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Autori principali: Petrakos, Niki Z., Moodie, Erica E. M., Savy, Nicolas
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2501.17719
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author Petrakos, Niki Z.
Moodie, Erica E. M.
Savy, Nicolas
author_facet Petrakos, Niki Z.
Moodie, Erica E. M.
Savy, Nicolas
contents Generation of realistic synthetic data has garnered considerable attention in recent years, particularly in the health research domain due to its utility in, for instance, sharing data while protecting patient privacy or determining optimal clinical trial design. While much work has been concentrated on synthetic image generation, generation of realistic and complex synthetic tabular data of the type most commonly encountered in classic epidemiological or clinical studies is still lacking, especially with regards to generating data for randomized controlled trials (RTCs). There is no consensus regarding the best way to generate synthetic tabular RCT data such that the underlying multivariate data distribution is preserved. Motivated by an RCT in the treatment of Human Immunodeficiency Virus, we empirically compared the ability of several strategies and two generation techniques (one machine learning, the other a more classical statistical method) to faithfully reproduce realistic data. Our results suggest that using a sequential generation approach with a R-vine copula model to generate baseline variables, followed by a simple random treatment allocation to mimic the RCT setting, and subsequent regression models for variables post-treatment allocation (such as the trial outcome) is the most effective way to generate synthetic tabular RCT data that capture important and realistic features of the real data.
format Preprint
id arxiv_https___arxiv_org_abs_2501_17719
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Framework for Generating Realistic Synthetic Tabular Data in a Randomized Controlled Trial Setting
Petrakos, Niki Z.
Moodie, Erica E. M.
Savy, Nicolas
Other Statistics
Generation of realistic synthetic data has garnered considerable attention in recent years, particularly in the health research domain due to its utility in, for instance, sharing data while protecting patient privacy or determining optimal clinical trial design. While much work has been concentrated on synthetic image generation, generation of realistic and complex synthetic tabular data of the type most commonly encountered in classic epidemiological or clinical studies is still lacking, especially with regards to generating data for randomized controlled trials (RTCs). There is no consensus regarding the best way to generate synthetic tabular RCT data such that the underlying multivariate data distribution is preserved. Motivated by an RCT in the treatment of Human Immunodeficiency Virus, we empirically compared the ability of several strategies and two generation techniques (one machine learning, the other a more classical statistical method) to faithfully reproduce realistic data. Our results suggest that using a sequential generation approach with a R-vine copula model to generate baseline variables, followed by a simple random treatment allocation to mimic the RCT setting, and subsequent regression models for variables post-treatment allocation (such as the trial outcome) is the most effective way to generate synthetic tabular RCT data that capture important and realistic features of the real data.
title A Framework for Generating Realistic Synthetic Tabular Data in a Randomized Controlled Trial Setting
topic Other Statistics
url https://arxiv.org/abs/2501.17719