The use of tissue engineering in regenerative medicine, known as TERM, is an active area of research that involves creating functional tissue through the combination of cells, scaffolds, and growth ...

In tissue engineering, the technology permits highly complex and even patient-matched scaffold designs, as has been proven in vascular applications. This will provide new treatment pathways based on ...

Quality control of the materials used in various surgical applications is a key challenge for the tissue engineering industry. For example, living human cells are being used in scaffolds to repair ...

We are interested in exploiting the hydrogel environment to study mechanotransduction pathways as well as developing novel scaffolds combined with mechanical conditioning for tissue engineering. In ...

The cells may grow to adopt the shape of the scaffold, so this feature can also be used to generate an implant tissue of the correct shape. In tissue engineering and regenerative medicine, “scaffolds” ...

The process also involves bioreactors, growth factors, transcription factors, scaffolds, and mechanical stimuli to ensure proper tissue development and functionality. (Image: Wikimedia Commons, CC ...

These scaffolds, designed to mimic natural bone ... This study marks a major leap forward in tissue engineering and regenerative medicine. Critical-sized bone defects pose a significant challenge ...

FluidForm Bio™, a leader in cell therapies for chronic diseases such as type 1 diabetes, today announced a major advancement in vascularized tissue engineering. A newly published study in ACS ...

The field of tissue engineering and regeneration encompasses a range of technologies, including biomaterials, stem cell therapy, gene therapy, and 3D printing, among others. The major driving factors ...

Tissue engineering, which combines biomaterials, stem cells, and signaling molecules, has emerged as a promising approach. Studies have shown that scaffolds can provide structural support ...

Neural tissue engineering, spinal cord repair, cardiovascular diseases, drug delivery, biomaterial scaffolds, stem cells, neural electrode/tissue interface, and surface modification.