G Al Hares scite author profile

G Al Hares

3Publications

3Citation Statements Received

67Citation Statements Given

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RWTH Aachen University

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Combined magnetic resonance imaging approach for the assessment of in vivo knee joint kinematics under full weight-bearing conditions

Hares

Eschweiler

Radermacher

2015

Proc Inst Mech Eng H

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The development of detailed and specific knowledge on the biomechanical behavior of loaded knee structures has received increased attention in recent years. Stress magnetic resonance imaging techniques have been introduced in previous work to study knee kinematics under load conditions. Previous studies captured the knee movement either in atypical loading supine positions, or in upright positions with help of inclined supporting backrests being insufficient for movement capture under full-body weight-bearing conditions. In this work, we used a combined magnetic resonance imaging approach for measurement and assessment in knee kinematics under full-body weight-bearing in single legged stance. The proposed method is based on registration of high-resolution static magnetic resonance imaging data acquired in supine position with low-resolution data, quasi-static upright-magnetic resonance imaging data acquired in loaded positions for different degrees of knee flexion. The proposed method was applied for the measurement of tibiofemoral kinematics in 10 healthy volunteers. The combined magnetic resonance imaging approach allows the non-invasive measurement of knee kinematics in single legged stance and under physiological loading conditions. We believe that this method can provide enhanced understanding of the loaded knee kinematics.

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Evaluation of Biomechanical Models for the Planning of Total Hip Arthroplasty

Asseln

Eschweiler

Damm

et al. 2013

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MRI-based 3D-Modelling of Gleno-humeral Joint Deformities for Functional Surgical Planning

Hares

Bahm

Wein³

et al. 2009

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G Al Hares

Combined magnetic resonance imaging approach for the assessment of in vivo knee joint kinematics under full weight-bearing conditions

Evaluation of Biomechanical Models for the Planning of Total Hip Arthroplasty

MRI-based 3D-Modelling of Gleno-humeral Joint Deformities for Functional Surgical Planning

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