Real-time 3D MR guided radiation therapy through orthogonal MR imaging and manifold learning.

Journal: Medical physics

PMID: 39625223

Abstract

BACKGROUND: In magnetic resonance image (MRI)-guided radiotherapy (MRgRT), 2D rapid imaging is commonly used to track moving targets with high temporal frequency to minimize gating latency. However, anatomical motion is not constrained to 2D, and a portion of the target may be missed during treatment if 3D motion is not evaluated. While some MRgRT systems attempt to capture 3D motion by sequentially tracking motion in 2D orthogonal imaging planes, this approach assesses 3D motion via independent 2D measurements at alternating instances, lacking a simultaneous 3D motion assessment in both imaging planes.

Authors

John Ginn

Department of Radiation Oncology, Duke Cancer Center, Duke University, Durham, North Carolina, USA.
Chunhao Wang

Department of Radiation Oncology, Duke University Medical Center, Durham, NC, United States.
Deshan Yang

Department of Radiation Oncology, Washington University School of Medicine, 4921 Parkview Place, Campus Box 8224, St. Louis, MO, 63110, USA.

Keywords

Humans Imaging, Three-Dimensional Machine Learning Magnetic Resonance Imaging Movement Radiotherapy, Image-Guided Time Factors

External Resources

View on PubMed Access via DOI PubMed (39625223)

Real-time 3D MR guided radiation therapy through orthogonal MR imaging and manifold learning.

Abstract

Authors

Keywords

External Resources

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