Browse Items (9 total)

This study compares bovine chondrocytes harvested from four different animal locations-nasoseptal, articular, costal, and auricular-for tissue-engineered cartilage modeling. While the work serves as a preliminary investigation for fabricating a human…

To determine the potential development in vivo of tissue-engineered auricular cartilage, chondrocytes from articular cartilage of bovine forelimb joints were seeded on poly(L-lactic acid-epsilon-caprolactone) copolymer scaffolds molded into the shape…

Tissue-engineered models of human phalanges have previously been fabricated from a combination of bovine periosteum, cartilage, tendon, and biodegradable polyglycolic acid and poly-L-lactic acid scaffolds. Resulting constructs implanted in athymic…

One of the intents of tissue engineering is to fabricate biological materials for the augmentation or replacement of impaired, damaged, or diseased human tissue. In this context, novel models of the human phalanges have been developed recently…

An increasing number of bioactive materials are indicated for the treatment of chronic lower extremity ulcers. They are promising adjuncts to standard therapy. When used in conjunction with standard therapy for venous leg ulcers and diabetic foot…

PURPOSE OF REVIEW: Stem cell-based therapies for preventing and treating chronic end-organ dysfunction have captured the imagination of the lay public and spurred scientific and clinical development in multiple disciplines and disease states. The…

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