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author Schattenfroh, Jakob
Almutawakel, Salma
Bieling, Jan
Castelein, Johannes
Estrella, Melanie
Garteiser, Philippe
Hartung, Viktor
Hillebrandt, Karl H.
Huber, Adrian T.
Körner, Laura
Kröncke, Thomas
Malinka, Thomas
Meyer, Hans-Jonas
Meyer, Tom
Pelzer, Uwe
Pfister, Felix
Sauer, Igor M.
Speth, Anna
Van Beers, Bernard E.
Warmuth, Carsten
Wassenaar, Nienke P. M.
Wu, Yanglei
Reiter, Rolf
Sack, Ingolf
author_facet Schattenfroh, Jakob
Almutawakel, Salma
Bieling, Jan
Castelein, Johannes
Estrella, Melanie
Garteiser, Philippe
Hartung, Viktor
Hillebrandt, Karl H.
Huber, Adrian T.
Körner, Laura
Kröncke, Thomas
Malinka, Thomas
Meyer, Hans-Jonas
Meyer, Tom
Pelzer, Uwe
Pfister, Felix
Sauer, Igor M.
Speth, Anna
Van Beers, Bernard E.
Warmuth, Carsten
Wassenaar, Nienke P. M.
Wu, Yanglei
Reiter, Rolf
Sack, Ingolf
contents Objectives: MR elastography (MRE) offers valuable mechanical tissue characterization, however, in deep abdominal organs like the pancreas conventional single-driver, single-frequency approaches often fail. This study evaluates whether multiplex MRE using multiple drivers and vibration frequencies can overcome these limitations. Methods: This study used single-shot spin-echo MRE in 18 healthy volunteers targeting the liver, pancreas, kidneys, and spleen. Each healthy volunteer underwent 16 MRE examinations with different sets of four vibration frequencies (30-60 Hz) and four driver combinations, and an additional null experiment without vibrations. Further, a cohort of 14 patients with pancreatic ductal adenocarcinoma (PDAC) were retrospectively assessed. The quality of shear-wave fields and stiffness maps was assessed by displacement amplitudes and image sharpness. Results: In healthy volunteers, abdominal coverage with displacement amplitudes above the pre-determined noise level of 4 μm varied between MRE configurations: 24.2% ([0.0%-56.2%], single-driver, 60 Hz), 66.9% ([24.8%-97.7%], single-driver, 30-60 Hz), 70.2% ([0.0%-92.5%], multi-driver, 60 Hz) and 99.9% ([89.4%-100%], multi-driver, 30-60 Hz). In the pancreas, >60% coverage was achieved in all subjects using four drivers and multiple frequencies. This was achieved in only 2/18 subjects using single-driver/single-frequency MRE. Patients with PDAC had 99.1% [91.4%-100%] coverage in the pancreas and 96.3% [63.1%-100%] abdominal coverage (multi-driver, 30-60 Hz). Conclusion: MRE with four drivers and multiple vibration frequencies between 30-60 Hz enables tomographic mapping of tissue stiffness across the entire abdomen, including the pancreas. Multiplex MRE offers a promising approach for generating detailed images of abdominal stiffness, potentially enhancing clinical diagnostics for abdominal and pancreatic diseases.
format Preprint
id arxiv_https___arxiv_org_abs_2505_20093
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Technical recommendation on multiplex MR elastography for tomographic mapping of abdominal stiffness with a focus on the pancreas and pancreatic ductal adenocarcinoma
Schattenfroh, Jakob
Almutawakel, Salma
Bieling, Jan
Castelein, Johannes
Estrella, Melanie
Garteiser, Philippe
Hartung, Viktor
Hillebrandt, Karl H.
Huber, Adrian T.
Körner, Laura
Kröncke, Thomas
Malinka, Thomas
Meyer, Hans-Jonas
Meyer, Tom
Pelzer, Uwe
Pfister, Felix
Sauer, Igor M.
Speth, Anna
Van Beers, Bernard E.
Warmuth, Carsten
Wassenaar, Nienke P. M.
Wu, Yanglei
Reiter, Rolf
Sack, Ingolf
Medical Physics
Biological Physics
Objectives: MR elastography (MRE) offers valuable mechanical tissue characterization, however, in deep abdominal organs like the pancreas conventional single-driver, single-frequency approaches often fail. This study evaluates whether multiplex MRE using multiple drivers and vibration frequencies can overcome these limitations. Methods: This study used single-shot spin-echo MRE in 18 healthy volunteers targeting the liver, pancreas, kidneys, and spleen. Each healthy volunteer underwent 16 MRE examinations with different sets of four vibration frequencies (30-60 Hz) and four driver combinations, and an additional null experiment without vibrations. Further, a cohort of 14 patients with pancreatic ductal adenocarcinoma (PDAC) were retrospectively assessed. The quality of shear-wave fields and stiffness maps was assessed by displacement amplitudes and image sharpness. Results: In healthy volunteers, abdominal coverage with displacement amplitudes above the pre-determined noise level of 4 μm varied between MRE configurations: 24.2% ([0.0%-56.2%], single-driver, 60 Hz), 66.9% ([24.8%-97.7%], single-driver, 30-60 Hz), 70.2% ([0.0%-92.5%], multi-driver, 60 Hz) and 99.9% ([89.4%-100%], multi-driver, 30-60 Hz). In the pancreas, >60% coverage was achieved in all subjects using four drivers and multiple frequencies. This was achieved in only 2/18 subjects using single-driver/single-frequency MRE. Patients with PDAC had 99.1% [91.4%-100%] coverage in the pancreas and 96.3% [63.1%-100%] abdominal coverage (multi-driver, 30-60 Hz). Conclusion: MRE with four drivers and multiple vibration frequencies between 30-60 Hz enables tomographic mapping of tissue stiffness across the entire abdomen, including the pancreas. Multiplex MRE offers a promising approach for generating detailed images of abdominal stiffness, potentially enhancing clinical diagnostics for abdominal and pancreatic diseases.
title Technical recommendation on multiplex MR elastography for tomographic mapping of abdominal stiffness with a focus on the pancreas and pancreatic ductal adenocarcinoma
topic Medical Physics
Biological Physics
url https://arxiv.org/abs/2505.20093