TY - JOUR
T1 - T1-weighted Motion Mitigation in Abdominal MRI
T2 - Technical Principles, Clinical Applications, Current Limitations, and Future Prospects
AU - Kolokythas, Orpheus
AU - Akcicek, Ebru Yaman
AU - Akcicek, Halit
AU - Briller, Noah
AU - Rajamohan, Naveen
AU - Yokoo, Takeshi
AU - Peeters, Hans M.
AU - Revels, Jonathan W.
AU - Cunha, Guilherme Moura
AU - Sahani, Dushyant V.
AU - Mileto, Achille
N1 - Publisher Copyright:
© RSNA, 2024.
PY - 2024/8
Y1 - 2024/8
N2 - Several MRI techniques can be used to mitigate motion-related artifacts, ultimately leading to improved image quality, augmented radiologist performance, and optimized examination efficiency. T1-weighted (T1W) pulse sequences are an indispensable component of clinical protocols in abdominal MRI but usually require multiple breath holds (BHs) during the examination, which not all patients can sustain. Patient motion can affect the quality of T1W imaging so that key diagnostic information, such as intrinsic signal intensity and contrast enhancement image patterns, cannot be determined. Patient motion also has a negative impact on examination efficiency, as multiple acquisition attempts prolong the duration of the examination and often remain noncontributory. Techniques for mitigation of motion-related artifacts at T1W imaging include multiple arterial acquisitions within one BH; free breathing with respiratory gating or respiratory triggering; and radial imaging acquisition techniques, such as golden-angle radial k-space acquisition (stack-of-stars). While each of these techniques has inherent strengths and limitations, the selection of a specific motion-mitigation technique is based on several factors, including the clinical task under investigation, downstream technical ramifications, patient condition, and user preference. The authors review the technical principles of free-breathing motion mitigation techniques in abdominal MRI with T1W sequences, offer an overview of the established clinical applications, and outline the existing limitations of these techniques. In addition, practical guidance for abdominal MRI protocol strategies commonly encountered in clinical scenarios involving patients with limited BH abilities is rendered. Future prospects of free-breathing T1W imaging in abdominal MRI are also discussed.
AB - Several MRI techniques can be used to mitigate motion-related artifacts, ultimately leading to improved image quality, augmented radiologist performance, and optimized examination efficiency. T1-weighted (T1W) pulse sequences are an indispensable component of clinical protocols in abdominal MRI but usually require multiple breath holds (BHs) during the examination, which not all patients can sustain. Patient motion can affect the quality of T1W imaging so that key diagnostic information, such as intrinsic signal intensity and contrast enhancement image patterns, cannot be determined. Patient motion also has a negative impact on examination efficiency, as multiple acquisition attempts prolong the duration of the examination and often remain noncontributory. Techniques for mitigation of motion-related artifacts at T1W imaging include multiple arterial acquisitions within one BH; free breathing with respiratory gating or respiratory triggering; and radial imaging acquisition techniques, such as golden-angle radial k-space acquisition (stack-of-stars). While each of these techniques has inherent strengths and limitations, the selection of a specific motion-mitigation technique is based on several factors, including the clinical task under investigation, downstream technical ramifications, patient condition, and user preference. The authors review the technical principles of free-breathing motion mitigation techniques in abdominal MRI with T1W sequences, offer an overview of the established clinical applications, and outline the existing limitations of these techniques. In addition, practical guidance for abdominal MRI protocol strategies commonly encountered in clinical scenarios involving patients with limited BH abilities is rendered. Future prospects of free-breathing T1W imaging in abdominal MRI are also discussed.
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U2 - 10.1148/rg.230173
DO - 10.1148/rg.230173
M3 - Comment/debate
C2 - 38990776
AN - SCOPUS:85198596111
SN - 0271-5333
VL - 44
JO - Radiographics
JF - Radiographics
IS - 8
M1 - e230173
ER -