Integrating Electronic Health Records with Machine Learning for Decision Support
DOI:
https://doi.org/10.63282/3050-922X.IJERET-V5I4P115Keywords:
Electronic Health Records (EHR), Machine Learning in Healthcare, Clinical Decision Support Systems, Predictive Modeling, Healthcare Analytics, Explainable AI, Clinical Outcome Prediction, Medical Data Preprocessing, Personalized Medicine, Healthcare Decision SupportAbstract
The integration of Electronic Health Records (EHRs) with machine learning techniques has emerged as a promising approach to enhance clinical decision support systems. This study aims to explore how machine learning models can effectively analyze EHR data to assist clinicians in diagnosis, prognosis, and treatment planning. The primary purpose of the research is to evaluate the potential of data-driven decision support in improving healthcare outcomes while addressing challenges related to data quality, interpretability, and clinical adoption. The methodology involves preprocessing structured and unstructured EHR data, followed by the application of supervised and deep learning algorithms to develop predictive models for clinical outcomes. Model performance is evaluated using standard metrics such as accuracy, sensitivity, specificity, and area under the receiver operating characteristic curve. Explainability techniques are incorporated to ensure model transparency and clinician trust. The key findings demonstrate that machine learning models trained on EHR data can achieve high predictive performance and provide timely insights that support clinical decision-making. Results also highlight the importance of data preprocessing and model interpretability in achieving reliable and clinically meaningful outcomes. In conclusion, integrating machine learning with EHR systems can significantly enhance clinical decision support by enabling early detection of health risks and personalized care recommendations. However, successful implementation requires careful consideration of data quality, ethical concerns, and seamless integration into clinical workflows.
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