The present disclosure relates to a bone graft composition, and more particularly, to a bone graft composition including hydroxypropyl methylcellulose and a preparation method therefor. Moreover, the present disclosure relates to a bone graft composition that has an optimal composition ratio at which the dissolution rate of hydroxypropyl methylcellulose is excellent. In addition, the present disclosure relates to a bone graft composition containing hydroxypropyl methylcellulose in an amount that provides shape retainability, and a preparation method therefor. More specifically, the present disclosure relates to a bone graft composition containing hydroxypropyl methylcellulose in an amount that provides an optimum osmotic pressure and shape retainability, and a preparation method therefor.

The present disclosure relates to a bone graft composition, and more particularly, to a bone graft composition including hydroxypropyl methylcellulose and a preparation method therefor. Moreover, the present disclosure relates to a bone graft composition that has an optimal composition ratio at which the dissolution rate of hydroxypropyl methylcellulose is excellent. In addition, the present disclosure relates to a bone graft composition containing hydroxypropyl methylcellulose in an amount that provides shape retainability, and a preparation method therefor. More specifically, the present disclosure relates to a bone graft composition containing hydroxypropyl methylcellulose in an amount that provides an optimum osmotic pressure and shape retainability, and a preparation method therefor.

The present disclosure is concerned with magneto-patterned cell-laden hydrogel materials and methods of making and using those materials. The disclosed materials are useful for, among other things, repair of tissue defects, e.g., tissue at a tissue interface such as a bone-cartilage interface.

The present disclosure is concerned with magneto-patterned cell-laden hydrogel materials and methods of making and using those materials. The disclosed materials are useful for, among other things, repair of tissue defects, e.g., tissue at a tissue interface such as a bone-cartilage interface.

The invention relates to the field of bioresorbable or non-bioresorbable bone substitutes to be implanted in humans in order to reconstitute the bone supply by replacing lost bone substance. More particularly, the invention concerns a device that is simple to manufacture and use and comprises a syringe provided with a single-use dose of a polymer which is fluid at the injection temperature while being solid and durable at body temperature.

The invention relates to the field of bioresorbable or non-bioresorbable bone substitutes to be implanted in humans in order to reconstitute the bone supply by replacing lost bone substance. More particularly, the invention concerns a device that is simple to manufacture and use and comprises a syringe provided with a single-use dose of a polymer which is fluid at the injection temperature while being solid and durable at body temperature.

The invention relates to the field of bioresorbable or non-bioresorbable bone substitutes to be implanted in humans in order to reconstitute the bone supply by replacing lost bone substance. More particularly, the invention concerns a device that is simple to manufacture and use and comprises a syringe provided with a single-use dose of a polymer which is fluid at the injection temperature while being solid and durable at body temperature.

The invention features biodegradable materials, and in vitro and in vivo methods of using such compositions to promote bone and soft tissue growth and healing.

The invention features biodegradable materials, and in vitro and in vivo methods of using such compositions to promote bone and soft tissue growth and healing.

The invention features biodegradable materials, and in vitro and in vivo methods of using such compositions to promote bone and soft tissue growth and healing.