• Version
• Download 8
• File Size 341.07 KB
• File Count 1
• Create Date 25 April 2025
• Last Updated 25 April 2025

Advanced Predictive Modeling for Early Detection of Diabetes Insipidus: Leveraging Machine Learning Algorithms to Enhance Diagnostic Accuracy and Personalized Treatment Pathways

Authors:

A.Thamodharan, K.Siva Ganesh, Mallikarjuna Reddy, Mukesh P, Pavani V

Abstract: Diabetes Insipidus (DI) is a rare disorder characterized by the inability to concentrate urine, leading to frequent urination and excessive thirst. Early detection of DI is crucial for timely treatment, as delayed diagnosis can result in complications such as dehydration, electrolyte imbalances, and kidney damage. This paper explores the application of advanced predictive modeling techniques, particularly machine learning (ML) algorithms, to enhance the early detection and diagnosis of Diabetes Insipidus. Traditional diagnostic approaches, such as water deprivation tests and serum osmolality measurements, often require invasive procedures and are time-consuming. In contrast, ML-based models offer an opportunity to leverage clinical data for non-invasive, rapid, and accurate predictions, thereby improving diagnostic efficiency and patient outcomes.The paper reviews the various ML algorithms employed in the detection of DI, including decision trees, random forests, support vector machines (SVM), and deep learning methods. A significant focus is placed on feature engineering techniques, which help identify the most relevant clinical and laboratory parameters for the predictive models. Additionally, the integration of electronic health records (EHR) data, such as age, gender, history of dehydration, urine output, and serum electrolyte levels, is explored as a means to enhance the model's accuracy and robustness.

Keywords: Diabetes Insipidus, Early Detection, Predictive Modeling, Machine Learning, Personalized Treatment, Diagnostic Accuracy, Feature Engineering, Electronic Health Records, Decision Trees, Support Vector Machines, Deep Learning, Cross-Validation, Model Evaluation.