Integrating clinical notes for enhanced mortality prediction in ICU
Predicting patient outcomes in Intensive Care Units (ICUs) is a critical task for im- proving patient management and treatment planning. Traditional predictive models primarily rely on structured time-series data (e.g., vital signs, lab results) to forecast outcomes like in-hospital mortality. Ho...
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sg-ntu-dr.10356-1810842024-11-13T22:56:33Z Integrating clinical notes for enhanced mortality prediction in ICU Pang, Kelvin Fan Xiuyi Liu Siyuan College of Computing and Data Science xyfan@ntu.edu.sg, SYLiu@ntu.edu.sg Computer and Information Science Predicting patient outcomes in Intensive Care Units (ICUs) is a critical task for im- proving patient management and treatment planning. Traditional predictive models primarily rely on structured time-series data (e.g., vital signs, lab results) to forecast outcomes like in-hospital mortality. However, these models often overlook the rich, un- structured information available in clinical notes, which can provide important context about a patient’s condition that is not reflected in structured data alone. This study explores the viability of integrating unstructured clinical text data into mor- tality prediction models using the STraTS (Self-Supervised Transformer for Sparse and Irregularly Sampled Multivariate Clinical Time-Series) model. The primary ob- jective is to assess whether text embeddings derived from clinical notes—processed using Clinical Longformer and BioWordVec—can enhance predictive performance in comparison to the baseline STraTS model, which uses structured time-series and demographic data. The predictive performance of three model variants, the baseline STraTS model, Clin- ical Longformer, and BioWordVec models, will be evaluated. Models were evaluated using ROC-AUC, PR-AUC, and (min(Re,Pr)). While the baseline model outperformed both Clinical Longformer and BioWordVec, the Clinical Longformer demonstrated potential in optimizing the precision-recall trade-off, a critical factor in mortality pre- diction tasks involving imbalanced datasets. The findings suggest that unstructured text data offers complementary value, while structured data remains a more reliable predictor of mortality. Bachelor's degree 2024-11-13T22:56:33Z 2024-11-13T22:56:33Z 2024 Final Year Project (FYP) Pang, K. (2024). Integrating clinical notes for enhanced mortality prediction in ICU. Final Year Project (FYP), Nanyang Technological University, Singapore. https://hdl.handle.net/10356/181084 https://hdl.handle.net/10356/181084 en application/pdf Nanyang Technological University |
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Computer and Information Science Pang, Kelvin Integrating clinical notes for enhanced mortality prediction in ICU |
| description |
Predicting patient outcomes in Intensive Care Units (ICUs) is a critical task for im-
proving patient management and treatment planning. Traditional predictive models
primarily rely on structured time-series data (e.g., vital signs, lab results) to forecast
outcomes like in-hospital mortality. However, these models often overlook the rich, un-
structured information available in clinical notes, which can provide important context
about a patient’s condition that is not reflected in structured data alone.
This study explores the viability of integrating unstructured clinical text data into mor-
tality prediction models using the STraTS (Self-Supervised Transformer for Sparse
and Irregularly Sampled Multivariate Clinical Time-Series) model. The primary ob-
jective is to assess whether text embeddings derived from clinical notes—processed
using Clinical Longformer and BioWordVec—can enhance predictive performance
in comparison to the baseline STraTS model, which uses structured time-series and
demographic data.
The predictive performance of three model variants, the baseline STraTS model, Clin-
ical Longformer, and BioWordVec models, will be evaluated. Models were evaluated
using ROC-AUC, PR-AUC, and (min(Re,Pr)). While the baseline model outperformed
both Clinical Longformer and BioWordVec, the Clinical Longformer demonstrated
potential in optimizing the precision-recall trade-off, a critical factor in mortality pre-
diction tasks involving imbalanced datasets.
The findings suggest that unstructured text data offers complementary value, while
structured data remains a more reliable predictor of mortality. |
| author2 |
Fan Xiuyi |
| author_facet |
Fan Xiuyi Pang, Kelvin |
| format |
Final Year Project |
| author |
Pang, Kelvin |
| author_sort |
Pang, Kelvin |
| title |
Integrating clinical notes for enhanced mortality prediction in ICU |
| title_short |
Integrating clinical notes for enhanced mortality prediction in ICU |
| title_full |
Integrating clinical notes for enhanced mortality prediction in ICU |
| title_fullStr |
Integrating clinical notes for enhanced mortality prediction in ICU |
| title_full_unstemmed |
Integrating clinical notes for enhanced mortality prediction in ICU |
| title_sort |
integrating clinical notes for enhanced mortality prediction in icu |
| publisher |
Nanyang Technological University |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/181084 |
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1816858932857012224 |