FDA Signs Collaborative Agreement with Emulate
Emulate, Inc. has entered into a Cooperative Research and Development Agreement (CRADA) with the U.S. Food and Drug Administration’s (FDA) Office of Foods and Veterinary Medicine. Under this multi-year CRADA, Emulate and FDA will collaborate to evaluate and qualify the use of Emulate’s Organs-on-Chips technology as a platform for toxicology testing to meet regulatory evaluation criteria for products – including foods, dietary supplements and cosmetics. The CRADA studies will use Emulate’s Human Emulation System™, comprised of Organ-Chips, instrumentation and software apps. The system recreates the natural physiology of specific human tissues and organs, and is designed to provide a predictive model of human response to diseases, medicines, chemicals, and foods with greater precision and detail than other preclinical testing methods, such as cell culture or animal-based experimental testing.
“We are excited to begin this relationship with FDA as a potential first step toward accelerating the adoption of our Human Emulation System for broad application as a new testing platform for a wide range of products that are reviewed and approved by regulatory authorities to protect and improve human health.” – Geraldine A. Hamilton, Ph.D., President and Chief Scientific Officer of Emulate.
The collaborative research under the CRADA will be led by FDA’s Division of Toxicology, within the Office of Applied Research and Safety Assessment, which will have an onsite installation of the Human Emulation System for experimental testing at FDA. The near-term goal of the collaboration is to evaluate and qualify the human-relevant testing capabilities of the Human Emulation System, including correlation with existing cross-species toxicology data on human health effects of chemical and microbiological contaminants in food, dietary supplements, and cosmetic products.
“We are looking forward to combining our expertise with leading researchers at FDA to explore how our Organs-on-Chips technology integrates with existing product testing frameworks – opening the potential for a new paradigm for establishing improved standards, creating more predictive models, and helping to better evaluate safe products for human use,” said Geraldine A. Hamilton, Ph.D., President and Chief Scientific Officer of Emulate. “We are excited to begin this relationship with FDA as a potential first step toward accelerating the adoption of our Human Emulation System for broad application as a new testing platform for a wide range of products that are reviewed and approved by regulatory authorities to protect and improve human health.”
The collaborative studies under the CRADA will utilize the Human Emulation System, specifically various Liver-Chips developed by Emulate, in an applied toxicology setting to assess the system’s capabilities to predict the effects on human biology of chemical and microbiological hazards found in foods, cosmetics and dietary supplements. These activities will enable FDA to review and provide feedback on the performance and application of the Emulate system for FDA research. It will also enable Emulate to use the information obtained from FDA during this study for further development and improvement of its Human Emulation System. In the collaboration, FDA and Emulate researchers will initially use Emulate’s Liver-Chip from multiple species (Human Liver-Chip, Dog Liver-Chip, and Rat Liver-Chip), to conduct studies to assess the cross-species differences in toxicology data between humans and animal species. The collaborators plan to publish the data and findings from the CRADA studies.
The CRADA collaboration agreement allows for future expansion to additional Organ-Chips, including the Intestine-Chip, Lung-Chip, and Cardiac systems. Depending on the evolution of the research and additional areas of interest, Emulate may conduct further training of FDA researchers on the Human Emulation System.
Mini-brains Reveal Insights into Human Brain DevelopmentNews
Yale scientists have coaxed early stage stem cells to create and fuse two types of organoids from different brain regions to show how the developing brain maintains proper balance of excitatory and inhibitory neurons.READ MORE
A Rogue Gene is Causing Seizures in Babies. Here’s How MSU Wants to Stop itNews
The researchers are closer to understanding the source of the seizures, a gene known as GNAO1 and the transformations it can take on, and potentially stopping its devastating effects by uncovering key differences in the way it functions.READ MORE
Comments | 0 ADD COMMENT
8th International Symposium on Recent Advances in Food Analysis (RAFA 2017)
Nov 07 - Nov 10, 2017
6th Edition of International Conference on Pharmacognosy and Medicinal Plants
Apr 16 - Apr 17, 2018