Katherine H. Bloemker scite author profile

Katherine H. Bloemker

3Publications

61Citation Statements Received

85Citation Statements Given

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Affiliations

University of Missouri–Kansas City

Publications

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Computational Knee Ligament Modeling Using Experimentally Determined Zero-Load Lengths

Bloemker

Guess²,

Maletsky³

et al. 2012

TOBEJ

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This study presents a subject-specific method of determining the zero-load lengths of the cruciate and collateral ligaments in computational knee modeling. Three cadaver knees were tested in a dynamic knee simulator. The cadaver knees also underwent manual envelope of motion testing to find their passive range of motion in order to determine the zero-load lengths for each ligament bundle. Computational multibody knee models were created for each knee and model kinematics were compared to experimental kinematics for a simulated walk cycle. One-dimensional non-linear spring damper elements were used to represent cruciate and collateral ligament bundles in the knee models. This study found that knee kinematics were highly sensitive to altering of the zero-load length. The results also suggest optimal methods for defining each of the ligament bundle zero-load lengths, regardless of the subject. These results verify the importance of the zero-load length when modeling the knee joint and verify that manual envelope of motion measurements can be used to determine the passive range of motion of the knee joint. It is also believed that the method described here for determining zero-load length can be used for in vitro or in vivo subject-specific computational models.

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Computational Knee Ligament Modeling Using Experimentally Determined Zero-Load Lengths

Bloemker¹,

Guess²,

Maletsky³

et al. 2012

TOBEJ

View full text Add to dashboard Cite

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Effects of ACL Reconstruction Techniques on the Kinematics of the Knee in a Computational Knee Model

Bloemker

Guess

2011

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This study examines the effects of different Anterior Cruciate Ligament (ACL) reconstruction techniques on computational multibody knee models. The knee models were derived from two cadaver knees that underwent simulated walk cycles while the kinematics of the knee geometries were collected in a dynamic knee simulator. Once the computational models performed well compared to experimental data, multiple simulated ACL reconstruction surgeries were done on each model. For each simulated reconstruction technique, overall knee kinematics was compared to the experimental cadaver results and anterior-posterior movement of the tibia relative to the femur was compared to the original, intact computational model. The factors examined were ACL reconstruction method, adding preload to the reconstruction element, and reconstruction element type.

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