Authors: Jinn-Yi Yeh, Tai-Hsi Wu

Abstract:

Hemodialysis patients might suffer from unhealthy care behaviors or long-term dialysis treatments. Ultimately they need to be hospitalized. If the hospitalization rate of a hemodialysis center is high, its quality of service would be low. Therefore, how to decrease hospitalization rate is a crucial problem for health care. In this study we combined temporal abstraction with data mining techniques for analyzing the dialysis patients' biochemical data to develop a decision support system. The mined temporal patterns are helpful for clinicians to predict hospitalization of hemodialysis patients and to suggest them some treatments immediately to avoid hospitalization.

Keywords: Hemodialysis, Temporal abstract, Data mining, Healthcare quality.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1331129

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References:

[1] C. G. Tan. (2004) Interpretation of periodic examination results of dialysis patients.
[Online]. Available: http://www.kidney.org.tw/doc/49/01.doc
[2] Y. Shahar, "A framework for knowledge-based temporal abstraction," Artificial Intelligence, vol. 90, pp. 79-133, 1997.
[3] K. P. Adlassnig, C. Combi, A. K. Das, E. T. Keravnou, and G. Pozzi, "Temporal representation and reasoning in medicine: research directions and challenges," Artificial Intelligence in Medicine, vol. 38, pp. 101-113, 2006.
[4] M. Stacey, and C. McGregor, "Temporal abstraction in intelligent cinical data analysis: A survey," Artificial Intelligence in Medicine, vol. 39, pp. 1-24, 2007.
[5] R. Bellazzi, C. Larizza, P. Magni, and R. Bellazzi, "Temporal data mining for the quality assessment of hemodialysis services," Artificial Intelligence in Medicine, vol. 34, pp. 25-39, 2005.
[6] U. Fayyad, G. P. Shapiro, and P. Smyth, "From data mining to knowledge discovery in databases," AI Magazine, vol. 17, no. 3, pp. 37-54, 1996.
[7] R. Bellazzi, and B. Zupan, "Predictive data mining in clinical medicine: current issues and guidelines," International Journal of Medical Informatics, vol. 77, no.2, pp. 81-97, 2008.
[8] A. Kusiak, B. Dixon, and S. Shah, "Predicting survival time for kidney dialysis patients: A data mining approach," Computers in Biology and Medicine, vol. 35, pp. 311-327, 2005.
[9] J. Demsar, B. Zupan, N. Aoki, M. J. Wall, T .H. Granchi, and J. R. Beck, "Feature mining and predictive model construction from severe trauma patient's data," International Journal of Medical Informatics, vol. 63, pp. 41-50, 2001.
[10] M. J. Huang, M. Y. Chen, and S. C. Lee, "Integrating data mining with case-based reasoning for chronic," Expert Systems with Applications, vol. 32, pp. 856-867, 2007.
[11] V. Podgorelec, P. Kokol, M. M. Stiglic, M. Hericko, and I. Rozman, "Knowledge discovery with classification rules in a cardiovascular dataset," Computer Methods and Programs in Biomedicine, vol. 80, pp. S39-S49, 2005.
[12] H. H. Feng. (2005). Prevention and treatment of dialysis patients' heart failure.
[Online]. Available: http://www.kidney.org.tw/doc/51/03.doc
[13] G. Q. Hong, "Multiple-minimum-support association rule mining for hospitalization prediction of hemodialysis patients," M.S. thesis, Department of Information Engineering, National Tung Hua University, Taiwan, 2004.
[14] J. F. Allen, "Towards a general theory of action and time," Artificial Intelligence, vol. 23, pp. 123-154, 1984.
[15] N. Lavrac, E. Keravnou, and B. Zupan, "Intelligent data analysis in medicine," In: Kent A., editor, Encyclopedia of Computer Science and Technology, vol. 42, New York, USA, Basel: Marcel Dekker, 2000, pp. 113-57.
[16] T. B. Ho, T. D. Nguyen, S. Kawasaki, S. Q. Le, D. D. Nguyen, H. Yokoi, and K. Takabayashi, "Mining hepatitis data with temporal abstraction," ACM SIGKDD International Conference on Knowledge Discovery & Data Mining, Washington, DC, USA, 2003.
[17] M. Kantardzic, Data Mining: Concepts, Models, Methods, and Algorithms, John Wiley, New York, 2003.
[18] Y. H. Ding, M. Y. Chen, Data Mining, Canghai Books, Taiwan, 2003.
[19] B. Liu, W. Hsu, and Y. Ma, "Mining association rules with multiple minimum supports," ACM SIGKDD International Conference on knowledge Discovery & Data Mining (KDD-99), San Diego, CA, USA, 1999.
[20] T. Takabayashi, T. B. Ho, H. Yokoi, T. D. Nguyen, S. Kawasaki, and S. Q. Le, "Temporal abstraction and data mining with visualization of laboratory data," Medinfo 2007 Congress, Brisbane, pp. 1304-1308, 2007.
[21] I. H. Witten and E. Frank, Data Mining: Practical Machine Learning Tools and Techniques, 2nd Ed., Morgan Kaufmann, New York, USA, 2005.