Researchers recently developed a bone marrow model to study how the body generates cells. Interestingly, this model is the ...

Organoids—self-organizing, self-reproducing structures that serve as 3D in vitro models—date back to 2009. Back then, researchers at the Hubrecht Institute led by Hans Clevers, PhD, introduced a ...

Advanced 3D cell models recreate the complexity of human tissues, enabling researchers to examine tumor progression, probe neurological disorders, and assess therapeutic candidates. By capturing the ...

Neural tissue engineering aims to mimic the brain's complex environment, the extracellular matrix, which supports nerve cell growth, development, and proper connectivity. This environment is carefully ...

Article reviewed by Julía Crispim da Fontoura, a PhD candidate at the Federal University of Health Sciences of Porto Alegre, Brazil who uses organoids to study drug resistance. Stay up to date on the ...

MIT scientists have developed a new 3D human brain tissue model that could change how researchers study neurological diseases. The platform, called Multicellular Integrated Brains or miBrains, ...

Scientists at the University of Osaka have developed a novel hydrogel that enables the efficient, three-dimensional (3D) ...

Researchers have recreated a miniature human bone marrow system that mirrors the real structure found inside our bones. The ...

Organoid-on-chip technology merges patient-derived organoids with microfluidic engineering to recreate human physiology and ...

Before cells can divide by mitosis, they first need to replicate all of their chromosomes, so that each of the daughter cells can receive a full set of genetic material. Scientists have until now ...