In this free webinar, gain insight into how model-informed drug development uses early PK/PD data, extrapolation and simulation to enable earlier, regulator-ready pediatric dose selection with fewer ...

Scientists have developed a device smaller than a toddler's shoebox -- called Lattice --that can simulate any human disease in up to eight organs (cell cultures from a human organ) or test new drugs ...

Holly has a degree in Medical Biochemistry from the University of Leicester. Her scientific interests include genomics, personalized medicine, and bioethics.View full profile Holly has a degree in ...

There are also differences between particles expelled through the nose or mouth. Because these factors impact disease transmission, the researchers wanted to design a respiratory model that was as ...

STOCKHOLM, April 4, 2023 /PRNewswire/ -- BioArctic AB (publ) (NASDAQ Stockholm: BIOA B) today announced that its partner Eisai has published an article about long-term health outcomes of ...

A new computer simulation of how our brains develop and grow neurons has been built. Along with improving our understanding of how the brain works, researchers hope that the models will contribute to ...

"We know that healthcare providers value hands-on approaches to learning, and technology like the Spatial Computing Injection Simulator can make a huge difference for the surgeons and advanced ...

Device can manipulate which organ is driving a disease to study its downstream effects Can serve as intermediate step between animal studies and clinical trials to test new drugs ‘We wanted to make it ...

(Nanowerk News) Imagine a device smaller than a toddler’s shoebox that can simulate any human disease in multiple organs or test new drugs without ever entering — or harming — the body. Scientists at ...