A research team from the South Australian Health and Medical Research Institute (SAHMRI) has identified a previously unknown type of cell that could revolutionize tissue repair and regeneration in ...

Researchers have demonstrated that a genetic switch for organ regeneration exists, after restoring damaged outer ears in mice ...

Techvest, LLC's first annual conference on Tissue Repair, Replacement and Regeneration was held October 27-28, 1999 in New York, NY, and featured 50 presenting companies and eight lectures by ...

A new machine learning approach identifies cellular senescence at single-cell resolution across varying cell types and tissue ...

A research team from Northwest University, China, has developed a breakthrough nano-composite hydrogel system to address the ...

Getting stem cells to help repair brain tissue after injury relies on the survival of those cells. Now, a hybrid gel that helps provide the much-needed oxygen for those cells on site may be the ...

RGS12: A key regulator in tissue repair and human health. Compuscript Ltd. Journal Genes & Diseases DOI 10.1016/j.gendis.2024.101480 ...

Tissue engineering utilizes 3D printing and bioink to grow human cells on scaffolds, creating replacements for damaged tissues like skin, cartilage, and even organs. A team of researchers led by ...

The technology for 3D printing human tissue has improved over the years, but it’s still an extremely slow process.Part of this is due to how each cell needs to be arranged, as well as how easily ...

Scientists merged human brain-like tissue with a computer chip in order to help teach small robotic systems how to navigate obstacles, as well as how to track and grasp items.

The tiny blobs of lab-grown human brain tissue were just specks, each measuring a few millimeters in diameter. Researchers at Stanford University made them by cultivating human stem cells into ...