Author(s)

Chi-Chang Chang

School of Medical Informatics, Chung Shan Medical University, Taichung, Chinese Taipei.

Risk modeling for recurrent cervical cancer requires the development of new concepts and methodologies. Unlike most daily decisions, many medical decision making have substantial consequences, and involve important uncertainties and trade-offs. The uncertainties may be about the accuracy of available diagnostic tests, the natural history of the cervical cancer, the effects of treatment in a patient or the effects of an intervention in a group or population as a whole. With such complex decisions, it can be difficult to comprehend all options “in our heads”. This study applied Bayesian decision analysis to an inferential problem of recurrent cervical cancer in survival analysis. A formulation is considered where individual was expected to experience repeated events, along with concomitant variables. In addition, the sampling distribution of the observations is modelled through a proportional intensity Nonhomogeneous Poisson process. The proposed decision models can provide decision support techniques not only for taking action in the light of all available relevant information, but also for minimizing expected loss. The decision process is useful in selecting the best alternative when a patient with recurrent cervical cancer, in particular, the proposed decision process can provide more realistic solutions.

Bayesian Inference, Recurrent Event, Nonhomogeneous Poisson Process, Cervical Cancer

Chang, C. (2014) Bayesian Decision Analysis for Recurrent Cervical Cancer. Open Journal of Clinical Diagnostics, 4, 71-77. doi: 10.4236/ojcd.2014.42013.