The Charles Stark Draper Laboratory Inc. has joined forces with the U.S. Department of Defense (DoD) to screen pathogens, toxins and diseases using its high-throughput organ-chip devices. As part of a concerted effort to develop new medical countermeasures against biological and chemical threats, organs-on-a-chip provide directly applicable insights into human responses and enable testing on organs developed from a diverse pool of live donors prior to human trials.
Biological Dynamics Inc.’s Verita platform correctly identified 96% of patients with stage I pancreatic cancer, a study in Nature Communications Medicine demonstrated. The platform uses protein biomarkers present in extracellular vesicles and showed an overall 71% sensitivity and 99.5% specificity in pathologically confirmed stage I and II pancreatic, ovarian and bladder cancer.
Quris Technologies Ltd. has inked an agreement with Merck KGaA to assess its BioAI safety prediction platform. The partnership will compare the Quris’ artificial intelligence (AI)-based platform with traditional in vivo and in vitro approaches of evaluating drug safety concerns.
Hesperos Inc.'s Human-on-a-Chip in vitro system demonstrated two types of responses of the immune system in a study conducted with Hoffman-La Roche Pharmaceuticals and the University of Central Florida.
Hesperos Inc.'s human-on-a-chip in vitro model for the first time successfully predicted human response to two drugs. The multi-organ model provided new insight into the drugs' cardiotoxic effects in a study published in Nature Scientific Reports. The Orlando, Fla.-based company also recently demonstrated that its model could simultaneously measure cancer drug efficacy and off-target toxicity without animal models or human testing.