Aukland-Vanderbilt
Lotspeich S, Shepherd BE, Amorim G, Shaw PA, Tao R. Efficient odds ratio estimation under two-phase sampling using error-prone data from a multi-national HIV research cohort. Biometrics 2021 July; Epub ahead of print.
Lotspeich S, Shepherd BE, Amorim G, Shaw PA, Tao R. Efficient odds ratio estimation under two-phase sampling using error-prone data from a multi-national HIV research cohort. Biometrics 2021 July; Epub ahead of print.
Boe LA, Tinker LF, Shaw PA: An Approximate Quasi-Likelihood Approach for Error-Prone Failure Time Outcomes and Exposures. Statistics in Medicine (In Press). Pre-Print
Boe LA, Tinker LF, Shaw PA: An Approximate Quasi-Likelihood Approach for Error-Prone Failure Time Outcomes and Exposures. Statistics in Medicine (in press). Pre-Print
Giganti MJ, Shepherd BE. Multiple imputation variance estimation in studies with missing or misclassified inclusion criteria. American Journal of Epidemiology 2020; 189: 1628-1632.
Giganti MJ, Shepherd BE. Multiple imputation variance estimation in studies with missing or misclassified inclusion criteria. American Journal of Epidemiology 2020; 189: 1628-1632.
Chen T, Lumley T. Optimal multiwave sampling for regression modeling in two-phase designs. Statistics in medicine 2020 12 30; 39 (30) 4912-4921
Chen T, Lumley T. Optimal multiwave sampling for regression modeling in two-phase designs. Statistics in Medicine 2020 12 30; 39 (30) 4912-4921. PDF
Amorim G, Tau R, Lotspeich SC, Shaw PA, Lumley T, Shepherd BE. Two-Phase Sampling Designs for Data Validation in Settings with Covariate Measurement Error and Continuous Outcome. To appear in Journal of the Royal Statistical Society, Series A.
Amorim G, Tau R, Lotspeich SC, Shaw PA, Lumley T, Shepherd BE. Two-Phase Sampling Designs for Data Validation in Settings with Covariate Measurement Error and Continuous Outcome. Journal of the Royal Statistical Society, Series A (in press)
Oh E, Shepherd BE, Lumley T, Shaw PA: Improved Generalized Raking Estimators to Address Dependent Covariate and Failure-Time Outcome Error. Biometrical Journal. 2021 Jun; 63(5):1006-27
Oh E, Shepherd BE, Lumley T, Shaw PA: Improved Generalized Raking Estimators to Address Dependent Covariate and Failure-Time Outcome Error. Biometrical Journal. 2021 Jun; 63(5):1006-27. PDF
Baldoni P, Sotres-Alvarez D, Lumley TS, Shaw PA. On the use of Regression Calibration in a Complex Sampling Design with Application to the Hispanic Community Health Study/Study of Latinos. American Journal of Epidemiology, 2021; kwab008
Baldoni P, Sotres-Alvarez D, Lumley TS, Shaw PA. On the use of Regression Calibration in a Complex Sampling Design with Application to the Hispanic Community Health Study/Study of Latinos. American Journal of Epidemiology, 2021 July; 190(7): 1366–1376. PDF
Oh EJ, Shepherd BE, Lumley T, Shaw PA. Raking and regression calibration: Methods to address bias from correlated covariate and time-to-event error. Statistics in Medicine. 2021;40(3):631–649.
Oh EJ, Shepherd BE, Lumley T, Shaw PA. Raking and regression calibration: Methods to address bias from correlated covariate and time-to-event error. Statistics in Medicine. 2021;40(3):631–649. [PDF]
Tau R, Lotspeich SC, Shaw PA, Shepherd BE. Efficient semiparametric inference for two-phase studies with outcome and covariate measurement errors. Statistics in Medicine, 2021; 40(3):725–738.
Tau R, Lotspeich SC, Shaw PA, Shepherd BE. Efficient semiparametric inference for two-phase studies with outcome and covariate measurement errors. Statistics in Medicine, 2021; 40(3):725–738.
Han K, Lumley T, Shepherd BE, Shaw PA: Two-phase analysis and study design for survival models with error-prone exposures. Statistical Methods in Medical Research, 2020 Dec 16.
Han K, Lumley T, Shepherd BE, Shaw PA: Two-phase analysis and study design for survival models with error-prone exposures. Statistical Methods in Medical Research, 2020 Dec 16. [PDF]