Synthetic Dataset Generation
KerusCloud® can be used to generate highly realistic synthetic datasets for use in a wide variety of analytics applications in the life sciences sector and beyond.
The KerusCloud® platform has proved to be a core part of our decision-making as it allows us to prospectively tailor study designs as new information becomes available.
Generate Synthetic Clinical Data for Smarter, Safer Research
KerusCloud® offers advanced synthetic data generation for clinical research, helping teams simulate realistic patient-level datasets without compromising privacy. Whether you’re designing trials, building external control arms, or training AI models, KerusCloud® enables you to generate high-quality data that mirrors real-world conditions. This empowers faster, safer decision-making—especially when access to real data is limited, sensitive, or incomplete.
Synthetic data is data which has been generated using purpose-built computer simulations, mathematical/statistical models or algorithms. Synthetic data is generated to meet specific needs or certain conditions that may not be found in the original, real data. It has many applications across multiple industries including:
- Market research and business intelligence
- Testing and validating software products and systems
- Building and testing algorithms
- Predictive modelling, machine learning and AI
Synthetic data is useful in clinical research, where it can be used:
- In clinical trial design optimization to maximize chance of success.
- To create external control arms for clinical trials to save time and resources.
- In anonymization to enable the sharing of regulated or sensitive data.
- To create large, auto labelled data for predictive modelling, machine learning and AI to address issues of imbalanced data.
Within KerusCloud® is a synthetic data generator. It can handle diverse and complex data collected from disparate data sources and produce synthetic datasets from them. KerusCloud’s exceptional modelling capability allows it to incorporate realistic characteristics into the synthetic datasets it produces such as missing data, truncation and censoring. It can model the inter-correlation between subject-level data such as subgroups and strata, risk factors/covariates and multiple outcomes and data types. This delivers a highly realistic synthetic version of the original data.
Suggested For You
news
June 19th, 2025
MMS Wins in the 2025 Fierce CRO Awards for Excellence in Client Service and Partnership and Dr. Uma Sharma Named CRO Champion
perspectives
June 17th, 2025
Solving Data Complexity with Real-Time Insights, Predictive AI, and Smarter Decision-Making with Datacise
regulatory intelligence
June 16th, 2025
Key MedDRA Coding Gaps Highlighted at the ISCTM 2025 Scientific Meeting
perspectives
June 10th, 2025
Applying Artificial Intelligence (AI) and Real-World Evidence to Boost Efficiency in Patient Safety Narratives
perspectives
June 3rd, 2025
Choosing the Right Strategy: Parallel, Sequential, and Staggered Regulatory Submissions
news
May 28th, 2025
MMS Named Finalist for Fierce CRO Award in Excellence in Client Service and Partnership, CEO shortlisted for the CRO Champion Award
perspectives
May 28th, 2025
A Season of Change: Why the REMS Industry Consortium Matters More Than Ever
perspectives
May 20th, 2025
Navigating FDA OMOR Meetings: A Comprehensive Guide to Type X, Y, and Z Meetings for OTC Drug Sponsors
perspectives
May 6th, 2025
Why Clinical Trial Simulation Is Reshaping Drug Development: A Q&A with Dr. Aiden Flynn
perspectives
April 24th, 2025
How to Derisk Clinical Development with Unified Trial Design and Regulatory Strategy
perspectives
April 8th, 2025
Updated UK Clinical Trial Regulation: The Key Changes and Impact on Development Safety Update Report (DSUR) Requirements
news
April 3rd, 2025
Datacise by MMS Wins 2025 Data Breakthrough Award for Best Data Science Solution