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Regulation of the patellofemoral contact area: an essential mechanism in patellofemoral joint mechanics?

Regulation of the patellofemoral contact area: an essential mechanism in patellofemoral joint mechanics?
Regulation of the patellofemoral contact area: an essential mechanism in patellofemoral joint mechanics?
Although the relationship between contact area and pressure under physiological loading has been described in the feline patellofemoral joint, this interaction has only been examined under simplified loading conditions and/or considerably lower forces than those occurring during demanding activities in humans. We hypothesized that patellofemoral contact area increases non-linearly under an increasing joint reaction force to regulate patellofemoral pressure. Eight human cadaveric knees were ramp loaded with muscle forces representative of the stance phase of stair climbing at 30° knee flexion. Continuous pressure data were acquired with a pressure sensitive film that was positioned within the patellofemoral joint. While pressure was linearly dependent upon the resulting joint reaction force, contact area asymptotically approached a maximum value and reached 95% of this maximum at patellofemoral forces of 349–723 N (95% CI). Our findings indicate that the regulatory influence of increasing contact area to protect against high patellofemoral pressure is exhausted at relatively low loads.
Patellofemoral joint, pressure, contact area, stair climbing, loading
0021-9290
3237-3239
Goudakos, I.G.
e91715d8-4c8f-4387-87c8-dd8689aff1e6
König, C.
1d5d6617-571b-4b22-a1a2-083162035e7a
Schöttle, P.B.
24d16faa-88d5-4ad7-88ae-b49bd4fa894a
Taylor, W.R.
4f1cd2b0-4963-4b10-bbde-da586c069e77
Hoffmann, J.E.
0304335f-be47-467d-a222-6ed18453dce0
Pöpplau, B.M.
7ea9fc0e-fb1c-4700-85a2-d214a3c52a0e
Singh, N.B.
1bb4acd8-a228-4ad5-bac1-12ea6600a812
Duda, G.N.
32d09622-34ad-49dd-8314-3f61c99a764e
Heller, M.O.
3da19d2a-f34d-4ff1-8a34-9b5a7e695829
Goudakos, I.G.
e91715d8-4c8f-4387-87c8-dd8689aff1e6
König, C.
1d5d6617-571b-4b22-a1a2-083162035e7a
Schöttle, P.B.
24d16faa-88d5-4ad7-88ae-b49bd4fa894a
Taylor, W.R.
4f1cd2b0-4963-4b10-bbde-da586c069e77
Hoffmann, J.E.
0304335f-be47-467d-a222-6ed18453dce0
Pöpplau, B.M.
7ea9fc0e-fb1c-4700-85a2-d214a3c52a0e
Singh, N.B.
1bb4acd8-a228-4ad5-bac1-12ea6600a812
Duda, G.N.
32d09622-34ad-49dd-8314-3f61c99a764e
Heller, M.O.
3da19d2a-f34d-4ff1-8a34-9b5a7e695829

Goudakos, I.G., König, C., Schöttle, P.B., Taylor, W.R., Hoffmann, J.E., Pöpplau, B.M., Singh, N.B., Duda, G.N. and Heller, M.O. (2010) Regulation of the patellofemoral contact area: an essential mechanism in patellofemoral joint mechanics? Journal of Biomechanics, 43 (16), 3237-3239. (doi:10.1016/j.jbiomech.2010.07.029). (PMID:20708188)

Record type: Article

Abstract

Although the relationship between contact area and pressure under physiological loading has been described in the feline patellofemoral joint, this interaction has only been examined under simplified loading conditions and/or considerably lower forces than those occurring during demanding activities in humans. We hypothesized that patellofemoral contact area increases non-linearly under an increasing joint reaction force to regulate patellofemoral pressure. Eight human cadaveric knees were ramp loaded with muscle forces representative of the stance phase of stair climbing at 30° knee flexion. Continuous pressure data were acquired with a pressure sensitive film that was positioned within the patellofemoral joint. While pressure was linearly dependent upon the resulting joint reaction force, contact area asymptotically approached a maximum value and reached 95% of this maximum at patellofemoral forces of 349–723 N (95% CI). Our findings indicate that the regulatory influence of increasing contact area to protect against high patellofemoral pressure is exhausted at relatively low loads.

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More information

e-pub ahead of print date: 13 August 2010
Keywords: Patellofemoral joint, pressure, contact area, stair climbing, loading
Organisations: Bioengineering Group

Identifiers

Local EPrints ID: 348525
URI: http://eprints.soton.ac.uk/id/eprint/348525
DOI: doi:10.1016/j.jbiomech.2010.07.029
ISSN: 0021-9290
PURE UUID: eb2386ff-e4df-424d-81e9-ea929e34b142
ORCID for M.O. Heller: ORCID iD orcid.org/0000-0002-7879-1135

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Date deposited: 14 Feb 2013 15:05
Last modified: 15 Mar 2024 03:43

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Contributors

Author: I.G. Goudakos
Author: C. König
Author: P.B. Schöttle
Author: W.R. Taylor
Author: J.E. Hoffmann
Author: B.M. Pöpplau
Author: N.B. Singh
Author: G.N. Duda
Author: M.O. Heller ORCID iD

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