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Orthopaedic Proceedings
Vol. 92-B, Issue SUPP_IV | Pages 525 - 525
1 Oct 2010
Maeda A Hirose I Kondo S Kuroki Y Kusaba A Nagase K Noriyuki H
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Introduction: “Spongiosa metal” this unique implant surface was introduced in 1982 by ESKA implants Germany.

Pore size was between 800 and 1500 microns with an overall porosity of 60%. The pore depth of the interconnecting surface structure reached up to 3000 microns.

The purpose of this retrospective study is to report the long term results of Spongiosa Metal I cement less total hip prosthesis in Japan.

Materials and Methods: Between 1986 and end 1990 total 113 prostheses were implanted and consecutive 106 implants could be evaluated.

The all evaluated prosthesis combined 28mm ceramic head and polyethylene inlay.

Results: Average follow up period was 17 years.

2 cups and 1 stem were revised by aseptic loosening.

2 stem breakage and 7 ceramic head fracture were seen while following up.

85% of the patients had retained the original prostheses (cup, stem, ceramic head, and inlay).

Survival rate was investigated by Kaplan-Meier method.

Survival rate for the cup component was 95%, and for the stem component was 93%.

Discussion: Main reason of the revision surgery was the ceramic head fracture (7 implants 6%)

We thought that beating with the hammer when we install the ceramic head to the taper was one problem.

On the other hand, few aseptic loosening was seen while following up.

These results suggest that spongiosa metal system can bear for long term of use.

Conclusion: 85% of the patients had retained the original prostheses average 17years following up period.

Main reason for the revision surgery is ceramic head fracture.

We are convinced with this spongiosa metal surface can bear long term of use.


Orthopaedic Proceedings
Vol. 86-B, Issue SUPP_IV | Pages 393 - 393
1 Apr 2004
Kusaba A Kuroki Y Kondo S Hirose I Ito Y Hemmi N Shirasaki Y Tateishi T Scholz J
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Friction was studied in 67 retrieved cemented cups with 32 mm internal diameter. Friction was measured under 1.0 KN of static load. High molecular hyaluronic acid was adapted as a lubricant. Thirty cups were combined with alumina heads and 37 were combined with metal heads. The years cups were in situ was 7.5 (3.2–13.2) for alumina-polyethylene implants and 8.9 (1.5–15.7) for metal-polyethylene implants (p> 0.05).

The revision rate at 15 years follow-up was higher in metal-polyethylene (PE) implants (57%) than that of alumina-PE implants (40%) (p< 0.05). The prevalence of cup loosening was less in alumina-PE implants (12/30) than in metal-PE implants (29/37) (p< 0.01). Less wear was observed in alumina-PE implants (1.15+−0,80mm) than in metal-PE implants (1.62+−0.61mm) (p< 0.01). Less wear was observed in cups without loosening (alumina-PE implants: 1.84+−0.57mm, metal-PE implants: 1.75+−0.51mm) than in those with loosening (alumina-PE implants: 0.69+−0.56mm, metal-PE implants: 1.31+−0.73mm) in both types (alumina-PE implants: p< 0.01, metal-PE implants: p< 0.05). Less wear rate was observed in cups without loosening (alumina-PE implants: 0.11+−0.05 mm/year, metal-PE implants: 0.14+−0.05mm/year) than in those with loosening (alumina-PE implants: 0.17+−0.03 mm/year, metal-PE implants: 0.22+−0.09mm/year) in both types (alumina-PE implants: p< 0.01, metal-PE implants: p< 0.05). The coefficient of friction increased in proportion to the progress of cup wear in both types (alumina-PE implants: r2 =0.217, p< 0.01, metal-PE implants: r2 =0.183, p< 0.01). Relation between the coefficient of friction and stability of implants was not detected in both types, while alumina-PE implants had lower coefficient of friction (0.137+-0.056) than metal-PE implants (0.209+−0.098) (p< 0.01). The torque of metal-PE implants without stem loosening (0.137+−0.053) was larger than that of alumina-PE implants with stem loosening (0.274+−0.088) (p< 0.01).

The results suggest that wear has greater influence on stability of implants than the friction, whereas coefficient of friction increases in worn implants.


Orthopaedic Proceedings
Vol. 86-B, Issue SUPP_IV | Pages 393 - 393
1 Apr 2004
Kusaba Kuroki Y Kondo S Hirose I Ito Y Hemmi N Shirasaki Y Tateishi T Scholz J
Full Access

A method was developed to take radiographs showing the inner articulation of bipolar hip prostheses. By this method, wear was measured in 68 hips whose inner head diameter was 22 mm. Average annual wear rate was 0.17 mm. Osteolysis was observed in 25 hips (37%) and there was no difference between the annual wear rate of hips with and without osteolysis. Studying 19 retrieved prostheses, abrasion of the rim was deeper in hips with osteolysis than those without it. Wear rate of the inner articulation in bipolar hip prosthesis is much larger than that in Charnley’s prosthesis, as linear penetration into the articulation surface reduces the motion range of the inner articulation and this increases impingement and advances rim abrasion.