"This research provides crucial insights into how the immune system functions in sickle cell disease," said Dr. Karina Yazdanbakhsh, Vice President and Director of Research at New York Blood Center ...

Contracting Rhesus EHM suspended in Ringer solution. Spontaneous contractions of EHM can be readily observed. Credit: Nature (2025). DOI: 10.1038/s41586-024-08463-0 The approval of this clinical ...

The application of these targeted delivery strategies within the LNP framework ensures efficient delivery of therapeutic agents to specific organs or cell types, thereby maximizing therapeutic ...

Neurons are cells in the body that are responsible for transmitting electrical signals through the nervous system. Different types of neurons affect the ability to move, which begins as an impulse, or ...

Bruce Rapport Faculty of Medicine, Technion–Israel Institute of Technology, Haifa, Israel (I.R.H., N.K., C.B., O.C.). The Clinical Research Institute at Rambam ...

It feels like the Splinter Cell remake has been on its way for a while now, which isn't helped by the fact it's been over three years since we heard anything official about the game. From what we ...

This process is particularly concerning because excessive iron deposition can lead to oxidative stress, mitochondrial dysfunction, and ultimately, heart failure ... and cytoprotective systems to ...

Health workers in the eastern district of Budaka in Bukedi Sub-region have registered a decline in cases of sickle cell disease that had deeply affected families and communities in the district.

These shape-morphing behaviours are essential for sculpting heart cell development and maturation. The University of Galway research team recognised this and developed a novel bioprinting ...

A team of researchers led by Emory’s Chunhui Xu recently found that heart muscle cells can grow -and survive in the microgravity environment of space. Her findings, published in Biomaterials ...

A team of researchers led by Emory's Chunhui Xu recently found that heart muscle cells can grow and survive in the microgravity environment of space. The team's findings, published in Biomaterials ...

A team of researchers led by Emory's Chunhui Xu recently found that heart muscle cells can grow -and survive in the microgravity environment of space. Her findings, published in Biomaterials ...