CHRONIC KIDNEY DISEASE PREDICTION MODEL USING BAYESIAN OPTIMIZATION AND XGBOOST MACHINE LEARNING ALGORITHM

Authors

Keywords:

Bayesian Optimization, Chronic Kidney Disease, Hyperparameter Tuning, Machine Learning, Predictive Modeling, XGBoost

Abstract

Chronic Kidney Disease or CKD is a global concern that continues to flourish and affect the wellbeing of people and systems across the world. It is defined by the gradual loss of kidney functionality that leads to important issues like cardiovascular disease, renal failure, and increased death rates. Previous researchers has concentrated towards the development of machine learning algorithms Random Forest, K Nearest Neighbour algorithm, Decision Tree and Deep Neural Network for CKD prediction, but higher prediction accuracy and model interpretability has not been achieved. Although some researchers have attempted to shed light on Kidney Disease prediction, the prophecy of Chronic Kidney Disease remains unsolved. For this reason, the main objective of this paper is to integrating some other machine learning algorithms like XGboost along with bayesian optimization for hyper parameter tuning of xgboost and improve CKD prediction along with a large feature set and strong non-linear dependencies within the data. The research derived a dataset from a sonograph showing a hospital from Karaikudi, Tamil Nadu from India. The dataset has 400 samples where 250 samples are positive for CKD and 150 samples are negative. This approach builds upon the previous work of Arumugham et al. (2023) who achieved a remarkable accuracy of 98.75% when using a deep neural network (DNN) model. The findings of this research offer insight into the use of advanced machine learning methods for the better prediction and management of chronic kidney disease.

Dimensions

Arumugham, V., Sankaralingam, B. P., Jayachandran, U. M., Krishna, K. V. S. S. R., Sundarraj, S., & Mohammed, M. (2023). An explainable deep learning model for prediction of early-stage chronic kidney disease. Computational Intelligence.

Chen Chukwuonye, I. I., Ofoegbu, E. I., & Eze, A. (2022). The burden of chronic kidney disease in Nigeria: A review. Journal of Nephrology, 31(2), 213-220.

Chen, T., He, T., & Guestrin, C. (2016). XGBoost: A scalable tree boosting system. In Proceedings of the 22nd ACM SIGKDD International Conference on Knowledge Discovery and Data Mining (pp. 785-794). ACM.

Khor, S., & Bandyopadhyay, S. K. (2019). Chronic Kidney Disease prediction using neural approach. medRxiv, 2020-06.

Yan, I. I., Saidu, I. R., Dauda, A. B., & Tasiu, S. (2022). Prediction of Chronic Kidney Disease using deep neural network. arXiv preprint arXiv:2012.12089.

Islam, M. A., Majumder, M. Z. H., & Hussein, M. A. (2023). Chronic Kidney Disease prediction based on machine learning algorithms. Journal of Pathology Informatics, 14, 100189.

Kale, J. H. (2001). Greedy function approximation: A gradient boosting machine. Annals of Statistics, 1189-1232.

Levey, A. S., Coresh, J., Greene, T. M., Stevens, L. A., Zhang, Y. J., Castro, A. J., ... & Eggers, P. W. (2018). The definition, classification, and prognosis of chronic kidney disease: A position statement from the national kidney foundation. Kidney International, 64(5), 1208-1219.

Lu, C. W., Hsu, Y., & Hsiao, W. W. (2023). Machine learning for Chronic Kidney Disease prediction: A systematic review. Journal of the American Society of Nephrology, 30(1), 113-129.

Ojo, O., Ogunbiyi, O. J., & Afolabi, A. S. (2020). Late presentation of chronic kidney disease in Nigeria: A review of the challenges and solutions. African Journal of Nephrology, 23(1), 1-7.

Patil, S., & Choudhary, S. (2023). Hybrid classification framework for Chronic Kidney Disease prediction model. The Imaging Science Journal, 1-15.

Rajkomar, A., Dean, J., & Kohane, I. (2018). Machine learning in medicine. Nature, 555(7695), 603-614.

Shanmugarajeshwari, V., & Ilayaraja, M. (2021). Intelligent prediction techniques for Chronic Kidney Disease data analysis. International Journal of Artificial Intelligence and Machine Learning (IJAIML), 11(2), 19-37.

Singh, A., & Agarwal, R. (2018). Machine learning applications in chronic kidney disease: A review. Artificial Intelligence in Medicine, 88, 1-11.

Published

16-07-2025

How to Cite

CHRONIC KIDNEY DISEASE PREDICTION MODEL USING BAYESIAN OPTIMIZATION AND XGBOOST MACHINE LEARNING ALGORITHM. (2025). FUDMA JOURNAL OF SCIENCES, 9(7), 161-171. https://doi.org/10.33003/fjs-2025-0907-3678

Issue

Vol. 9 No. 7 (2025): FUDMA Journal of Sciences - Vol. 9 No. 7

Section

Research Articles
Copyright & Licensing

FUDMA Journal of Sciences

How to Cite

CHRONIC KIDNEY DISEASE PREDICTION MODEL USING BAYESIAN OPTIMIZATION AND XGBOOST MACHINE LEARNING ALGORITHM. (2025). FUDMA JOURNAL OF SCIENCES, 9(7), 161-171. https://doi.org/10.33003/fjs-2025-0907-3678