News

Scientists at Columbia Engineering have developed an injectable hydrogel made from yogurt-derived extracellular vesicles (EVs) that could revolutionize regenerative medicine. These EVs serve both as ...
Researchers from Columbia Engineering have established a framework for the design of bioactive injectable hydrogels ...
Bioengineered organs are no longer just structural substitutes. A review published in Trends in Biotechnology introduces a ...
Researchers have developed a powerful new tool that makes it easier to study the mix of cell types in human tissue, which is ...
The global biotechnology market size is projected to surpass USD 5.71 trillion by 2034, driven by breakthroughs in biologics, tissue engineering, regenerative therapies, and chromatography. With a ...
The new method is essentially a novel platform technology that can be used to print wide-ranging tissue and organ types.
A recent study published in the journal Engineering delves into the application of tissue engineering in spinal cord injury (SCI) repair, presenting a comprehensive review of the latest research ...
Electrospider from Bio3DPrinting is shaping the future of bioprinting, tackling challenges like vascularization, and navigating regulatory landscapes.
An international research team has discovered a new type of skeletal tissue that offers great potential for advancing regenerative medicine and tissue engineering.
An "out-of-this-world" project has the potential to transform the future of tissue engineering and liver transplantation through innovative research conducted aboard the International Space ...
O’Donohue was recently awarded a grant from The Kosciuszko Foundation to research micro fluidic approaches to tissue engineering that result in more accurate tissue models, more precisely mimicking ...
Nanofiber scaffolds have gained significant attention in the field of bone tissue engineering. Electrospinning, a straightforward and efficient technique for producing nanofibers, has been extensively ...