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Literature DB >> 7263723

Improved techniques for measuring in vitro the geometry and pressure distribution in the human acetabulum. II Instrumented endoprosthesis measurement of articular surface pressure distribution.

P D Rushfeldt, R W Mann, W H Harris.

Abstract

Entities: Species

Mesh：

Year: 1981 PMID： 7263723 DOI： 10.1016/0021-9290(81)90041-5

Source DB: PubMed Journal: J Biomech ISSN： 0021-9290 Impact factor: 2.712

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Cited

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13 in total

1. Contrasting effects of physical wear on elution of two antibiotics from orthopedic cement.

Authors: S Dodds; T J Smith; R Akid; J Stephenson; T Nichol; R D Banerjee; I Stockley; R Townsend
Journal: Antimicrob Agents Chemother Date: 2011-12-12 Impact factor: 5.191

2. Tests on hypotheses about osteoarthritis and hip joints.

Authors: N Y Afoke; P D Byers; W C Hutton
Journal: Ann Rheum Dis Date: 1992-04 Impact factor: 19.103

3. Validation of finite element predictions of cartilage contact pressure in the human hip joint.

Authors: Andrew E Anderson; Benjamin J Ellis; Steve A Maas; Christopher L Peters; Jeffrey A Weiss
Journal: J Biomech Eng Date: 2008-10 Impact factor: 2.097

4. Corroboration of in vivo cartilage pressures with implications for synovial joint tribology and osteoarthritis causation.

Authors: Kjirste C Morrell; W Andrew Hodge; David E Krebs; Robert W Mann
Journal: Proc Natl Acad Sci U S A Date: 2005-10-03 Impact factor: 11.205

10. Specimen-specific predictions of contact stress under physiological loading in the human hip: validation and sensitivity studies.

Authors: Corinne R Henak; Ashley L Kapron; Andrew E Anderson; Benjamin J Ellis; Steve A Maas; Jeffrey A Weiss
Journal: Biomech Model Mechanobiol Date: 2013-06-05

Improved techniques for measuring in vitro the geometry and pressure distribution in the human acetabulum. II Instrumented endoprosthesis measurement of articular surface pressure distribution.

1. Contrasting effects of physical wear on elution of two antibiotics from orthopedic cement.

2. Tests on hypotheses about osteoarthritis and hip joints.

3. Validation of finite element predictions of cartilage contact pressure in the human hip joint.

4. Corroboration of in vivo cartilage pressures with implications for synovial joint tribology and osteoarthritis causation.

5. A novel modelling and simulation method of hip joint surface contact stress.

6. Finite element prediction of cartilage contact stresses in normal human hips.

Review 7. Regulation of Cell Behavior by Hydrostatic Pressure.

8. Dynamic culturing of cartilage tissue: the significance of hydrostatic pressure.

9. Modelling cartilage mechanobiology.

10. Specimen-specific predictions of contact stress under physiological loading in the human hip: validation and sensitivity studies.