extend its use by introducing several new concepts. We partition the common 12-hour prediction horizon into three sub-windows. Partitioning models the treatment dynamics better, and allows the use of previous sub-windows' data as additional training data with improved performance. We also introduce a sequential prediction process, composed of a binary treatment-decision model, followed, when relevant, by a quantitative dose-decision model, with improved accuracy. Finally, we examined two methods for including non-temporal features, such as age, within the temporal network. Our results provide additional treatment-prediction tools, and thus another step towards a reliable and trustworthy decision-support system that reduces the clinicians' cognitive load.
KW - ICU
KW - Treatment prediction
KW - deep learning
KW - time series analysis
UR - http://www.scopus.com/inward/record.url?scp=85183584374&partnerID=8YFLogxK
U2 - 10.3233/SHTI231057
DO - 10.3233/SHTI231057
M3 - Conference contribution
C2 - 38269901
AN - SCOPUS:85183584374
T3 - Studies in Health Technology and Informatics
SP - 710
EP - 714
BT - MEDINFO 2023 - The Future is Accessible
A2 - Bichel-Findlay, Jen
A2 - Otero, Paula
A2 - Scott, Philip
A2 - Huesing, Elaine
PB - IOS Press BV
T2 - 19th World Congress on Medical and Health Informatics, MedInfo 2023
Y2 - 8 July 2023 through 12 July 2023
ER -