A demineralized bone matrix (DBM) scaffold product comprising a plurality of elongate demineralised bone fibres mechanically interconnected with one another in a regular and repeating pattern.

A demineralized bone matrix (DBM) scaffold product comprising a plurality of elongate demineralised bone fibres mechanically interconnected with one another in a regular and repeating pattern.

The present invention provides a polyethylene glycol derivative comprising a repeat unit having the structure of Formula (I) and a terminal group having the structure of Formula (II). The polyethylene glycol derivative provided by the present invention has good biocompatibility, due to the repeat unit having the structure of Formula (I); and can react with various groups such as amino, (acyl)hydrazino, and aminooxy with a fast reaction rate under mild reaction conditions, due to the o-phthalaldehyde terminal group having the structure of Formula (II). The polyethylene glycol derivative provided by the present invention is mixed with polyethylene glycol having an amino-containing terminal group in an aqueous medium, to rapidly form a chemically cross-linked hydrogel material. The hydrogel material has mild preparation conditions, fast gel-forming speed, high mechanical strength, and good stability. This polyethylene glycol hydrogel can be applied as drug sustained-release carrier, tissue engineering scaffold, etc. in the field of biomedical materials.

The present invention provides a polyethylene glycol derivative comprising a repeat unit having the structure of Formula (I) and a terminal group having the structure of Formula (II). The polyethylene glycol derivative provided by the present invention has good biocompatibility, due to the repeat unit having the structure of Formula (I); and can react with various groups such as amino, (acyl)hydrazino, and aminooxy with a fast reaction rate under mild reaction conditions, due to the o-phthalaldehyde terminal group having the structure of Formula (II). The polyethylene glycol derivative provided by the present invention is mixed with polyethylene glycol having an amino-containing terminal group in an aqueous medium, to rapidly form a chemically cross-linked hydrogel material. The hydrogel material has mild preparation conditions, fast gel-forming speed, high mechanical strength, and good stability. This polyethylene glycol hydrogel can be applied as drug sustained-release carrier, tissue engineering scaffold, etc. in the field of biomedical materials.

To provide a sliding member having improved wear resistance, and a method of manufacturing the sliding member. A femoral head ball according to an aspect of the present disclosure includes a composite ceramic containing alumina and at least one oxide other than alumina. A surface roughness Ra of the sliding surface when the femoral head ball slides against a constituent member constituting an artificial joint is not more than 0.01 μm. The sliding surface includes a plurality of recessed portions each having an opening diameter of not more than 2 μm.

To provide a sliding member having improved wear resistance, and a method of manufacturing the sliding member. A femoral head ball according to an aspect of the present disclosure includes a composite ceramic containing alumina and at least one oxide other than alumina. A surface roughness Ra of the sliding surface when the femoral head ball slides against a constituent member constituting an artificial joint is not more than 0.01 μm. The sliding surface includes a plurality of recessed portions each having an opening diameter of not more than 2 μm.

Closed disposable seeding systems with improved seeding chambers permitting uniform seeding of a scaffold or graft with patient's cells are provided. The seeding chambers with a variable width along the length of the chamber, or a minimal gap between the scaffold and chamber wall, provide an improvement of the prior seeding chambers of closed disposable seeding systems by providing faster and more efficient and uniform seeding of the grafts and scaffolds. Also described are scaffolds with biomechanical and structural properties permitting spontaneous reversal of stenosis and neotissue formation as the graft degrades yielding a scaffold-free neovessel.

Closed disposable seeding systems with improved seeding chambers permitting uniform seeding of a scaffold or graft with patient's cells are provided. The seeding chambers with a variable width along the length of the chamber, or a minimal gap between the scaffold and chamber wall, provide an improvement of the prior seeding chambers of closed disposable seeding systems by providing faster and more efficient and uniform seeding of the grafts and scaffolds. Also described are scaffolds with biomechanical and structural properties permitting spontaneous reversal of stenosis and neotissue formation as the graft degrades yielding a scaffold-free neovessel.

Closed disposable seeding systems with improved seeding chambers permitting uniform seeding of a scaffold or graft with patient's cells are provided. The seeding chambers with a variable width along the length of the chamber, or a minimal gap between the scaffold and chamber wall, provide an improvement of the prior seeding chambers of closed disposable seeding systems by providing faster and more efficient and uniform seeding of the grafts and scaffolds. Also described are scaffolds with biomechanical and structural properties permitting spontaneous reversal of stenosis and neotissue formation as the graft degrades yielding a scaffold-free neovessel.

A scaffold for tissue repair or wound dressing comprising: a material layer; a polymer fibre layer; and an adhesive component between the material layer and the polymer fibre layer, wherein the adhesive component comprises material having a lower melting temperature (Tm) than the material layer and the polymer fibre layer.