Authors: Hui-Min Ting, Tsair-Fwu Lee, Ming-Yuan Cho, Pei-Ju Chao, Chun-Ming Chang, Long-Chang Chen, Fu-Min Fang

Abstract:

To evaluate the ability to predict xerostomia after radiotherapy, we constructed and compared neural network and logistic regression models. In this study, 61 patients who completed a questionnaire about their quality of life (QoL) before and after a full course of radiation therapy were included. Based on this questionnaire, some statistical data about the condition of the patients’ salivary glands were obtained, and these subjects were included as the inputs of the neural network and logistic regression models in order to predict the probability of xerostomia. Seven variables were then selected from the statistical data according to Cramer’s V and point-biserial correlation values and were trained by each model to obtain the respective outputs which were 0.88 and 0.89 for AUC, 9.20 and 7.65 for SSE, and 13.7% and 19.0% for MAPE, respectively. These parameters demonstrate that both neural network and logistic regression methods are effective for predicting conditions of parotid glands.

Keywords: NPC, ANN, logistic regression, xerostomia.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1087372

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References:

[1] T. F. Lee, P. J. Chao, H. M. Ting, S. H. Lo, Y. W. Wang, C. C. Tuan, F. M. Fang, and T. J. Su, "Comparative analysis of SmartArc-based dual arc volumetric-modulated arc radiotherapy (VMAT) versus intensity-modulated radiotherapy (IMRT) for nasopharyngeal carcinoma," J Appl Clin Med Phys, vol. 12, p. 3587, 2011.
[2] C. Y. Hsiung, H. M. Ting, H. Y. Huang, C. H. Lee, E. Y. Huang, and H. C. Hsu, "Parotid-sparing intensity-modulated radiotherapy (IMRT) for nasopharyngeal carcinoma: preserved parotid function after IMRT on quantitative salivary scintigraphy, and comparison with historical data after conventional radiotherapy," Int J Radiat Oncol Biol Phys, vol. 66, pp. 454-61, 2006.
[3] M. Agulnik and J. B. Epstein, "Nasopharyngeal carcinoma: current management, future directions and dental implications," Oral Oncol, vol. 44, pp. 617-27, 2008.
[4] Y. P. Talmi, Z. Horowitz, L. Bedrin, M. Wolf, G. Chaushu, J. Kronenberg, and M. R. Pfeffer, "Quality of life of nasopharyngeal carcinoma patients," Cancer, vol. 94, pp. 1012-7, 2002.
[5] V. W. Wu, M. T. Ying, and D. L. Kwong, "Evaluation of radiation-induced changes to parotid glands following conventional radiotherapy in patients with nasopharygneal carcinoma," Br J Radiol, vol. 84, pp. 843-9, 2011.
[6] J.-C. Shyu and H.-Y. Liou, " The financial distress prediction model under consideration of business cycle and industry factors - the application of logistic regression model and DEA-DA model " Journal of Risk Management, vol. 12, pp. 157-183, 2010.
[7] J. O. Deasy, J. R. Alaly, and K. Zakaryan, "Obstacles and advances in intensity-modulated radiation therapy treatment planning," Front Radiat Ther Oncol, vol. 40, pp. 42-58, 2007.
[8] M. Isaksson, J. Jalden, and M. J. Murphy, "On using an adaptive neural network to predict lung tumor motion during respiration for radiotherapy applications," Med Phys, vol. 32, pp. 3801-9, 2005.
[9] L. Zhang, L. Jia, and W. Zhu, "Overview of traffic flow hybrid ANN forecasting algorithm study," in 2010 International Conference on Computer Application and System Modeling (ICCASM), , 2010, pp. V1-615-V1-619.
[10] M. H. Zweig and G. Campbell, "Receiver-operating characteristic (ROC) plots: a fundamental evaluation tool in clinical medicine," Clin Chem, vol. 39, pp. 561-77, 1993.
[11] H.-L. Chen and D.-W. Tsai, "A study of predictive abilities for different models," Journal of Soil and Water Conservation, vol. 37, pp. 127-138, 2005.
[12] M. Z. Liu, L. L. Tang, J. F. Zong, Y. Huang, Y. Sun, Y. P. Mao, L. Z. Liu, A. H. Lin, and J. Ma, "Evaluation of sixth edition of AJCC staging system for nasopharyngeal carcinoma and proposed improvement," Int J Radiat Oncol Biol Phys, vol. 70, pp. 1115-23, 2008.
[13] A. Lin, H. M. Kim, J. E. Terrell, L. A. Dawson, J. A. Ship, and A. Eisbruch, "Quality of life after parotid-sparing IMRT for head-and-neck cancer: a prospective longitudinal study," Int J Radiat Oncol Biol Phys, vol. 57, pp. 61-70, 2003.
[14] F. M. Fang, W. L. Tsai, T. F. Lee, K. C. Liao, H. C. Chen, and H. C. Hsu, "Multivariate analysis of quality of life outcome for nasopharyngeal carcinoma patients after treatment," Radiother Oncol, vol. 97, pp. 263-9, 2010.
[15] I. Beetz, C. Schilstra, A. van der Schaaf, E. R. van den Heuvel, P. Doornaert, P. van Luijk, A. Vissink, B. F. van der Laan, C. R. Leemans, H. P. Bijl, M. E. Christianen, R. J. Steenbakkers, and J. A. Langendijk, "NTCP models for patient-rated xerostomia and sticky saliva after treatment with intensity modulated radiotherapy for head and neck cancer: the role of dosimetric and clinical factors," Radiother Oncol, vol. 105, pp. 101-6, 2012.
[16] A. Borque, G. Sanz, C. Allepuz, L. Plaza, P. Gil, and L. A. Rioja, "The use of neural networks and logistic regression analysis for predicting pathological stage in men undergoing radical prostatectomy: a population based study," J Urol, vol. 166, pp. 1672-8, 2001.
[17] J. H. Song, S. S. Venkatesh, E. A. Conant, P. H. Arger, and C. M. Sehgal, "Comparative analysis of logistic regression and artificial neural network for computer-aided diagnosis of breast masses," Acad Radiol, vol. 12, pp. 487-95, 2005.
[18] B. Eftekhar, K. Mohammad, H. E. Ardebili, M. Ghodsi, and E. Ketabchi, "Comparison of artificial neural network and logistic regression models for prediction of mortality in head trauma based on initial clinical data," BMC Medical Informatics and Decision Making, vol. 5, p. 3, 2005.