Traditional surgery to reshape a nose or ear entails cutting and suturing, sometimes followed by long recovery times and scars. But now, researchers have developed a “molecular sur... Read more
Injectable material made of nanoscale particles can deliver arthritis drugs throughout cartilage. Osteoarthritis, a disease that causes severe joint pain, affects more than 20 mill... Read more
EPFL researchers have developed a hydrogel – made up of nearly 90% water – that naturally adheres to soft tissue like cartilage and the meniscus. If the hydrogel carries repair cel... Read more
The unparalleled liquid strength of cartilage, which is about 80 percent water, withstands some of the toughest forces on our bodies. Synthetic materials couldn’t match it—un... Read more
Technique uses 3-D weaving to grow a living hip replacement With a goal of treating worn, arthritic hips without extensive surgery to replace them, scientists have programmed stem... Read more
Cells could be exploited to treat osteoarthritis and osteoporosis A stem cell capable of regenerating both bone and cartilage has been identified in bone marrow of mice. The discov... Read more
Human articular cartilage defects can be treated with nasal septum cells. Researchers at the University and the University Hospital of Basel report that cells taken from the nasal... Read more
Pioneering ‘tweezers’ that use ultrasound beams to grip and manipulate tiny clusters of cells under electronic, push-button control could lead to life-changing medical advances, su... Read more
Cartilage damage is the most common form of joint disease. Recently, the German biotechnology company Amedrix has developed collagen implants for damaged cartilage that allow cells... Read more
Scientists at the University of Basel report first ever successful nose reconstruction surgery using cartilage grown in the laboratory. Cartilage cells were extracted from the pati... Read more
Duke researchers use gene therapy to direct stem cells into becoming new cartilage on a synthetic scaffold even after implantation into a living body By combining a synthetic scaff... Read more
Melbourne scientists have been able to “grow” human cartilage from stem cells with the help of 3D printing technologies developed at the University of Wollongong. Scien... Read more
A team of researchers led by a Boston University Biomedical Engineer has developed a new joint lubricant that could bring longer lasting relief to millions of osteoarthritis suffer... Read more
Tissue engineering combined with gene therapy technology has the potential to manage the repair of defective articular cartilage. Researchers at Micro Orthopaedics, Zhongnan Hospit... Read more
Rush University Medical Center is conducting the nation’s first clinical study of an innovative stem cell drug, Cartistem, to repair knee cartilage damaged by aging, trauma or dege... Read more
