SUBSTITUTES BONES

Brand	Owner (click to sort)	Address	Description
BARCLAY	BM KOREA CO., LTD.	325-26 bunji, Dangjeong-dong Gunpo-si 15847 Republic of Korea	Substitutes for bones, cartilage, ligaments, and tendons; Osseous implants; Artificial bones for implantation; Endoprostheses; Artificial cartilage; Artificial ligament; Bone Cement; Synthetic Bone; Bone graft material;
EOS	CELLUMED CO., LTD.	RM402, ACETECHNO TOWER-9, 345-30 GASAN-DONG, GEUMCHEON-GU SEOUL Republic of Korea	Substitutes for bones, cartilage, ligaments and tendons; osseous implants, artificial bone parts to be implanted in natural bones, surgical implants comprising artificial materials; bone substitutes for surgical use, [ artificial skin for surgical purposes, ] artificial bones for implantation, subcutaneous valves for implantation, artificial joints, artificial cartilage, artificial ligaments, artificial jaws;
TIOSS	KIM, Sung O	127-1601 270 Sinbanpo-ro, Seocho-gu Seoul 06544 Republic of Korea	Substitutes for bones, cartilage, ligaments and tendons; bone retractors; bone setting machines and instruments; bone forceps; osseous implants made of artificial materials; artificial bone parts to be implanted in natural bones; surgical implants made of artificial materials; surgical splints; bone substitutes for surgical use; splints for medical purposes; artificial bones for implantation; artificial joints; endoprostheses; artificial jaws; forceps for dental technical purposes; medical implants made of artificial materials; fixtures for medical implants, namely, bone screws, and surgical instruments for fitting implants; materials for medical implants, namely, bone void fillers made of artificial materials and implantable ports; dental implants;
	Where the owner name is not linked, that owner no longer owns the brand

Technical Examples

A method for creating an animated image of the bones of a body part is described. The steps include converting Computed Axial Tomography (CAT or CT) scan and Magnetic Resonance Imaging (MRI) 2-dimensional cross-sectional images (slices) into 3-dimensional images of individual bones (FIG. 1). A first ordered series of slices of a body part in a first position is converted into a 3-dimensional representation of the skeleton of the body part and then a second ordered series of slices of the same body part in a different position is converted. The converted images are then used to create a step frame animation of the movement of the skeleton of the body part. Additional ordered series of slices of the body part in other intermediate positions could be used in the step frame animation. The steps of the method may also include the process of separating the bones if they are depicted as co-joined in a slice (FIGS. 6 and 7). The method can also include the identification of isometric points (FIGS. 8 to 11) on the separated bones to aid a clinician in the diagnosis of a problem or abnormality as well as assist in the application of "what if" surgical procedures on the digital representation of the skeleton of the scanned body part. The method can also include steps that create movement of the bones of the body part by applying rules of motion for one or more points on the separated bones of the scanned body part.