Simulation of time–intensity curve based on k-space filling in breast dynamic contrast-enhanced three-dimensional magnetic resonance imaging

Yasuo Takatsu; Tsuyoshi Ueyama; Takahiro Iwasaki; Tomoko Tateyama; Tosiaki Miyati

doi:10.1007/s12194-024-00793-y

Simulation of time–intensity curve based on k-space filling in breast dynamic contrast-enhanced three-dimensional magnetic resonance imaging

Yasuo Takatsu, Tsuyoshi Ueyama, Takahiro Iwasaki, Tomoko Tateyama, Tosiaki Miyati

Research output: Contribution to journal › Article › peer-review

Abstract

This study elucidated the effects of a three-dimensional k-space trajectory incorporating the partial Fourier (PF) technique on a time–intensity curve (TIC) in a dynamic contrast-enhanced magnetic resonance imaging of a typical malignant breast tumor using a digital phantom. Images were obtained from the Cancer Imaging Archive Open Data for Breast Cancer, and 1-min scans with high temporal resolution were analyzed. The order of the k-space trajectory was set as Linear (sequential), Low–High (centric), PF (62.5%; Z-, Y-, and both directions), and Low–High Radial. k0 (center of the k-space) timing and TIC shape were affected by the chosen k-space trajectory and implementation of the PF technique. A small TIC gradient was obtained using a Low–High Radial order. If the k-space filling method (particularly the radial method) produces a gentle TIC gradient, misinterpretation could arise during the assessment of tumor malignancy status.

Original language	English
Pages (from-to)	536-552
Number of pages	17
Journal	Radiological Physics and Technology
Volume	17
Issue number	2
DOIs	https://doi.org/10.1007/s12194-024-00793-y
Publication status	Published - 06-2024
Externally published	Yes

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Radiation
Physical Therapy, Sports Therapy and Rehabilitation
Radiology Nuclear Medicine and imaging

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title = "Simulation of time–intensity curve based on k-space filling in breast dynamic contrast-enhanced three-dimensional magnetic resonance imaging",

abstract = "This study elucidated the effects of a three-dimensional k-space trajectory incorporating the partial Fourier (PF) technique on a time–intensity curve (TIC) in a dynamic contrast-enhanced magnetic resonance imaging of a typical malignant breast tumor using a digital phantom. Images were obtained from the Cancer Imaging Archive Open Data for Breast Cancer, and 1-min scans with high temporal resolution were analyzed. The order of the k-space trajectory was set as Linear (sequential), Low–High (centric), PF (62.5%; Z-, Y-, and both directions), and Low–High Radial. k0 (center of the k-space) timing and TIC shape were affected by the chosen k-space trajectory and implementation of the PF technique. A small TIC gradient was obtained using a Low–High Radial order. If the k-space filling method (particularly the radial method) produces a gentle TIC gradient, misinterpretation could arise during the assessment of tumor malignancy status.",

keywords = "Breast tumor, Magnetic resonance imaging, Partial Fourier technique, Three-dimensional k-space trajectory, Time–intensity curve",

author = "Yasuo Takatsu and Tsuyoshi Ueyama and Takahiro Iwasaki and Tomoko Tateyama and Tosiaki Miyati",

note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive licence to Japanese Society of Radiological Technology and Japan Society of Medical Physics 2024.",

year = "2024",

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doi = "10.1007/s12194-024-00793-y",

language = "English",

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T1 - Simulation of time–intensity curve based on k-space filling in breast dynamic contrast-enhanced three-dimensional magnetic resonance imaging

AU - Takatsu, Yasuo

AU - Ueyama, Tsuyoshi

AU - Iwasaki, Takahiro

AU - Tateyama, Tomoko

AU - Miyati, Tosiaki

N1 - Publisher Copyright: © The Author(s), under exclusive licence to Japanese Society of Radiological Technology and Japan Society of Medical Physics 2024.

PY - 2024/6

Y1 - 2024/6

N2 - This study elucidated the effects of a three-dimensional k-space trajectory incorporating the partial Fourier (PF) technique on a time–intensity curve (TIC) in a dynamic contrast-enhanced magnetic resonance imaging of a typical malignant breast tumor using a digital phantom. Images were obtained from the Cancer Imaging Archive Open Data for Breast Cancer, and 1-min scans with high temporal resolution were analyzed. The order of the k-space trajectory was set as Linear (sequential), Low–High (centric), PF (62.5%; Z-, Y-, and both directions), and Low–High Radial. k0 (center of the k-space) timing and TIC shape were affected by the chosen k-space trajectory and implementation of the PF technique. A small TIC gradient was obtained using a Low–High Radial order. If the k-space filling method (particularly the radial method) produces a gentle TIC gradient, misinterpretation could arise during the assessment of tumor malignancy status.

AB - This study elucidated the effects of a three-dimensional k-space trajectory incorporating the partial Fourier (PF) technique on a time–intensity curve (TIC) in a dynamic contrast-enhanced magnetic resonance imaging of a typical malignant breast tumor using a digital phantom. Images were obtained from the Cancer Imaging Archive Open Data for Breast Cancer, and 1-min scans with high temporal resolution were analyzed. The order of the k-space trajectory was set as Linear (sequential), Low–High (centric), PF (62.5%; Z-, Y-, and both directions), and Low–High Radial. k0 (center of the k-space) timing and TIC shape were affected by the chosen k-space trajectory and implementation of the PF technique. A small TIC gradient was obtained using a Low–High Radial order. If the k-space filling method (particularly the radial method) produces a gentle TIC gradient, misinterpretation could arise during the assessment of tumor malignancy status.

KW - Breast tumor

KW - Magnetic resonance imaging

KW - Partial Fourier technique

KW - Three-dimensional k-space trajectory

KW - Time–intensity curve

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Simulation of time–intensity curve based on k-space filling in breast dynamic contrast-enhanced three-dimensional magnetic resonance imaging

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