Simon Oehrl scite author profile

Simon Oehrl

2Publications

67Citation Statements Received

78Citation Statements Given

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Universitätsklinikum Aachen

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Functional MR Imaging Mapping of Human Articular Cartilage Response to Loading

Nebelung¹,

Sondern

Oehrl³

et al. 2017

Radiology

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Purpose To determine if multiparametric magnetic resonance (MR) imaging mapping can be used to quantify the response to loading of histologically intact human knee cartilage. Materials and Methods Institutional review board approval and written informed consent were obtained. Twenty macroscopically intact cartilage-bone samples were obtained from the central lateral femoral condyles in 11 patients undergoing total knee replacement. A clinical 3.0-T MR imaging system was used to generate T1, T1ρ, T2, and T2* maps with inversion recovery, spin-lock multiple gradient-echo, multiple spin-echo, and multiple gradient-echo sequences. Serial mapping was performed at three defined strain levels (strain 0 [δ], 0%; strain 1 [δ], 19.8% ± 4.6 [standard deviation]; strain 2 [δ], 39.5% ± 9.3) by using displacement-controlled static indentation loading. The entire sample and specific cartilage zones (superficial zone [SZ], transitional zone [TZ], and deep zone [DZ]) and regions (subpistonal area [SPA] and peripistonal area [PPA]) were defined as regions of interest. Upon log transformation, repeated measures analysis of variance was used to detect groupwise regional and zonal differences. Load-induced relative changes were determined and analyzed by using paired Student t test and Spearman correlation. Biomechanical testing (unconfined compression) and histologic assessment (Mankin score) served as the reference standard. Results All samples were histologically intact. Strain-related decreases were found at the SZ and TZ for T1 and T2*; for T1ρ, increases were seen in all zones; and for T2, increases were seen at the SZ and PPA only. Significant parameter changes in the entire sample depth of SPA versus PPA were found for δ (T1ρ, 14% ± 12 vs 6% ± 9) and δ (T1, -4% ± 5 vs -1% ± 3; T1ρ, 13% ± 12 vs 7% ± 7; T2*, -9% ± 12 vs -2% ± 8). SPA versus PPA changes were significant at the SZ and TZ (T1), TZ and DZ (T1ρ), and SZ (T2*). No significant correlations were found between relative changes and biomechanical or histologic parameters. Conclusion Serial multiparametric MR imaging mapping can be used to evaluate cartilage beyond mere static analysis and may provide the basis for more refined graduation strategies of cartilage degeneration. RSNA, 2016 Online supplemental material is available for this article.

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Differentiation of human cartilage degeneration by functional MRI mapping—an ex vivo study

et al. 2019

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Simon Oehrl

Functional MR Imaging Mapping of Human Articular Cartilage Response to Loading

Differentiation of human cartilage degeneration by functional MRI mapping—an ex vivo study

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