1
Daniel A Grande, Paul A Lucas: Mesenchymal stem cells for cartilage repair. Morphogen Pharmaceuticals, North Shore University Hospital Research Corporation, Klauber & Jackson, May 25, 1999: US05906934 (380 worldwide citation)

It has been discovered that mesenchymal stem cells (MSCs) in a polymeric carrier implanted into a cartilage and/or bone defect will differentiate to form cartilage and/or bone, as appropriate. Suitable polymeric carriers include porous meshes or sponges formed of synthetic or natural polymers, as we ...


2
Daniel A Grande, Paul A Lucas: Mesenchymal stem cells for cartilage repair. MorphoGen Pharmaceuticals, Klauber & Jackson, April 10, 2001: US06214369 (237 worldwide citation)

It has been discovered that mesenchymal stem cells (MSCs) in a polymeric carrier implanted into a cartilage and/or bone defect will differentiate to form cartilage and/or bone, as appropriate. Suitable polymeric carriers include porous meshes or sponges formed of synthetic or natural polymers, as we ...


3
Grande Daniel A, Lucas Paul A: Mesenchymal stem cells for cartilage repair. Morphogen Pharmaceuticals, North Shore Univ Hospital, January 7, 1998: EP0815203-A1 (3 worldwide citation)

It has been discovered that mesenchymal stem cells (MSCs) in a polymeric carrier implanted into a cartilage and/or bone defect will differentiate to form cartilage and/or bone, as appropriate. Suitable polymeric carriers include porous meshes or sponges formed of synthetic or natural polymers, as we ...


4
Grande Daniel A, Lucas Paul A: Mesenchymal stem cells for cartilage repair. Morphogen Pharmaceuticals, North Shore University Hospital, FEHLNER Paul F, September 19, 1996: WO/1996/028539

It has been discovered that mesenchymal stem cells (MSCs) in a polymeric carrier implanted into a cartilage and/or bone defect will differentiate to form cartilage and/or bone, as appropriate. Suitable polymeric carriers include porous meshes or sponges formed of synthetic or natural polymers, as we ...