Abstract 838P
Background
In the survival prognosis of patients with multiple myeloma, there are staging models based on Cox survival models. Current staging models do not include patients with missing data, although there are multiple investigations where the problem of missing information is very common. This situation causes results that do not represent the reality of the populations, generating biases in the true results of the research and excluding patients both in training and in the application of the model to new patients.
Methods
To solve this problem, a survival model based on Bayesian statistics was built that not only allowed us to impute the missing data of patients with multiple Myeloma using statistical methods but also allowed us to predict new patients with missing data. This model was built and tuned using data from multiple myeloma patients from a public database from a study conducted in Arkansas.
Results
The results of the Bayesian model allowed us to estimate the survival of patients with missing information. Additionally, when compared with the classic Cox models in patients with complete data, the performance metrics did not deteriorate (concordance index of 72% and 71% respectively) in patients with complete data. In addition, it allows for estimating survival and staging the risk of patients with multiple myeloma with missing data, maintaining the concordance rate at 71%.
Conclusions
A model that performs as well as Cox models in patients with complete data and maintains this performance in patients with missing data is achieved. It also allows the prediction of new patients who are diagnosed with multiple myeloma without the restriction that their complete clinical or genetic data is needed.
Clinical trial identification
Editorial acknowledgement
Legal entity responsible for the study
The authors.
Funding
Has not received any funding.
Disclosure
All authors have declared no conflicts of interest.
Resources from the same session
1192P - Optimizing lung cancer screening: Independent verification of an AI/ML computer-aided detection and characterization software as medical device
Presenter: Sylvain Bodard
Session: Poster session 09
1194P - Development of a novel artificial intelligence (AI) algorithm to detect pulmonary nodules on chest radiography
Presenter: Mitsunori Higuchi
Session: Poster session 09
1195P - Whole-body magnetic resonance imaging (WB-MRI) screening in Li Fraumeni syndrome for early cancer diagnosis: The SIGNIFIED project
Presenter: Elena Cojocaru
Session: Poster session 09
1196P - Organoid growth-based oncological sensitivity test (OncoSensi) for predicting adjuvant therapy outcomes in ovarian cancer patients
Presenter: Dong Woo Lee
Session: Poster session 09
1197P - Ex vivo basket study reports patient-specific sensitivity to carboplatin versus cisplatin in lung, ovarian and bladder cancer
Presenter: Debbie Robbrecht
Session: Poster session 09
1198P - Analytical validation of an NGS panel-based ecDNA detection device for use as a clinical trial assay for the POTENTIATE clinical study of the novel CHK1 inhibitor, BBI-355
Presenter: Pontis Julien
Session: Poster session 09