Cedars-Sinai Pioneers AI Avatars to Reduce Animal Testing

Cedars-Sinai Receives $5M⁣ ARPA-H Contract to Develop AI-Powered Drug Toxicity Prediction Platform

Cedars-Sinai has been awarded a $5.05 million contract from the Advanced Research Projects Agency for Health (ARPA-H) to develop KronosRx, a groundbreaking artificial intelligence ​(AI) platform designed to predict drug toxicity with unprecedented accuracy. This initiative directly addresses a critical challenge ‍in pharmaceutical advancement – the high failure rate of clinical trials ⁣due to adverse drug reactions (ADRs) that are frequently enough⁢ missed by customary animal models.

KronosRx represents a paradigm shift in drug safety assessment, moving beyond reliance on animal proxies to a multi-modal system integrating biological hardware and⁢ sophisticated computational software.⁤ The platform utilizes “patient avatars” – ⁤miniature, ​functioning human organ models created from induced​ pluripotent stem cells (iPSCs) – alongside millions of​ anonymized‌ data points from Cedars-Sinai’s⁢ extensive Electronic Health Record (EHR) network.

These organoids,including models of the heart and brain,mimic real-time human responses ⁢to experimental drugs. ⁤The resulting data is then‌ analyzed by deep-learning‍ AI models, enabling “dynamic” modeling that accounts for individual patient⁤ variables such as⁣ age, existing health conditions, and concurrent ​medications – factors often overlooked in conventional testing.

The⁢ project is led by Nicholas ⁤Tatonetti,‌ PhD, Vice Chair of Computational Biomedicine at Cedars-Sinai, and brings together‍ a team⁣ of experts‍ in‍ regenerative and computational medicine,⁤ including Clive Svendsen, PhD, Arun Sharma, PhD,⁣ and Graciela‌ gonzalez-Hernandez, PhD.

Currently, over 30% of clinical trials fail due to‍ unforeseen toxicities, resulting‌ in ⁤ample financial losses and delays in bringing potentially life-saving therapies to patients. KronosRx aims to significantly reduce this failure rate, accelerate drug development timelines, and ultimately improve patient safety. By ​proactively identifying potential risks, the platform promises to navigate the “valley of death”⁤ in drug development and deliver safer, more effective treatments to those in need.