For decades, animal models have been the gold standard for preclinical testing of potential drugs. Yet, even the best animal models are not perfect. For example, small rodent species with engrafted ...

Traditional animal models and simplified cell cultures often fail to capture human biology, limiting progress in biomedical research and drug development. Emerging microfluidic "Organ-on-Chip" ...

insights from industryEmily RichardsonLead ScientistCN-BioIn our latest interview, NewsMedical speaks with CN Bio about the translatability between in vitro Organ-on-a-chip (OOC) models, also known as ...

A research team has successfully recreated the structure of wrinkles in biological tissue in vitro, uncovering the mechanisms behind their formation. A research team consisting of Professor Dong Sung ...

Every year, more than 100 million animals are used globally in biomedical research, yet over 90% of drugs that appear effective in animal trials fail during human clinical testing. 1 This staggering ...

Assembloids: A Versatile Platform for Human Tissue Modeling. This schematic illustrates the classification of assembloids based on four key assembly strategies—multi-region, multi-lineage, ...

New approach methodologies (NAMs) aim to address the limitations of animal models by assessing drug efficacy and safety in a more ethical, human-relevant way. The term ‘NAMs’ encompasses several ...

Osaka, Japan – Most computers run on microchips, but what if we’ve been overlooking a simpler, more elegant computational tool all this time? In fact, what if we were the computational tool? As crazy ...