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Review
. 2025 Jan;55(1):36-57.
doi: 10.1007/s00247-024-06133-x. Epub 2025 Jan 6.

Practical approach to quantitative liver and pancreas MRI in children

Justine M Kemp  1   2 Adarsh Ghosh  3 Jonathan R Dillman  3   4 Rekha Krishnasarma  5 Mary Kate Manhard  3   4 Aaryani Tipirneni-Sajja  6   7 Utsav Shrestha  6   7 Andrew T Trout  3   4 Cara E Morin  8   9
Affiliations
Review

Practical approach to quantitative liver and pancreas MRI in children

Justine M Kemp et al. Pediatr Radiol. 2025 Jan.

Abstract

Quantitative abdominal magnetic resonance imaging (MRI) offers non-invasive, objective assessment of diseases in the liver, pancreas, and other organs and is increasingly being used in the pediatric population. Certain quantitative MRI techniques, such as liver proton density fat fraction (PDFF), R2* mapping, and MR elastography, are already in wide clinical use. Other techniques, such as liver T1 mapping and pancreas quantitative imaging methods, are emerging and show promise for enhancing diagnostic sensitivity and treatment monitoring. Quantitative imaging techniques have historically required a breath-hold, making them more difficult to implement in the pediatric population. However, technological advances, including free-breathing techniques and compressed sensing imaging, are making these techniques easier to implement. The purpose of this article is to review current liver and pancreas quantitative techniques and to provide a practical guide for implementing these techniques in pediatric practice. Future directions of liver and pancreas quantitative imaging will be briefly discussed.

Keywords: Elastography, MRI, Children; Fat fraction; Liver; Pancreas; R2*; T1 mapping.

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Conflict of interest statement

Declarations. Competing interests: JK disclosures: None AG disclosures: None; JD disclosures: Received unrelated in-kind research support from Perspectum, Philips Healthcare, GE HealthCare, Motilent, Guerbet, and Bracco Imaging. No support was received for the current work; RK disclosures: None; MKM disclosures: None; US disclosures: None; ATT disclosures: Consulted for GE Healthcare and has received research support from GE Healthcare, Siemens Healthineers, and Perspectum Inc. No support was received for the current work; CE disclosures: None.

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