Abstract
PurposeTo investigate the use of shielded‐coaxial‐cable (SCC) coils as elements for multi‐channel receive‐only and transceive arrays for 7T human MRI and to compare their performance with equivalently sized conventional loop coils.MethodsThe SCC coil element consists of a coaxial loop with interrupted central conductor at the feed‐point side and an interrupted shield at the opposite point. Inter‐element decoupling, transmit efficiency, and sample heating were compared with results from conventional capacitively segmented loop coils. Three multichannel arrays (a 4‐channel receive‐only array and 8‐ and 5‐channel transceive arrays) were constructed. Their inter‐element decoupling was characterized via measured noise correlation matrices and additionally under different flexing conditions of the coils. Thermal measurements were performed and in vivo images were acquired.ResultsThe measured and simulated B1+ maps of both SCC and conventional loops were very similar. For all the arrays constructed, the inter‐element decoupling was much greater for the SCC elements than the conventional ones. Even under high degrees of flexion, the coupling coefficients were lower than −10 dB, with a much smaller frequency shift than for the conventional coils.ConclusionArrays constructed from SCC elements are mechanically flexible and much less sensitive to changes of the coil shape from circular to elongated than arrays constructed from conventional loop coils, which makes them suitable for construction of size adjustable arrays.
Highlights
Transceive and transmit and/or receive arrays are commonly used in ultra‐high field (>3T) MRI because they can be used for B1‐shimming[1,2,3,4,5] as well as accelerated acquisitions using either SENSE or GRAPPA.[6,7]
The knee images were obtained on 4 volunteers, with different body mass indices (BMIs), using a 3D T1‐weighted gradient‐echo sequence with the following parameters: TR/TE = 5.8/2.5 ms, flip angle (FA) = 10°, voxel size = 0.7 × 0.7 × 0.7 mm[3], no averaging
This paper has demonstrated a simple method for constructing loop arrays with a high degree of inter‐element decoupling using SCCs
Summary
NWO domain TTW, Grant/Award Number: 13783; European Research Council Advanced Grant, Grant/Award Number: 670629 NOMA MRI. Purpose: To investigate the use of shielded‐coaxial‐cable (SCC) coils as elements for multi‐channel receive‐only and transceive arrays for 7T human MRI and to compare their performance with equivalently sized conventional loop coils. Inter‐ element decoupling, transmit efficiency, and sample heating were compared with results from conventional capacitively segmented loop coils. Three multichannel arrays (a 4‐channel receive‐only array and 8‐ and 5‐channel transceive arrays) were constructed. Their inter‐element decoupling was characterized via measured noise correlation matrices and under different flexing conditions of the coils. For all the arrays constructed, the inter‐element decoupling was much greater for the SCC elements than the conventional ones. Conclusion: Arrays constructed from SCC elements are mechanically flexible and much less sensitive to changes of the coil shape from circular to elongated than arrays constructed from conventional loop coils, which makes them suitable for construction of size adjustable arrays
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