摘要:
A flexible, bendable organic decalcified or partially decalcified bone, cortical or cancellous, adapted for use in augmentation or repair of animal skeletal structures comprising a continuous plate or sheet of natural bone, as well as dermis is described. The thickness, flexibility and tensile strength of the construct is such as to allow it to be shaped and contoured without damage to it. The composition is ultimately remodeled by the body, thus obviating the need for additional surgical intervention. The clinical indications for the use of the invented construct are many, but are particularly prominent in dentistry, oral and maxillofacial surgery and implantology. It is particularly useful in the maxillary sinus augmentation. A unique new method, different from previously described methods for the preparation of the disclosed constructs, is described.
摘要:
Provided are procedures and instruments for preparing and transplanting osteochondral allograft plugs to a host bone to repair an articular cartilage defect. An allograft bone plug having a cartilage plate and cancellous bone tissue attached thereto is removed from a donor bone. The allograft plug is further shaped by removing or cutting away cancellous bone tissue to form a cancellous stalk extending from the cartilage plate. The formed cancellous stalk can have any suitable shape including cylindrical, conical, and rectilnear. At the recipient site of the host bone, a cutout is formed corresponding in shape to the allograft plug. The allograft plug is inserted into the cutout such that the cancellous stalk is retained in the host bone and the cartilage plate aligns with the condyle surface of the host bone. Aspects of the invention may also be applicable to preparing and transplanting osteochondral autograft plugs.
摘要:
An implantable bone-containing composition and a method for making same are disclosed. The compositions includes sterilized bone, which has been exposed to a dose of radiation in excess of about 45 kGy in the absence of radio-protective agents. The sterilized bone has higher osteogenic capacity than bone sterilized at the conventional dose of between 15 kGy and 35 kGy, approaching or surpassing the osteogenic capacity of the bone prior to irradiation.