Michael Haubner scite author profile

The objective of this article was to analyze the accuracy and precision with which the quantitative distribution of articular cartilage can be determined in the knee joint using MRI. A three-dimensional (3D) technique that accounts for the out-of-plane deviation of the interface normal in strongly curved joint surfaces (3D MR-CCM) has been developed for cartilage thickness measurements. Eight cadaveric knee-joint specimens and six volunteers were imaged using a fat-suppressed gradient-echo sequence at a resolution of 2 x 0.31 x 0.31 mm3. Cartilage volumes and topographical thickness maps were obtained and compared with those derived from anatomical sections by image analysis. The deviation of the MR volumes from those of the sections was 1-12%, the coefficient of variation after repositioning ranged from 2.9% (patella) to 8.2% (lateral tibial plateau). Between 60% and 80% of all image points could be attributed to identical thickness intervals, less than 20% deviating by more than 0.5 mm. The intraobserver and interobserver reproducibilities were very high in both the specimens and the volunteers. In the knee joint, 3D reconstructions of the cartilages, and measurements that take into account the out-of-plane deviation of the interface normals (3D MR-CCM), are required.

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Magnetic Resonance Based Motion Analysis of the Shoulder During Elevation

Graichen

Stammberger²,

Bonél³

et al. 2000

Clinical Orthopaedics and Related Research

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Michael Haubner

Three-dimensional analysis of the width of the subacromial space in healthy subjects and patients with impingement syndrome.

Accuracy of Cartilage Volume and Thickness Measurements With Magnetic Resonance Imaging

In vivo reproducibility of three-dimensional cartilage volume and thickness measurements with MR imaging.

Determination of knee joint cartilage thickness using three‐dimensional magnetic resonance chondro‐crassometry (3D MR‐CCM)

Magnetic Resonance Based Motion Analysis of the Shoulder During Elevation

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