Femoral Stem Fracture and In Vivo Corrosion of Retrieved Modular Femoral Hips

Femoral Stem Fracture and In Vivo Corrosion of Retrieved Modular Femoral Hips

Abstract A series of 78 retrieved modular hip devices were assessed for fretting and corrosion. Damage was common at both the head-neck junction (54% showing corrosion; 88% showing fretting) and at the stem-sleeve junction (88% corrosion; 65% fretting). Corrosion correlated to in vivo duration, pati...

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Veröffentlicht in:The Journal of arthroplasty 2012-08, Vol.27 (7), p.1389-1396.e1
Hauptverfasser: Huot Carlson, J. Caitlin, MS, Van Citters, Douglas W., PhD, Currier, John H., MS, Bryant, Amber M., BE, Mayor, Michael B., MD, Collier, John P., DE
Format: Artikel
Sprache:eng
Schlagworte:
Adult
Aged
Aged, 80 and over
Carbon - analysis
Corrosion
Device Removal
Equipment Failure Analysis - methods
Female
Femoral Fractures - etiology
Femur Head - chemistry
fracture
fretting
Hip Prosthesis
Humans
Male
Middle Aged
modularity
Orthopedics
Periprosthetic Fractures - etiology
Prosthesis Design
Prosthesis Failure - etiology
Retrospective Studies
stem
Stress, Mechanical
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Zusammenfassung:Abstract A series of 78 retrieved modular hip devices were assessed for fretting and corrosion. Damage was common at both the head-neck junction (54% showing corrosion; 88% showing fretting) and at the stem-sleeve junction (88% corrosion; 65% fretting). Corrosion correlated to in vivo duration, patient activity, and metal (vs ceramic) femoral heads but did not correlate to head carbon content. Femoral stem fatigue fracture was observed in seven retrievals; all had severe corrosion, were under increased stress, and were in vivo longer than the non-fractured cohort. This study emphasizes the potential for stem fracture when small diameter femoral stems with large offsets are used in heavy and active patients. Designs which reduce fretting and corrosion in modular implants is warranted as patients demand longer lasting implants.
ISSN:0883-5403
1532-8406
DOI:10.1016/j.arth.2011.11.007