Kathryn J. Stevens scite author profile

Purpose: To evaluate three-dimensional driven equilibrium Fourier transform (3D-DEFT) for image quality and detection of articular cartilage lesions in the knee. Materials and Methods:We imaged 104 consecutive patients with knee pain with 3D-DEFT and proton density (PD-FSE) and T2-weighted (T2-FSE) fast spin echo. Twentyfour went on to arthroscopy. Signal-to-noise ratio (SNR) and contrast-to-noise ratio (CNR) efficiency were measured. Subjective image quality, fat suppression, and cartilage thickness visibility were assessed. Cartilage lesions on 3D-DEFT and T2-FSE were compared with findings outlined in operative reports.Results: SNR efficiency was higher for 3D-DEFT and PD-FSE than for T2-FSE (P Ͻ 0.02). 3D-DEFT and PD-FSE showed superior cartilage thickness visibility compared with T2-FSE (P Ͻ 0.02). T2-FSE showed better fat suppression and fewer image artifacts than 3D-DEFT (P Ͻ 0.04). 3D-DEFT had similar sensitivity and similar specificity for cartilage lesions compared with PD-FSE and T2-FSE. Conclusion:3D-DEFT provides excellent synovial fluid-tocartilage contrast while preserving signal from cartilage, giving this method a high cartilage SNR. 3D-DEFT shows the full cartilage thickness better than T2-FSE. T2-FSE had superior fat saturation and fewer artifacts than 3D-DEFT. Overall, 3D-DEFT requires further technical development, but is a promising method for imaging articular cartilage.

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Kathryn J. Stevens

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Driven equilibrium magnetic resonance imaging of articular cartilage: Initial clinical experience

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