Add to ORKGWe present a novel method to support precise insertion of engineered osteochondral grafts by pulling from the bone layer, thereby minimizing iatrogenic damage associated with direct manipulation of the cartilage layer. Grafts were generated by culturing human expanded chondrocytes on Hyaff®-11 meshes, sutured to Tutobone® spongiosa cylinders. Through the bone layer, shaped to imitate the surface-contours of the talar dome, two sutures were applied: the first for anterograde implantation, to pull the graft into the defect, and the second for retrograde correction, in case of a too deep insertion. All grafts could be correctly positioned into osteochondral lesions created in cadaveric ankle joints with good fit to the surrounding cartilage. I...
Purpose: Articular resurfacing by treatment of chondral defects may include chondral abrasion, autol...
IntroductionCurrent tissue engineering strategies to heal critical-size bone defects through direct ...
Damaged cartilage tissue has no functional replacement alternatives and current therapies for bone i...
In this study, we aimed at developing and validating a technique for the engineering of osteochondra...
Smooth articular cartilage is vital for the pain free movement of the joint, therefore the formation...
SummaryIntroductionAutologous osteochondral grafting is in widespread use for focal defects of artic...
Tissue engineering is the combination of cells, biomaterials and growth factors to stimulate the reg...
SummaryObjectiveMatrix-associated autologous chondrocyte implantation has been used to treat cartila...
Damage to articular cartilage, whether through degeneration (i.e. osteoarthritis) or acute injury, i...
Articular cartilage is often damaged due to trauma or degenerative diseases, resulting in severe pa...
The ability of human articular cartilage to respond to injury is poor. Once cartilage damage has oc...
Background: Osteochondral lesions of the knee are difficult to manage. Such lesions can be effective...
rthroplasty is currently the only surgical procedure available to restore joint function following a...
Background: Autologous chondrocyte implantation (ACI) in the ankle was considered up to now an extre...
Articular hyaline cartilage in the knee joint is crucial for smooth movement and support of the bone...
Purpose: Articular resurfacing by treatment of chondral defects may include chondral abrasion, autol...
IntroductionCurrent tissue engineering strategies to heal critical-size bone defects through direct ...
Damaged cartilage tissue has no functional replacement alternatives and current therapies for bone i...
In this study, we aimed at developing and validating a technique for the engineering of osteochondra...
Smooth articular cartilage is vital for the pain free movement of the joint, therefore the formation...
SummaryIntroductionAutologous osteochondral grafting is in widespread use for focal defects of artic...
Tissue engineering is the combination of cells, biomaterials and growth factors to stimulate the reg...
SummaryObjectiveMatrix-associated autologous chondrocyte implantation has been used to treat cartila...
Damage to articular cartilage, whether through degeneration (i.e. osteoarthritis) or acute injury, i...
Articular cartilage is often damaged due to trauma or degenerative diseases, resulting in severe pa...
The ability of human articular cartilage to respond to injury is poor. Once cartilage damage has oc...
Background: Osteochondral lesions of the knee are difficult to manage. Such lesions can be effective...
rthroplasty is currently the only surgical procedure available to restore joint function following a...
Background: Autologous chondrocyte implantation (ACI) in the ankle was considered up to now an extre...
Articular hyaline cartilage in the knee joint is crucial for smooth movement and support of the bone...
Purpose: Articular resurfacing by treatment of chondral defects may include chondral abrasion, autol...
IntroductionCurrent tissue engineering strategies to heal critical-size bone defects through direct ...
Damaged cartilage tissue has no functional replacement alternatives and current therapies for bone i...