2014
DOI: 10.1016/j.jbiomech.2013.11.003
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Dynamic contact mechanics on the tibial plateau of the human knee during activities of daily living

Abstract: Despite significant advances in scaffold design, manufacture, and development, it remains unclear what forces these scaffolds must withstand when implanted into the heavily loaded environment of the knee joint. The objective of this study was to fully quantify the dynamic contact mechanics across the tibial plateau of the human knee joint during gait and stair climbing. Our model consisted of a modified Stanmore knee simulator (to apply multi-directional dynamic forces), a two-camera motion capture system (to … Show more

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Cited by 90 publications
(128 citation statements)
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“…This disrupted loading could endanger the cartilage in the adjacent regions where again, the cartilage is thinner 30, 31 and considered not to be conditioned to withstand such high loads. 17 In addition to the changes in the affected medial compartment, we also found accompanying changes in the lateral compartment, where pattern-2 shifted anterior-laterally. This may be due to the increased joint rotational laxity associated with meniscal deficiency.…”
Section: Discussionmentioning
confidence: 60%
See 1 more Smart Citation
“…This disrupted loading could endanger the cartilage in the adjacent regions where again, the cartilage is thinner 30, 31 and considered not to be conditioned to withstand such high loads. 17 In addition to the changes in the affected medial compartment, we also found accompanying changes in the lateral compartment, where pattern-2 shifted anterior-laterally. This may be due to the increased joint rotational laxity associated with meniscal deficiency.…”
Section: Discussionmentioning
confidence: 60%
“…1B). 1517 Contact stresses normal to the tibial plateau surface were recorded in real-time (100 Hz) using a thin electronic sensor (model: 4010N, Tekscan Inc., MA), Fig. 1C, which was inserted under both menisci of the medial and lateral plateau.…”
Section: Methodsmentioning
confidence: 99%
“…The loading pressure is akin to contact forces seen in vivo during walking. [25][26][27] The creation of a migrating contact point in the model further allows for improved lubrication 28 and for greater cell viability. 29 For tribological testing, strips and balls were mounted onto the joint motion simulator with their corresponding discs.…”
Section: Tribological Apparatusmentioning
confidence: 99%
“…Further, the applied load of 45N results in a contact stress in excess of 2 MPa to the cartilage discs, in rage with in vivo findings[40]. Physiological loads experienced by cartilage at the hip[57,58] or knee[59] have been measured to be about 1 MPa during standing with peaks of 5 – 10 MPa during walking. It is also important to note that MoC models have been shown to experience higher contact stresses and frictional forces[19,56], as well as higher impact stress[16], when compared to CoC models.…”
Section: Discussionmentioning
confidence: 95%