J. W. Steege scite author profile

The effect of the quality of the bone and of the cement pressurization magnitude and duration on the fixation achieved with polymethylmethacrylate (PMMA) bone cement is studied in vitro. Seventy-one cement-bone interface specimens, prepared under various conditions of pressurization of low-viscosity bone cement, are tested in tension. The load at failure and the maximum cement penetration are measured to assess the fixation achieved, and the quality of the bone is assessed by determining the compressive strength of each of the bone specimens. Statistical analysis of the data indicates that the pressure magnitude is the most influential of the factors considered in the cement penetration behavior and in the development of failure load capacity. The duration of the pressure does not appear to be a significant factor. The cement penetration is a decreasing function of the bone strength, reflecting a decrease in the porosity and an increase in the area fraction. Although not directly measured in these tests, these latter bone properties are indirectly measured by the bone compressive strength. The effect of increasing bone strength on the failure load is nonlinear. The development of adequate failure load capacity is the result of a balance between the cement penetration allowed by the porosity of the bone and the inherent strength of the cancellous bone itself. Weak bone, although adequately penetrated by cement, cannot provide strong fixation. Stronger, denser bone limits cement penetration, but pressurization enhances development of failure load capacity through more complete infusion and interlocking of the cement in the available pore space. The strength of the fixation achievable for any bone is limited by the intrinsic strength of the bone.(ABSTRACT TRUNCATED AT 250 WORDS)

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Effects of Labial Margin Design on Stress Distribution of a Porcelain‐Fused‐to‐Metal Crown

Chai

Steege

1992

Journal of Prosthodontics

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Rigidity of initial fixation with uncemented tibial knee implants

Branson¹,

Steege²,

Wixson³

et al. 1989

The Journal of Arthroplasty

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The role of fluid hydrostatic pressure in bone-implant interface load transfer

Lewis

Keller

Stulberg³

et al. 1984

Ann Biomed Eng

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Permeability of the soft tissue-bone system surrounding artificial joints fixed in cancellous bone was measured in four adult dogs after implants had been in place 2 months. Fluid was forced through a cavity formed by removal of the implant, the cavity was capped with a stopper to allow for pressure generation. Surface permeability of the 2-month-old implant cavity was 45 times less than the permeability of freshly drilled holes in cancellous bone. A mathematical model of a rigid implant resting on a biphasic solid-fluid layer showed the fluid carried 90% of the load when the implant cavity permeability was assumed, but only 27% when the freshly drilled permeability was used. The results suggest caution in interpreting finite-element models with bonded interfaces and suggest a possible role of the fluid in biological response at the interface.

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Effects of vision on head stability and torques during voluntary pulls made by standing humans

Bedford

Steege

Lee

2000

Neuroscience Letters

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J. W. Steege

Effect of cement pressure and bone strength on polymethylmethacrylate fixation

Effects of Labial Margin Design on Stress Distribution of a Porcelain‐Fused‐to‐Metal Crown

Rigidity of initial fixation with uncemented tibial knee implants

The role of fluid hydrostatic pressure in bone-implant interface load transfer

Effects of vision on head stability and torques during voluntary pulls made by standing humans

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