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Bibliographic Details
Main Authors: Marthinsen, Pål B., Hope, Tuva R., Nordhøy, Wibeke, Cassidy, Deirdre B., Smith, Adrian P. L., Evans, Paul M., Bjørnerud, Atle
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.20358
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author Marthinsen, Pål B.
Hope, Tuva R.
Nordhøy, Wibeke
Cassidy, Deirdre B.
Smith, Adrian P. L.
Evans, Paul M.
Bjørnerud, Atle
author_facet Marthinsen, Pål B.
Hope, Tuva R.
Nordhøy, Wibeke
Cassidy, Deirdre B.
Smith, Adrian P. L.
Evans, Paul M.
Bjørnerud, Atle
contents Objectives: Mn-based MRI contrast agents (MBCAs) have recently been proposed as alternatives to the currently used class of Gd-chelates. Unlike Gd, Mn is an endogenous paramagnetic metal with known biochemical pathways in the human body for excretion and metal regulation, which may alleviate the raised concerns about the safety of existing GBCAs. The aim of this study was to investigate the distribution, kinetics and image enhancement properties of a class of novel Mn-based macrocyclic chelates in a porcine model. Methods: Macrocyclic MBCAs, AH114608, GEH300017 and GEH200486, were tested and compared to gadoterate meglumine. Twelve female adult pigs were divided into four groups (n=3 for each CA). At 3 T MRI, T1 relaxometry analysis were measured longitudinally in multiple organs at five timepoints 30 minutes apart. CA kinetics was estimated from analysis of plasma CA concentrations by ICP-OES. Results: All four CAs exhibited T1-enhancing properties in the blood pool with GEH200486 having the largest increase in T1 relaxation rate (R1), GEH300017 and gadoterate meglumine having similar R1 increase and AH114608 a lower peak R1 change. A persistent increase in liver, kidney and myocardium R1 was observed with AH114608. To a lesser extent, a persistent increase of liver enhancement was also observed in T1-weighted images for GEH300017 and GEH200486 compared to gadoterate meglumine. All four CAs had similar bi-exponential plasma kinetics characterized by a rapid distribution phase and a slower elimination phase. Discussion: We have identified MBCA candidates with predominantly renal clearance and comparable efficacy in terms of vascular T1 relaxation, and comparable to the reference GBCA. The T1-enhancing properties of these novel Mn macrocyclic CAs can be used with routine clinical protocols and could be potentially utilised as an alternative to GBCAs for contrast-enhanced MRI procedures.
format Preprint
id arxiv_https___arxiv_org_abs_2511_20358
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Manganese-based macrocyclic chelates as novel MRI contrast agents: In vivo imaging in a porcine model
Marthinsen, Pål B.
Hope, Tuva R.
Nordhøy, Wibeke
Cassidy, Deirdre B.
Smith, Adrian P. L.
Evans, Paul M.
Bjørnerud, Atle
Medical Physics
Objectives: Mn-based MRI contrast agents (MBCAs) have recently been proposed as alternatives to the currently used class of Gd-chelates. Unlike Gd, Mn is an endogenous paramagnetic metal with known biochemical pathways in the human body for excretion and metal regulation, which may alleviate the raised concerns about the safety of existing GBCAs. The aim of this study was to investigate the distribution, kinetics and image enhancement properties of a class of novel Mn-based macrocyclic chelates in a porcine model. Methods: Macrocyclic MBCAs, AH114608, GEH300017 and GEH200486, were tested and compared to gadoterate meglumine. Twelve female adult pigs were divided into four groups (n=3 for each CA). At 3 T MRI, T1 relaxometry analysis were measured longitudinally in multiple organs at five timepoints 30 minutes apart. CA kinetics was estimated from analysis of plasma CA concentrations by ICP-OES. Results: All four CAs exhibited T1-enhancing properties in the blood pool with GEH200486 having the largest increase in T1 relaxation rate (R1), GEH300017 and gadoterate meglumine having similar R1 increase and AH114608 a lower peak R1 change. A persistent increase in liver, kidney and myocardium R1 was observed with AH114608. To a lesser extent, a persistent increase of liver enhancement was also observed in T1-weighted images for GEH300017 and GEH200486 compared to gadoterate meglumine. All four CAs had similar bi-exponential plasma kinetics characterized by a rapid distribution phase and a slower elimination phase. Discussion: We have identified MBCA candidates with predominantly renal clearance and comparable efficacy in terms of vascular T1 relaxation, and comparable to the reference GBCA. The T1-enhancing properties of these novel Mn macrocyclic CAs can be used with routine clinical protocols and could be potentially utilised as an alternative to GBCAs for contrast-enhanced MRI procedures.
title Manganese-based macrocyclic chelates as novel MRI contrast agents: In vivo imaging in a porcine model
topic Medical Physics
url https://arxiv.org/abs/2511.20358