Details

Autor(en) / Beteiligte

• Duan, Rui
• Boland, Mary Regina
• Liu, Zixuan
• Liu, Yue
• Chang, Howard H
• Xu, Hua
• Chu, Haitao
• Schmid, Christopher H
• Forrest, Christopher B
• Holmes, John H
• Schuemie, Martijn J
• Berlin, Jesse A
• Moore, Jason H
• Chen, Yong

Titel

Learning from electronic health records across multiple sites: A communication-efficient and privacy-preserving distributed algorithm

Ist Teil von

• Journal of the American Medical Informatics Association : JAMIA, 2020-03, Vol.27 (3), p.376-385

Ort / Verlag

England: Oxford University Press

Erscheinungsjahr

2020

Link zum Volltext

Quelle

Oxford Journals 2020 Medicine

Beschreibungen/Notizen

• We propose a one-shot, privacy-preserving distributed algorithm to perform logistic regression (ODAL) across multiple clinical sites. ODAL effectively utilizes the information from the local site (where the patient-level data are accessible) and incorporates the first-order (ODAL1) and second-order (ODAL2) gradients of the likelihood function from other sites to construct an estimator without requiring iterative communication across sites or transferring patient-level data. We evaluated ODAL via extensive simulation studies and an application to a dataset from the University of Pennsylvania Health System. The estimation accuracy was evaluated by comparing it with the estimator based on the combined individual participant data or pooled data (ie, gold standard). Our simulation studies revealed that the relative estimation bias of ODAL1 compared with the pooled estimates was <3%, and the ratio of standard errors was <1.25 for all scenarios. ODAL2 achieved higher accuracy (with relative bias <0.1% and ratio of standard errors <1.05). In real data analysis, we investigated the associations of 100 medications with fetal loss during pregnancy. We found that ODAL1 provided estimates with relative bias <10% for 85% of medications, and ODAL2 has relative bias <10% for 99% of medications. For communication cost, ODAL1 requires transferring p numbers from each site to the local site and ODAL2 requires transferring (p×p+p) numbers from each site to the local site, where p is the number of parameters in the regression model. This study demonstrates that ODAL is privacy-preserving and communication-efficient with small bias and high statistical efficiency.