Cape Town - 2026 ISMRM-ISMRT Annual Meeting and Exhibition - Quantitative Pelvic, Thorax, and Abdomen

Quantitative Pelvic, Thorax, and Abdomen

Digital Poster

Acquisition & Reconstruction

Tuesday, 12 May 2026

Digital Posters Row H

09:15 - 10:10

Session Number: 467-02

No CME/CE Credit

Similar Sessions

Anything quantitative in the chest, pelvis and abdomen - with a lovely cluster on the heart and a lot of work showing inter-vendor changes in relaxometry!

		467-02-001. Joint black- and bright-blood late gadolinium enhancement for the assessment of left ventricular thrombus Aurelien Bustin, Théo Richard, Victor de Villedon de Naide, Edouard Gerbaud, Thaïs Génisson, Kalvin Narceau, Ewan Barel, Pierre Jaïs, Matthias Stuber, Hubert Cochet IHU LIRYC, Heart Rhythm Disease Institute, Bordeaux, France Impact: The proposed dual black- and bright-blood imaging detects left ventricular thrombus, along with myocardial scar and papillary muscle infarction, which has the potential to considerably reduce overall CMR protocol, while facilitating image analysis due to its co-registered approach.
		467-02-002. Motion Corrected Time-resolved MR Fingerprinting for Free Breathing Abdominal Imaging Di Cui, Zhen Wang, Peder Larson, Duan Xu, Xiaoxi Liu University Of California, San Francisco (UCSF), United States of America Impact: This work enables accurate, rapid, and fully free-breathing multiparametric abdominal MRI (T₁, T₂, T₂*, proton density), advancing motion-robust quantitative imaging toward broader clinical applicability.
		467-02-003. Papillary muscle T2 mapping in acute myocardial infarction Théo Richard, Victor de Villedon de Naide, Edouard Gerbaud, Sane Viola, Thaïs Génisson, Kalvin Narceau, Ewan Barel, Pierre Jaïs, Matthias Stuber, Hubert Cochet, Aurelien Bustin IHU LIRYC, Heart Rhythm Disease Institute, Bordeaux, France Impact: The presence of edema within injured papillary muscles during the acute phase of myocardial infarction may help predict downstream clinical outcomes such as mitral regurgitation.
		467-02-004. Myocardial T1rho Mapping at 1.5 T: Normal Values and Initial Patient Experience Pontus Pandurevic, Jenny Castaings, Jannike Nickander, Alexander Fyrdahl Karolinska Institutet, Solna, Sweden Impact: Myocardial Trho mapping shows promise for detection of myocardial fibrosis and amyloid deposition without contrast-agents, which could expand access to patients with renal dysfunction or gadolinium contraindications. This pilot study reports preliminary protocols and reference values for future clinical translation.
		467-02-005. Diffusion MRI-Based Virtual Elastography for Chronic Kidney Disease Assessment: initial study Yanping Lin, Liujun Liu, Yunyi Liu, Qingyun Wang, Xiaoyan Su, Yunyu Gao, Zhaoyong Li DongGuan Tungwah Hospital, Dongguan Key Laboratory of Radiology and Molecular Imaging, Dongguan, China Impact: Aimed to evaluate the application value of diffusion-weighted imaging (DWI)-based virtual magnetic resonance elastography (vMRE) in chronic kidney disease (CKD), ultimately proposing a novel quantitative MRI framework for renal pathology characterization.
		467-02-006. T1 Mapping–Based Multi-Parametric MRI for Subtyping and Differentiation Grading of Non–Small Cell Lung Cancer Guangzheng Li, Jie Shi The First Affiliated Hospital of Soochow University, Suzhou, China Impact: T1 mapping–based multi-parametric MRI provides a reproducible and non-invasive tool for NSCLC subtyping and grading, with strong potential as a clinically useful imaging biomarker.
		467-02-007. Correcting B1-Induced Errors in RADTSE T2 Mapping: Validation and a Novel Simultaneous Acquisition (RADTSE-DAM) Brian Toner, Ute Goerke, Eze Ahanonu, Kevin Johnson, Fei Han, Vibhas Deshpande, Holden Wu, Ali Bilgin, Maria Altbach University of Arizona, Tucson, United States of America Impact: B₁ heterogeneity corrupts RADTSE T₂ maps, and we demonstrate that constraining the fit with a B₁ map corrects T₂ bias and variance caused by B₁-induced artifacts. We also introduce RADTSE-DAM, a novel sequence for simultaneous B₁ and T₂ mapping.
		467-02-008. Multiparametric exchange protons of CEST and Z-spectrum analysis proton (ZAP) in the human pancreas Yoshiki Kuwatsuru, Vadim Malis, Mitsue MIYAZAKI Juntendo University, Tokyo, Japan Impact: This study introduces simultaneous CEST and ZAP MRI as a non-contrast method for assessing molecular changes and age-related alterations of the pancreas, offering a promising tool for early detection and metabolic characterization of pancreatic disease.
		467-02-009. Dynamic 19F Gas MRI Using 3D Rosette UTE sequence (PETALUTE) Truc Nguyen, Khoi Huynh, Pew-Thian Yap, uzay emir, Yueh Lee University of North Carolina at Chapel Hill, Chapel Hill, United States of America Impact: This work validates the PETALUTE sequence for dynamic 19F gas imaging. This enables flexible, ultra-short echo time (UTE) data acquisition, supporting future free-breathing, high-resolution regional lung ventilation assessment.
		467-02-010. High resolution lipid composition map in high grade breast tumour using chemical shift-encoded imaging on 9.4T preclinical MR Sai Man Cheung, Kwok-Shing Chan, Kangwa Nkonde, Yazan Ayoub, Nicholas Senn, Bernard Siow, Jiabao He Newcastle University, Newcastle upon Tyne, United Kingdom Impact: CSEI is sensitive to lipid dysregulation in the peri-tumoural region of breast cancer, and the submillimetre resolution might support the investigation of cellular actions at the interface between breast cancer and the surrounding adipose tissue, facilitating drug development.
		467-02-011. Validation of Uncertainty Quantification in AI-Derived Liver PDFF Measurements Using MRI Bhavesh Lalwani, Juan Meneses, Sergio Uribe Monash University, Melbourne, Australia Impact: A physics-informed deep learning method for joint liver PDFF and uncertainty quantification has been thoroughly validated across in vivo and in silico MRI. There is significant agreement between PDFF uncertainty and high R2*, large off-resonance field, and low SNR values.
		467-02-012. Inter- and Intra-scanner precision of T1 mapping of the myocardium at 1.5T. Houchun Hu, Chen Lin, Amy Lockwood, Ryan Coleman, Melissa Rogers, Shengzhen Tao, Xiangzhi Zhou, Isabel Cortopassi, Suhny Abbara Mayo Clinic, Jacksonville, Florida, United States of America Impact: T1 mapping of the myocardium across two 1.5T scanners achieved a reproducibility coefficient of 67 msec and a repeatability coefficient range of 33 to 51 msec in ten healthy adult volunteers (mean age: 52 years, SD: 8 years).
		467-02-013. Feasibility of automated roadmapping and holographic visualization for MR-guided endovascular liver procedures G.W.D. Wennemars, Joppe Sallevelt, Evangelia Ilia, C.G. Overduin, Jurgen Futterer, Wyger Brink Radboud University Medical Center, Nijmegen, Netherlands Impact: The proposed workflow improves visualization, accuracy and efficiency of MR-guided liver endovascular procedures in the liver using recently developed techniques, potentially stimulating adoption and development of MR-guided liver endovascular procedures.