A comparison of bone remodelling around hydroxyapatite-coated, porous-coated and grit-blasted hip replacements retrieved at post-mortem.

We investigated the implant-bone interface around one design of femoral stem, proximally coated with either a plasma-sprayed porous coating (plain porous) or a hydroxyapatite porous coating (porous HA), or which had been grit-blasted (Interlok). Of 165 patients implanted with a Bimetric hip hemiarthroplasty (Biomet, Bridgend, UK) specimens were retrieved from 58 at post-mortem. We estimated ingrowth and attachment of bone to the surface of the implant in 21 of these, eight plain porous, seven porous HA and six Interlok, using image analysis and light morphometric techniques. The amount of HA coating was also quantified. There was significantly more ingrowth (p = 0.012) and attachment of bone (p < 0.05) to the porous HA surface (mean bone ingrowth 29.093 +/- 2.019%; mean bone attachment 37.287 +/- 2.489%) than to the plain porous surface (mean bone ingrowth 21.762 +/- 2.068%; mean bone attachment 18.9411 +/- 1.971%). There was no significant difference in attachment between the plain porous and Interlok surfaces. Bone grew more evenly over the surface of the HA coating whereas on the porous surface, bone ingrowth and attachment occurred more on the distal and medial parts of the coated surface. No significant differences in the volume of HA were found with the passage of time. This study shows that HA coating increases the amount of ingrowth and attachment of bone and leads to a more even distribution of bone over the surface of the implant. This may have implications in reducing stress shielding and limiting osteolysis induced by wear particles.

[1]  C. Engh,et al.  Human histology of the bone-porous metal implant interface. , 1984, Orthopedics.

[2]  L. Dorr,et al.  Hydroxyapatite-coated proximal ingrowth femoral stems. A matched pair control study. , 1995, Clinical orthopaedics and related research.

[3]  E. Chao,et al.  Histomorphometry of hydroxyapatite coated and uncoated porous titanium bone implants. , 1994, Biomaterials.

[4]  P. Ducheyne,et al.  Effect of hydroxyapatite impregnation on skeletal bonding of porous coated implants. , 1980, Journal of biomedical materials research.

[5]  G. Heimke Implants, in oral and ENT Surgery , 1990 .

[6]  K. Hayashi,et al.  Quantitative analysis of in vivo tissue responses to titanium-oxide- and hydroxyapatite-coated titanium alloy. , 1991, Journal of biomedical materials research.

[7]  S D Cook,et al.  Histologic Analysis of Retrieved Human Porous‐Coated Total Joint Components , 1988, Clinical orthopaedics and related research.

[8]  T. Bauer,et al.  Hydroxyapatite-coated femoral stems. Histological analysis of components retrieved at autopsy. , 1991, The Journal of bone and joint surgery. American volume.

[9]  C. Engh,et al.  Porous-coated hip replacement. The factors governing bone ingrowth, stress shielding, and clinical results. , 1987, The Journal of bone and joint surgery. British volume.

[10]  J Kärrholm,et al.  Micromotion of femoral stems in total hip arthroplasty. A randomized study of cemented, hydroxyapatite-coated, and porous-coated stems with roentgen stereophotogrammetric analysis. , 1994, The Journal of bone and joint surgery. American volume.

[11]  A. Brooker,et al.  Evidence of bone ingrowth into a porous-coated prosthesis. A case report. , 1984, The Journal of bone and joint surgery. American volume.

[12]  R. Barrack,et al.  Quantitative analysis of tissue growth into human porous total hip components. , 1988, The Journal of arthroplasty.

[13]  J J Callaghan,et al.  The uncemented porous-coated anatomic total hip prosthesis. Two-year results of a prospective consecutive series. , 1988, The Journal of bone and joint surgery. American volume.

[14]  P. Delincé,et al.  Bonding of hydroxyapatite-coated femoral prostheses. Histopathology of specimens from four cases. , 1991, The Journal of bone and joint surgery. British volume.

[15]  R. Bloebaum,et al.  Retrieval analysis of a hydroxyapatite-coated hip prosthesis. , 1991, Clinical orthopaedics and related research.

[16]  P. T. Nielsen,et al.  Histologic analysis of a retrieved hydroxyapatite-coated femoral prosthesis. , 1991, Clinical orthopaedics and related research.

[17]  C. Engh,et al.  Hip arthroplasty with a Moore prosthesis with porous coating. A five-year study. , 1983, Clinical orthopaedics and related research.

[18]  M. Yahiro Early clinical experience with hydroxyapatite-coated femoral implants. , 1993, The Journal of bone and joint surgery. American volume.

[19]  P. Aspenberg,et al.  Bone formation in the presence of phagocytosable hydroxyapatite particles. , 1994, Clinical orthopaedics and related research.

[20]  M. Manley,et al.  Hydroxylapatite Coatings in Orthopaedic Surgery , 1993 .

[21]  R. Furlong Six years use of the unmodified Furlong hydroxyapatite ceramic coated total hip replacement. , 1993, Acta orthopaedica Belgica.