Wear and damage of articular cartilage with friction against orthopedic implant materials

Abstract The objective of this study was to measure the wear response of immature bovine articular cartilage tested against glass or alloys used in hemiarthroplasties. Two cobalt chromium alloys and a stainless steel alloy were selected for these investigations. The surface roughness of one of the c...

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Bibliographic Details
Published in:Journal of biomechanics 2015-07, Vol.48 (10), p.1957-1964
Main Authors: Oungoulian, Sevan R, Durney, Krista M, Jones, Brian K, Ahmad, Christopher S, Hung, Clark T, Ateshian, Gerard A
Format: Article
Language:English
Subjects:
Alloys
Animals
Arthritis
Articular
Carbon
Cartilage
Cartilage, Articular - physiology
Cattle
Chromium Alloys - chemistry
Chromium base alloys
Cobalt
Cobalt base alloys
Damage
Degeneration
Disease
Equilibrium
Femur - surgery
Fractures
Friction
Hemiarthroplasty
Hemiarthroplasty - instrumentation
Hemiarthroplasty - methods
Joint surgery
Materials Testing
Metal fatigue
Orthopedic implants
Physical Medicine and Rehabilitation
Prostheses and Implants
Prosthesis Failure
Roughness
Stainless Steel - chemistry
Steel alloys
Stress, Mechanical
Studies
Surface Properties
Tibia - surgery
Wear
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Summary:Abstract The objective of this study was to measure the wear response of immature bovine articular cartilage tested against glass or alloys used in hemiarthroplasties. Two cobalt chromium alloys and a stainless steel alloy were selected for these investigations. The surface roughness of one of the cobalt chromium alloys was also varied within the range considered acceptable by regulatory agencies. Cartilage disks were tested in a configuration that promoted loss of interstitial fluid pressurization to accelerate conditions believed to occur in hemiarthroplasties. Results showed that considerably more damage occurred in cartilage samples tested against stainless steel (10 nm roughness) and low carbon cobalt chromium alloy (27 nm roughness) compared to glass (10 nm) and smoother low or high carbon cobalt chromium (10 nm). The two materials producing the greatest damage also exhibited higher equilibrium friction coefficients. Cartilage damage occurred primarily in the form of delamination at the interface between the superficial tangential zone and the transitional middle zone, with much less evidence of abrasive wear at the articular surface. These results suggest that cartilage damage from frictional loading occurs as a result of subsurface fatigue failure leading to the delamination. Surface chemistry and surface roughness of implant materials can have a significant influence on tissue damage, even when using materials and roughness values that satisfy regulatory requirements.
ISSN:0021-9290
1873-2380
DOI:10.1016/j.jbiomech.2015.04.008