12 channel head neck coil

Manufactured by Siemens

Sourced in Germany

The 12-channel head/neck coil is a specialized piece of laboratory equipment designed for use in medical imaging applications. It is a critical component of magnetic resonance imaging (MRI) systems, responsible for transmitting and receiving radio frequency (RF) signals to and from the patient's head and neck region during the imaging process. The coil's primary function is to provide high-quality images of the anatomical structures within the head and neck, enabling healthcare professionals to diagnose and monitor various medical conditions effectively.

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12-channel head coil (598 citations) 12-channel coil (11 citations)

2 protocols using 12 channel head neck coil

MRI and DTI Imaging Protocol

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MRI was conducted in all subjects using a superconducting 3.0T MRI system with 12-channel head/neck coil (Siemens, Erlangen, Germany) at a field strength of 45 mT/m, followed by DTI. The MRI T2 fluid attenuated inversion recovery imaging parameters were: repetition time, 8,000 ms; echo time, 80 ms; field-of-view, 230 × 230 mm²; matrix, 256 × 320; slice thickness, 5 mm. DTI used axial scanning with a plane parallel to the line connecting the anterior and posterior commissures with the following imaging parameters: field-of-view, 230 × 230 mm²; matrix, 128 × 128; 25-layer continuous scan; layer spacing, 0; slice thickness, 4 mm; echo time, 80 ms; repetition time, 3,700 ms. DTI parameters: b-value 1: 0 s/mm², b-value 2: 1,000 s/mm²; number of diffusion gradient directions: 20; number of signal acquisitions: b-value 1: 12, b-value 2: 3; voxel size: 1.7 × 1.7 × 4.0 mm³.

Han X.M., Tian H.J., Han Z., Zhang C., Liu Y., Gu J.B., Bakshi R, & Cao X. (2017). Correlation between white matter damage and gray matter lesions in multiple sclerosis patients. Neural Regeneration Research, 12(5), 787-794.

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FLAWS Imaging Technique for MRI

Cited 1 time

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FLAWS images were acquired using a prototype sequence with a 12-channel head-neck coil in the 3.0-T MRI scanner system (Siemens, Erlangen, Germany; TR/TE, 5,000/2.88; matrix, 256 × 256; FOV, 256 mm; sagittal; slices thickness, 1.0 mm). Two TIs were used to generate the white matter-nulled images (TI1: 409 ms; FLAWS1) and cerebrospinal fluid-nulled images (TI2: 1,100 ms; FLAWS2). The FLAWS image was generated by taking the minimum voxel values of FLAWS1 and FLAWS2. Other details of the scan parameters were previously reported (8 (link)).

Sun K., Yu T., Yang D., Ren Z., Qiao L., Ni D., Wang X., Zhao Y., Chen X., Xiang J., Chen N., Gao R., Yang K., Lin Y., Kober T, & Zhang G. (2021). Fluid and White Matter Suppression Imaging and Voxel-Based Morphometric Analysis in Conventional Magnetic Resonance Imaging-Negative Epilepsy. Frontiers in Neurology, 12, 651592.

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