Total hip arthroplasty using a three-dimensional porous titanium acetabular cup: an examination of micromotion using subject-specific finite element analysis

Curtis MJ(1992)The initial stability of uncemented acetabular components J Bone Joint Surg (Br) 74 372-376

Jinnah RH(2008)Initial stability of press-fit acetabular components: an in vitro biomechanical study Am J of orthop (Belle Mead, NJ) 37 519-522

Wilson VD(2013)Clinical and radiographic evaluation of total hip arthroplasties using porous tantalum modular acetabular components: 5-year follow-up of clinical trial Mod Rheumatol 23 112-118

Hungerford DS(2010)Bone remodeling around porous metal cementless acetabular components J Arthroplast 25 741-747

Saleh KJ(2017)Survivorship of a porous tantalum monoblock acetabular component in primary hip arthroplasty with a mean follow-up of 18 years J Arthroplast 32 3680-3684

Bear B(2015)Clinical and radiographic outcomes of a trabecular titanium acetabular component in hip arthroplasty: results at minimum 5 years follow-up BMC Musculoskelet Disord 16 375-65

Bostrom M(2018)Trabecular titanium acetabular cups in hip revision surgery: mid-term clinical and radiological outcomes Hip Int 28 61-521

Wright T(2013)Highly-porous metal option for primary cementless acetabular fixation. What is the evidence? Hip Int 23 509-1987

Sculco TP(2013)Use of porous tantalum for acetabular reconstruction in revision hip arthroplasty J Bone Surg Am 95 1981-5900

Nakashima Y(2006)Pore throat size and connectivity determine bone and tissue ingrowth into porous implants: three-dimensional micro-CT based structural analyses of porous bioactive titanium implants Biomaterials. 27 5892-1885

Curtis MJ(1992)The initial stability of uncemented acetabular components J Bone Joint Surg (Br) 74 372-376

Jinnah RH(2008)Initial stability of press-fit acetabular components: an in vitro biomechanical study Am J of orthop (Belle Mead, NJ) 37 519-522

Wilson VD(2013)Clinical and radiographic evaluation of total hip arthroplasties using porous tantalum modular acetabular components: 5-year follow-up of clinical trial Mod Rheumatol 23 112-118

Hungerford DS(2010)Bone remodeling around porous metal cementless acetabular components J Arthroplast 25 741-747

Saleh KJ(2017)Survivorship of a porous tantalum monoblock acetabular component in primary hip arthroplasty with a mean follow-up of 18 years J Arthroplast 32 3680-3684

Bear B(2015)Clinical and radiographic outcomes of a trabecular titanium acetabular component in hip arthroplasty: results at minimum 5 years follow-up BMC Musculoskelet Disord 16 375-65

Bostrom M(2018)Trabecular titanium acetabular cups in hip revision surgery: mid-term clinical and radiological outcomes Hip Int 28 61-521

Wright T(2013)Highly-porous metal option for primary cementless acetabular fixation. What is the evidence? Hip Int 23 509-1987

Sculco TP(2013)Use of porous tantalum for acetabular reconstruction in revision hip arthroplasty J Bone Surg Am 95 1981-5900

Nakashima Y(2006)Pore throat size and connectivity determine bone and tissue ingrowth into porous implants: three-dimensional micro-CT based structural analyses of porous bioactive titanium implants Biomaterials. 27 5892-1885