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Compensation for z-directional non-uniformity of a monopole antenna at 7T MRI

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Abstract

The research was conducted to find ways to compensate for z-directional non-uniformity at a monopole antenna array (MA) coil by using a tilted optimized non-saturating excitation (TONE) pulse and to evaluate the feasibility of using the MA coil with the TONE pulse for anatomical and angiographic imaging. The sensitivity of a MA coil along the z-direction was measured by using an actual flip angle imaging pulse sequence with an oil phantom to evaluate the flip angle distributions of the MA coil for 7T magnetic resonance imaging (MRI). The effects on the z-directional uniformity were examined by using slow and fast TONE pulses, i.e., TONE SLOW and TONE FAST. T1- and T2* -weighted images of the human brain were also examined. The z-directional profiles of the TONE pulses were analyzed by using the average signal intensity throughout the brain. The effect of the TONE pulses on cerebral vessels was further examined by analyzing maximal intensity projections of T1-weighted images. With increasing the applied flip angles, the sensitivity slope slightly increased (0.044 per degree). For the MA coil, the TONE SLOWpulse yielded a compensated profile along the z-direction while the TONE HIGH pulse, which has a flat excitation profile along the z-direction, exhibited a tilted signal intensity toward the coil end, clearly indicating an intrinsic property of the MA coil. Similar to the phantom study, human brain images revealed z-directional symmetry around the peak value for the averaged signal intensity of the TONE SLOW pulse while the TONE HIGH pulse exhibited a tilted signal intensity toward the coil end. In vascular system imaging, the MA coil also clearly demonstrated a beneficial effect on the cerebral vessels, either with or without the TONE pulses. This study demonstrates that TONE pulses could compensate for the intrinsic z-directional non-uniformity of MA coils that exhibit strong uniformity in the x-y plane. Furthermore, tilted pulses, such as TONE pulses, were utilized for visualizing small vessels. Appropriately combining MA coils and TONE pulses could help advance micro-vessel visualization.

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Authors and Affiliations

  1. Neuroscience Research Institute, Gachon University, Incheon, 21565, Korea

    Nambeom Kim & Myung-Kyun Woo

  2. Department of Radiological Science, College of Health Science, Gachon University, Incheon, 21936, Korea

    Chang-Ki Kang

Authors
  1. Nambeom Kim
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  2. Myung-Kyun Woo
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  3. Chang-Ki Kang
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Correspondence to Chang-Ki Kang.

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Kim, N., Woo, MK. & Kang, CK. Compensation for z-directional non-uniformity of a monopole antenna at 7T MRI. Journal of the Korean Physical Society 68, 1352–1358 (2016). https://doi.org/10.3938/jkps.68.1352

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  • DOI: https://doi.org/10.3938/jkps.68.1352

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