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Use of Blade Sequences in Cervical Spine MR Imaging for Eliminating Motion, Truncation and Flow Artifacts


P Mavroidis

P Mavroidis1*, E Lavdas2 , S Kostopoulos3 , C Ninos4 , A Strikou5 , D Glotsos6 , A Vlachopoulou7 , G Oikonomou8 , N Economopoulos9 , V Roka10 , G Sakkas11 , A Tsagkalis12 , S Stathakis13 , N Papanikolaou14 , G Batsikas15 , (1) University of Texas Health Science Center, UTHSCSA, San Antonio, TX, (2) Technological Education Institute of Athens, Athens, Athens, (3) Technological Education Institute of Athens, Athens, Athens, (4) Technological Education Institute of Athens, Athens, Athens, (5) Technological Education Institute of Athens, Athens, Athens, (6) Technological Education Institute of Athens, Athens, Athens, (7) Technological Education Institute of Athens, Athens, Athens, (8) Technological Education Institute of Athens, Athens, Athens, (9) General University Hospital ATTIKON, Athens, Athens, (10) Health Center of Farkadona, Trikala, Trikala, (11) Center for Research and Technology of Thessaly, Trikala, Trikala, (12) IASO Thessalias Hospital, Larissa, Larissa, (13) Cancer Therapy and Research Center, San Antonio, TX, (14) University of Texas HSC SA, San Antonio, TX, (15) IASO Thessalias Hospital, Larissa, Larissa

Presentations

SU-E-I-51 Sunday 3:00PM - 6:00PM Room: Exhibit Hall

Purpose: To assess the efficacy of the BLADE technique to eliminate motion, truncation, flow and other artifacts in Cervical Spine MRI compared to the conventional technique. To study the ability of the examined sequences to reduce the indetention and wrap artifacts, which have been reported in BLADE sagittal sequences.

Methods: Forty consecutive subjects, who had been routinely scanned for cervical spine examination using four different image acquisition techniques, were analyzed. More specifically, the following pairs of sequences were compared: a) T2 TSE SAG vs. T2 TSE SAG BLADE and b) T2 TIRM SAG vs. T2 TIRM SAG BLADE. A quantitative analysis was performed using the signal-to-noise ratio (SNR), contrast-to-noise ratio (CNR) and relative contrast (ReCon) measures. A qualitative analysis was also performed by two radiologists, who graded seven image characteristics on a 5-point scale (0:non-visualization; 1:poor; 2:average; 3:good; 4:excellent). The observers also evaluated the presence of image artifacts (motion, truncation, flow, indentation).

Results: Based on the findings of the quantitative analysis, the ReCON values of the CSF (cerebrospinal fluid)/SC (spinal cord) between TIRM SAG and TIRM SAG BLADE were found to present statistical significant differences (p<0.001). Regarding motion and truncation artifacts, the T2 TSE SAG BLADE was superior compared to the T2 TSE SAG and the T2 TIRM SAG BLADE was superior compared to the T2 TIRM SAG. Regarding flow artifacts, T2 TIRM SAG BLADE eliminated more artifacts compared to the T2 TIRM SAG.

Conclusion: The use of BLADE sequences in cervical spine MR examinations appears to be capable of potentially eliminating motion, pulsatile flow and trancation artifacts. Furthermore, BLADE sequences are proposed to be used in the standard examination protocols based on the fact that a significantly improved image quality could be achieved.


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