AI-Enabled Virtual Screening Tool Identifies Most Promising Approved Drugs in Treating COVID
NISO Member News
New York, NY | February 18 2021
WorldQuant Predictive (WQP), an AI predictive products company, and CAS, a division of the American Chemical Society that specializes in scientific information solutions, have partnered to develop a groundbreaking methodology that can save time and lives by helping research teams rapidly prioritize the most promising drug candidates to treat COVID-19 and other critical diseases. The scientific paper detailing this methodology and collaboration was recently published in the peer-reviewed journal, ACS Omega.
Overlaying WQP’s novel AI technology platform, Quanto™, with the exhaustive repository of data from the CAS REGISTRY®, the groundbreaking initiative was led by WQP scientific advisor and former Pfizer Senior Vice President in research and development, Kelvin Cooper, Ph.D. The goal of this project was to create a virtual screening tool model that can be replicated by outside researchers and biopharmaceutical companies to quickly identify compounds to treat COVID-19 and other diseases. Using a well-studied medicinal chemistry tool known as quantitative structure activity relationships, or QSAR, the team evolved the model from human-led input.
“The promise of AI and machine learning has always been to make better, faster predictions,” said Jim Golden, CEO of WorldQuant Predictive. “This new AIenabled virtual screening tool is a quicker, more assured path to helping medical researchers identify cures across disease states, including other emerging viruses. It can cut critical time off the search for cures, virtually screening for successful therapies in a week instead of the typical six to eight months.”
This project applied AI tools such as feature engineering, embedding, and other novel modeling techniques in crucial areas. The result is smarter detection of patterns that might otherwise not be seen by researchers, enabling them to distinguish compounds based on a target fingerprint.
“The COVID-19 pandemic has served as a powerful accelerator of collaboration and technology opportunities within healthcare,” said CAS President Manuel Guzman. “This project demonstrates the power of uniting the complementary expertise and assets of two highly specialized organizations to accelerate solutions for an urgent problem. The resulting approach has great potential beyond COVID-19 to expedite drug discovery pipelines for other critical diseases.”
The findings, along with a detailed description of the methodology, key data sets, and identified candidates are available to the research community on the WorldQuant Predictive website.
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About WorldQuant Predictive
WorldQuant Predictive (WQP) is an AI predictions company that delivers highly accurate and industry leading speed-toprediction products within weeks, allowing customers to see around corners and rapidly solve their business problems. Using WQP’s proprietary ML cloud-based platform, Quanto™, our data scientists create thousands of models quickly, using customer and alternative data, finding signals others miss. WQP delivers resilient solutions that companies can seamlessly integrate and scale across their enterprises, giving them powerful insights to make better decisions. WorldQuant Predictive was founded by Igor Tulchinsky and has offices in the United States and Hungary. It is a separate entity from WorldQuant, LLC, a global quantitative asset management firm.For more information on WQP, please visit https://wqpredictive.com.
About CAS
CAS, a division of the American Chemical Society specializing in scientific information solutions, partners with R&D organizations globally to provide actionable insights that help them plan, innovate, protect their innovations, and predict how new markets and opportunities will evolve. Scientists, patent professionals and business leaders rely on CAS solutions and services to advise discovery and strategy. With more than 110 years' experience, no one knows more about scientific information than CAS. For more information, visit www.cas.org.