Slice-stacking T2-weighted MRI for fast determination of internal target volume for liver tumor

Abstract: Background: To investigate the feasibility of generating maximum intensity projection (MIP) images to determine internal target volume (ITV) using slice-stacking MRI (SS-MRI) technique.Methods: Slice-stacking is a technique which applies a multi-slice MRI acquisition to generate a 3D MIP for ITV contouring, without reconstructing 4D-MRI. 4D digital extended cardiac-torso (XCAT) phantom was used to generate MIP images with sequential 2D HASTE sequence, with different tumor diameters (10, 30 and 50 mm) and with … Show more

“…[17][18][19] For instance, to develop MRI CAs that can target specific tissues, NPs have been modified with specific antibodies that allow the NPs to easily penetrate the centers of lesions to improve the MRI imaging contrast. [20][21][22] Magnetic NPs (MNPs) can also enhance image contrast and increase carry-specific cargos like chemotherapeutic drugs to monitor the development of diseases during treatment and make treatment decisions in real-time. [23][24][25]…”

Novel monodisperse FePt nanocomposites for T2-weighted magnetic resonance imaging: biomedical theranostics applications

“…[17][18][19] For instance, to develop MRI CAs that can target specific tissues, NPs have been modified with specific antibodies that allow the NPs to easily penetrate the centers of lesions to improve the MRI imaging contrast. [20][21][22] Magnetic NPs (MNPs) can also enhance image contrast and increase carry-specific cargos like chemotherapeutic drugs to monitor the development of diseases during treatment and make treatment decisions in real-time. [23][24][25]…”

Novel monodisperse FePt nanocomposites for T2-weighted magnetic resonance imaging: biomedical theranostics applications

“…Magnetic resonance imaging (MRI) has been widely adopted for radiotherapy (RT) applications owing to its nonionizing radiation nature as well as superior soft-tissue image contrasts to CT images. Fourdimensional MRI (4D-MRI) is potentially a valuable tool for motion management in radiotherapy, in particular for MRI-guided radiotherapy (MRIgRT or MRgRT), [1][2][3][4][5] in respiratory motion management, including but not limited to motion characterization, internal target volume (ITV) definition in treatment planning, 6,7 and treatment gating and tracking. [8][9][10][11] Traditionally, 4D computed tomography (4D-CT) has been well established and widely applied for motion management in the radiotherapy of lung cancer, in particularly for ITV definition in treatment planning, but its utilization in abdominal RT is still limited.…”

A pilot study of respiratory motion characterization in the abdomen using a fast volumetric 4D‐MRI for MR‐guided radiotherapy

Non-contrast-enhanced breast MRI for evaluation of tumor volume change after neoadjuvant chemotherapy