Animal testing plays a critical role in gaining important knowledge needed to thoroughly evaluate the products towards reducing the health risks and sufferings to human and animals. The current regulatory framework of various countries and FDA permits, encourages, and supports the use of new alternative methods to animal testing that produce scientifically valid data and meet the regulatory requirements.
PredictCan Biotechnologies and PRADO collaborate to develop models for idiosyncratic drug-induced liver injury (iDILI) as an initial step.
PRADO is a Preclinical Research and Development Organization Private Limited, based in Pune India. PRADO is one of the emerging, global, independent market leaders in providing preclinical services. The company supports Pharmaceutical, Biopharma, Biotech, Medical Devices, Pesticides and Agrochemicals, Food, Vaccine, and Animal Health Industries by providing high quality preclinical services to meet their regulatory requirements.
PredictCan Biotechnologies is a French biotech based in Montpellier France. PredictCan has long-lasting expertise in translational research and precision medicine to deliver innovative tools for cancer detection and treatment. The company owns a unique cell educating technology to generate animal-free and non-invasive subject-centric models for iDILI detection and drug efficacy testing. We provide cutting-edge solutions to patients, clinicians, and pharmaceutical industries supporting their combat against diseases.
PredictCan Biotechnologies CEO, Hong Tuan DUONG said that we have developed a novel technology, which offers unique, individual-centric model to analyze iDILI risk. So, this model will reduce the testing time and will be economical.
PRADO CEO, Dr. Pralhad Wangikar said that we are excited to use non-animal and human-relevant methods. Various models are being tested as an alternative to animal testing however, the model developed by PredictCan Biotechnologies is innovative and we look forward that this model will help in predicting the human biology more accurately and can complement, or in some cases, replace traditional animal models.
