The effect of a biphasic injectable bone substitute on the interface strength in a rabbit knee prosthesis model

[1] Weiss RJ(2011)A modular cementless stem vs. cemented long-stem prostheses in revision surgery of the hip. A population-based study from the Swedish Hip Arthroplasty Register Acta Orthop 82 136-142

[2] Stark A(2011)Revision total hip arthroplasty: the femoral side using cemented implants International Orthopaedics (SICOT) 35 267-273

[3] Kärrholm J(1999)Comparative bone growth behavior in granules of bioceramic materials of various sizes J Biomed Mater Res 44 31-43

[4] Holt G(2010)Osteotomy of distal radius fracture malunion using a fast remodeling bone substitute consisting of calcium sulphate and calcium phosphate J Biomed Mater Res B Appl Biomater 92 281-286

[5] Hook S(2012)Bone healing using a bi-phasic ceramic bone substitute demonstrated in human vertebroplasty and with histology in rabbit cancellous bone defect model Interv Neuroradiol 18 105-113

[6] Hubble M(2004)Biodegradation and biocompatibility of a calcium sulphate-hydroxyapatite bone substitute J Bone Joint Surg 86 120-125

[7] Oonishi H(2004)The use of an injectable bone graft substitute in tibial metaphyseal fractures Orthopedics 27 s103-s107

[8] Hench LL(2005)Injectable calcium phosphate cement for bone repair and implant fixation OrthopClin North Am 36 89-95

[9] Wilson J(1994)Bone formation in the presence of phagocytosable hydroxyapatite particles Clin Orthop 304 272-279

[10] Sugihara F(2000)Load-bearing increases new bone formation in impacted and morselized allografts Clin Orthop 378 274-281

[1] Weiss RJ(2011)A modular cementless stem vs. cemented long-stem prostheses in revision surgery of the hip. A population-based study from the Swedish Hip Arthroplasty Register Acta Orthop 82 136-142

[2] Stark A(2011)Revision total hip arthroplasty: the femoral side using cemented implants International Orthopaedics (SICOT) 35 267-273

[3] Kärrholm J(1999)Comparative bone growth behavior in granules of bioceramic materials of various sizes J Biomed Mater Res 44 31-43

[4] Holt G(2010)Osteotomy of distal radius fracture malunion using a fast remodeling bone substitute consisting of calcium sulphate and calcium phosphate J Biomed Mater Res B Appl Biomater 92 281-286

[5] Hook S(2012)Bone healing using a bi-phasic ceramic bone substitute demonstrated in human vertebroplasty and with histology in rabbit cancellous bone defect model Interv Neuroradiol 18 105-113

[6] Hubble M(2004)Biodegradation and biocompatibility of a calcium sulphate-hydroxyapatite bone substitute J Bone Joint Surg 86 120-125

[7] Oonishi H(2004)The use of an injectable bone graft substitute in tibial metaphyseal fractures Orthopedics 27 s103-s107

[8] Hench LL(2005)Injectable calcium phosphate cement for bone repair and implant fixation OrthopClin North Am 36 89-95

[9] Wilson J(1994)Bone formation in the presence of phagocytosable hydroxyapatite particles Clin Orthop 304 272-279

[10] Sugihara F(2000)Load-bearing increases new bone formation in impacted and morselized allografts Clin Orthop 378 274-281