Patrick Caubel scite author profile

Purpose: There is a need to develop hybrid trial methodology combining the best parts of traditional randomized controlled trials (RCTs) and observational study designs to produce real-world evidence (RWE) that provides adequate scientific evidence for regulatory decision-making. Methods: This review explores how hybrid study designs that include features of RCTs and studies with real-world data (RWD) can combine the advantages of both to generate RWE that is fit for regulatory purposes. Results: Some hybrid designs include randomization and use pragmatic outcomes; other designs use single-arm trial data supplemented with external comparators derived from RWD or leverage novel data collection approaches to capture longterm outcomes in a real-world setting. Some of these approaches have already been successfully used in regulatory decisions, raising the possibility that studies using RWD could increasingly be used to augment or replace traditional RCTs for the demonstration of drug effectiveness in certain contexts. These changes come against a background of long reliance on RCTs for regulatory decision-making, which are labor-intensive, costly, and produce data that can have limited applicability in real-world clinical practice. Conclusions: While RWE from observational studies is well accepted for satisfying postapproval safety monitoring requirements, it has not commonly been used to demonstrate drug effectiveness for regulatory purposes. However, this position is changing as regulatory opinions, guidance frameworks, and RWD methodologies are evolving, with growing recognition of the value of using RWE that is acceptable for regulatory decision-making.

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Nirmatrelvir–Ritonavir and Viral Load Rebound in Covid-19

Anderson

Caubel

Rusnak

2022

N Engl J Med

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Innovation in Pharmacovigilance: Use of Artificial Intelligence in Adverse Event Case Processing

Schmider

Kumar

LaForest

et al. 2018

Clin Pharma and Therapeutics

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Automation of pharmaceutical safety case processing represents a significant opportunity to affect the strongest cost driver for a company's overall pharmacovigilance budget. A pilot was undertaken to test the feasibility of using artificial intelligence and robotic process automation to automate processing of adverse event reports. The pilot paradigm was used to simultaneously test proposed solutions of three commercial vendors. The result confirmed the feasibility of using artificial intelligence–based technology to support extraction from adverse event source documents and evaluation of case validity. In addition, the pilot demonstrated viability of the use of safety database data fields as a surrogate for otherwise time‐consuming and costly direct annotation of source documents. Finally, the evaluation and scoring method used in the pilot was able to differentiate vendor capabilities and identify the best candidate to move into the discovery phase.

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The hope, hype and reality of Big Data for pharmacovigilance

Bate

Reynolds

Caubel

2017

Therapeutic Advances in Drug Safety

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Facial nerve palsy including Bell's palsy: Case definitions and guidelines for collection, analysis, and presentation of immunisation safety data

Rath

Gidudu²,

Anyoti

et al. 2017

Vaccine

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Patrick Caubel

Trial designs using real‐world data: The changing landscape of the regulatory approval process

Nirmatrelvir–Ritonavir and Viral Load Rebound in Covid-19

Innovation in Pharmacovigilance: Use of Artificial Intelligence in Adverse Event Case Processing

The hope, hype and reality of Big Data for pharmacovigilance

Facial nerve palsy including Bell's palsy: Case definitions and guidelines for collection, analysis, and presentation of immunisation safety data

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