New research reveals how cell sizes and clumping create sharp animal coat patterns, enhancing our understanding of nature's ...

A biomedical researcher combining advanced mouse models with human-based and computational approaches explains why we can’t ...

A new study has revealed how a natural compound in our cells can reverse brain deficits in animal models of Alzheimer’s ...

Researchers have developed the first bioengineered human bone-marrow model to test CAR T-cell therapies for ­acute myeloid ...

UCR scientists create a fully synthetic model for growing brain cells that could allow for animal-free drug testing.

Researchers have created functional brain-like tissue without relying on any animal-derived materials, marking a major step toward more ethical and reproducible neurological research.

In the UK, there was a case where TGN1412, an immunotherapy under development, triggered a cytokine storm within hours of ...

For the first time, scientists have grown functional, brain-like tissue without using any animal-derived materials or added biological coatings. The development opens the door to more controlled and ...

Scientists at the University of Glasgow have successfully used the first bioengineered bone marrow model to carry out vital cancer research, offering new insights into potential therapies for the ...

Infection research stands at the forefront of global health initiatives, particularly considering emerging pathogens and ...

Technology opens the door to more accurate preclinical testing, which could enable the development of safer and more effective therapies.

Animal testing is costly, slow, and poorly predictive. ORIVA offers a human-relevant alternative with the potential to change that.