High-resolution 3D womb model gives insights into embryo implantation, infertility, and signals between embryo and mother, ...

Then researchers placed blastoids and embryos donated after infertility treatments inside the little device and watched it ...

The model allows scientists to study interactions between the womb and embryo, and look for causes behind implantation ...

Researchers found that cold is detected differently in the skin than in internal organs. This split system helps explain why ...

By engineering a system replicating the womb lining with high biological accuracy, researchers at the Babraham Institute and Stanford University have been able to study the implantation of human ...

By engineering a system replicating the womb lining with high biological accuracy, researchers at the Babraham Institute and ...

Scientists have developed an experimental way to study how human embryos implant in a uterus, which may provide new insights ...

Using a combination for spatial, single-cell transcriptomics and imaging data from 36 hearts, scientists from the KTH Royal Institute of Technology and their collaborators have come up with what they ...

Researchers at the University of Cambridge have developed a lab-grown embryo-like model called “hematoids”, which self-organises from stem cells to mimic very early human development. After about two ...

The team observed the emergence of the three-dimensional embryo-like structures under a microscope in the lab. These started producing blood (seen here in red) after around two weeks of development - ...

Every human life begins as a cluster of cells that soon face critical decisions. Within weeks, those cells must choose their fates – some forming the nervous system, others the gut, heart, or muscle.

Although embryonic stem cells (ESCs) have been successfully derived from mice and rats, efforts to establish chimeric and germline-competent ESC lines in species beyond rodents have been unsuccessful.