Diffusion tensor imaging data were acquired using a Synergy-L SENSE head coil on a 1.5T Gyroscan Intera system (Philips, Best, The Netherlands) equipped with single-shot echo-planar imaging. For each of the 32 non-collinear diffusion sensitizing gradients, 67 contiguous slices were acquired parallel to the anterior commissure–posterior commissure line. Imaging parameters were as follows: acquisition matrix = 96 × 96, reconstructed matrix = 192 × 192 matrix, field of view = 240 × 240 mm2, TR = 10,398 ms, TE = 72 ms, parallel imaging reduction factor (SENSE factor) = 2, EPI factor = 59 and b = 1000 s/mm2, NEX = 1, slice gap = 0, and slice thickness 2.5 mm.
Synergy l sense head coil
Manufactured by Philips
The Synergy-L SENSE head coil is a specialized piece of lab equipment designed for use with Philips' MRI systems. It is a receiver coil that is utilized to detect and receive the signal from the patient's head during magnetic resonance imaging procedures. The Synergy-L SENSE head coil is engineered to provide high-quality imaging of the brain and head region.
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5 protocols using synergy l sense head coil
1
Diffusion Tensor Imaging Acquisition Protocol
2
Diffusion Tensor Imaging Acquisition Protocol
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DTI was performed using a Synergy-L SENSE head coil on a 1.5 T Gyroscan Intera system (Philips, Best, The Netherlands) equipped with a single-shot echo-planar imaging system. For each of the 32 noncollinear diffusion-sensitizing gradients, 67 contiguous slices were acquired parallel to the anterior–posterior commissure line. The imaging parameters were as follows: acquisition matrix = 96 × 96, reconstructed matrix = 192 × 192, field of view = 240 × 240 mm2, TR = 10,398 ms, TE = 72 ms, parallel imaging reduction factor (SENSE factor) = 2, EPI factor = 59, b = 1000 s/mm2, NEX = 1, slice gap = 0, and slice thickness = 2.5 mm.
3
Diffusion Tensor Imaging Acquisition
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DTI data were acquired using a Synergy-L SENSE head coil on a 1.5T Gyroscan Intera system (Philips, Best, The Netherlands), equipped with single-shot echo-planar imaging. For each of the 32 non-collinear diffusion sensitizing gradients, 67 contiguous slices were acquired parallel to the anterior commissure-posterior commissure line. The imaging parameters were as follows: acquisition matrix = 96 × 96, reconstructed matrix = 192 × 192 matrix, field of view = 240 × 240 mm2, TR = 10,398 ms, TE = 72 ms, parallel imaging reduction factor (SENSE factor) = 2, EPI factor = 59 and b = 1000 s/mm2, NEX = 1, slice gap = 0, and slice thickness 2.5 mm.
4
Diffusion Tensor Imaging Acquisition Protocol
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Diffusion tensor imaging (DTI) data were acquired using a Synergy-L SENSE head coil on a 1.5T Gyroscan Intera system (Philips, Best, The Netherlands) equipped with single-shot echo-planar imaging. For each of the 32 non-collinear diffusion-sensitizing gradients, 67 contiguous slices were acquired parallel to the anterior commissure-posterior commissure line. The imaging parameters were as follows: acquisition matrix = 96 × 96, reconstructed matrix = 192 × 192 matrix, field of view = 240 × 240 mm 2 , TR = 10,398 ms, TE = 72 ms, parallel imaging reduction factor (SENSE factor) = 2, EPI factor = 59 and b = 1000 s/mm 2 , NEX = 1, slice gap = 0, and slice thickness 2.5 mm.
5
Diffusion Tensor Imaging Protocol for 1.5T MRI
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Diffusion tensor imaging was performed using a Synergy-L SENSE head coil on a 1.5T Gyroscan Intera system (Philips, Best, The Netherlands) equipped with a single-shot echo-planar imaging system. For each of the 32 noncollinear diffusion-sensitizing gradients, 67 contiguous slices were acquired parallel to the anterior commissure-posterior commissure line. The imaging parameters were as follows: acquisition matrix = 96 × 96, reconstructed matrix = 192 × 192 matrix, field of view = 240 × 240 mm2, TR = 10,398 ms, TE = 72 ms, parallel imaging reduction factor (SENSE factor) = 2, EPI factor = 59 and b = 1000 s/mm2, NEX = 1, slice gap = 0, and slice thickness = 2.5 mm.
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