PURPOSE: To study the impact of different statistical learning methods on the prediction performance of multivariate normal tissue complication probability (NTCP) models. METHODS AND MATERIALS: In this study, three learning methods, stepwise selection, least absolute shrinkage and selection operator (LASSO), and Bayesian model averaging (BMA), were used to build NTCP models of xerostomia following radiotherapy treatment for head and neck cancer. Performance of each learning method was evaluated by a repeated cross-validation scheme in order to obtain a fair comparison among methods. RESULTS: It was found that the LASSO and BMA methods produced models with significantly better predictive power than that of the stepwise selection method. Furthermore, the LASSO method yields an easily interpretable model as the stepwise method does, in contrast to the less intuitive BMA method. CONCLUSIONS: The commonly used stepwise selection method, which is simple to execute, may be insufficient for NTCP modeling. The LASSO method is recommended. Copyright Â
PURPOSE: To study the impact of different statistical learning methods on the prediction performance of multivariate normal tissue complication probability (NTCP) models. METHODS AND MATERIALS: In this study, three learning methods, stepwise selection, least absolute shrinkage and selection operator (LASSO), and Bayesian model averaging (BMA), were used to build NTCP models of xerostomia following radiotherapy treatment for head and neck cancer. Performance of each learning method was evaluated by a repeated cross-validation scheme in order to obtain a fair comparison among methods. RESULTS: It was found that the LASSO and BMA methods produced models with significantly better predictive power than that of the stepwise selection method. Furthermore, the LASSO method yields an easily interpretable model as the stepwise method does, in contrast to the less intuitive BMA method. CONCLUSIONS: The commonly used stepwise selection method, which is simple to execute, may be insufficient for NTCP modeling. The LASSO method is recommended. Copyright Â
Authors: Laura Cella; Jung Hun Oh; Joseph O Deasy; Giuseppe Palma; Raffaele Liuzzi; Vittoria D'avino; Manuel Conson; Marco Picardi; Marco Salvatore; Roberto Pacelli Journal: Acta Oncol Date: 2015-03-24 Impact factor: 4.089
Authors: Joshua S Niedzielski; Jinzhong Yang; Zhongxing Liao; Daniel R Gomez; Francesco Stingo; Radhe Mohan; Mary K Martel; Tina M Briere; Laurence E Court Journal: Int J Radiat Oncol Biol Phys Date: 2016-07-21 Impact factor: 7.038
Authors: Oscar Casares-Magaz; Ludvig Paul Muren; Vitali Moiseenko; Stine E Petersen; Niclas Johan Pettersson; Morten Høyer; Joseph O Deasy; Maria Thor Journal: Acta Oncol Date: 2017-09-08 Impact factor: 4.089
Authors: Jamie A Dean; Kee H Wong; Liam C Welsh; Ann-Britt Jones; Ulrike Schick; Kate L Newbold; Shreerang A Bhide; Kevin J Harrington; Christopher M Nutting; Sarah L Gulliford Journal: Radiother Oncol Date: 2016-05-27 Impact factor: 6.280