@article { author = {Tukiendorf, Andrzej and Mansournia, Mohammad Ali and Wydmański, Jerzy and Wolny-Rokicka, Edyta}, title = {Association between Stereotactic Radiotherapy and Death from Brain Metastases of Epithelial Ovarian Cancer: a Gliwice Data Re-Analysis with Penalization}, journal = {Asian Pacific Journal of Cancer Prevention}, volume = {18}, number = {4}, pages = {1113-1116}, year = {2017}, publisher = {West Asia Organization for Cancer Prevention (WAOCP), APOCP's West Asia Chapter.}, issn = {1513-7368}, eissn = {2476-762X}, doi = {10.22034/APJCP.2017.18.4.1113}, abstract = {  Background: Clinical datasets for epithelial ovarian cancer brain metastatic patients are usually small in size. When adequate case numbers are lacking, resulting estimates of regression coefficients may demonstrate bias. One of the direct approaches to reduce such sparse-data bias is based on penalized estimation. Methods: A re- analysis of formerly reported hazard ratios in diagnosed patients was performed using penalized Cox regression with a popular SAS package providing additional software codes for a statistical computational procedure. Results: It was found that the penalized approach can readily diminish sparse data artefacts and radically reduce the magnitude of estimated regression coefficients. Conclusions: It was confirmed that classical statistical approaches may exaggerate regression estimates or distort study interpretations and conclusions. The results support the thesis that penalization via weak informative priors and data augmentation are the safest approaches to shrink sparse data artefacts frequently occurring in epidemiological research.}, keywords = {small number datasets,sparse data bias,penalized Cox regression}, url = {https://journal.waocp.org/article_46025.html}, eprint = {https://journal.waocp.org/article_46025_2a5a9f9242c1036028fc7092d5b07e31.pdf} }