Kengo Nishiyama scite author profile

Kengo Nishiyama

2Publications

20Citation Statements Received

49Citation Statements Given

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Osaka Red Cross Hospital

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Three-dimensional Gradient-echo is Effective in Suppressing Radiofrequency Shielding by a Titanium Mesh

Takatsu

Yoshida²,

Yamamura

et al. 2021

MRMS

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Purpose: To determine which sequence for frequently used general contrast-enhanced brain MRI shows the least radiofrequency shielding effect of a titanium mesh in cranioplasty using a phantom. Methods: A 1.5T MRI scanner was used. Frequently used general 2D and 3D spin-echo sequences (SE) and T 1 spoiled gradient echo sequences (GRE) used for MRI in clinical settings were adopted in this study. A titanium mesh was placed above a cubic phantom containing manganese chloride tetrahydrate and sodium chloride. The signal attenuation ratio and normalized absolute average deviation (NAAD) were calculated. Moreover, the flip angle (FA) dependency in SE and area of excitation dependency in 3D sequences were analyzed using NAAD. Results: The signal attenuation ratio at the position nearest to the titanium mesh for 2D SE was 71.8% larger than that at the position nearest to the titanium mesh for 3D GRE. With regard to NAAD, 3D GRE showed the highest values among the sequences. When FA was increased, radiofrequency shielding effect was improved. There were no significant differences between the narrow and wide area of excitation. 3D GRE showed the least radiofrequency shielding effect, and it was considered as the optimal sequence for MRI in the presence of a titanium mesh. Conclusion: 3D GRE shows the least radiofrequency shielding effect of a titanium mesh after cranioplasty among frequently used general sequences for contrast-enhanced brain MRI.

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A comparison of shimming techniques for optimizing fat suppression in MR mammography

Takatsu

Nishiyama

Miyati

et al. 2013

Radiol Phys Technol

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Kengo Nishiyama

Three-dimensional Gradient-echo is Effective in Suppressing Radiofrequency Shielding by a Titanium Mesh

A comparison of shimming techniques for optimizing fat suppression in MR mammography

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