Dr. Su Ryon Shin, Assistant Professor of Medicine, Brigham and Women’s Hospital, Harvard Medical School, gives a Chemical Engineering seminar titled, "Engineering nano-biomaterials for regenerative ...

Tissue engineering is a set of methods that can replace or repair damaged or diseased tissues with natural, synthetic, or semisynthetic tissue mimics. These mimics can either be fully functional ...

A Japanese team has developed a technique to insert chloroplasts isolated from algae into animal cells, a feat that could ...

Nanostructured materials have become pivotal in advancing the field of tissue regeneration, demonstrating remarkable potential to improve the precision, efficacy, and outcomes of regenerative ...

Head and neck diseases contain tumors, infections, inflammation, and other lesions. These diseases often involve tissues in the mouth, throat, larynx, nasal cavity, paranasal sinuses, ears, and neck.

Ongoing fundamental research on cancer cells could be used to create new drugs and therapies that fight the spread of cancer ...

A new device out of LSU can detect where cancer cells end and healthy tissues begin. Here's what it means for health outcomes ...

Everything is connected. Our efforts to move and improve generate multiple cascading responses within our bodies that can ...

These peptide-based materials material can be shaped and molded into various forms, making them adaptable for different types ...

In what could one day become a new treatment for epilepsy, researchers at UC San Francisco, UC Santa Cruz and UC Berkeley have used pulses of light to prevent seizure-like activity in neurons.

Scientists have created a new 'biocooperative' material based on blood, which has shown to successfully repair bones, paving the way for personalised regenerative blood products that could be used as ...