Renal perfusion assessment using magnetic nanoparticles with 7T dynamic susceptibility contrast MRI in rats

•Magnetic nanoparticles as contrast agent for dynamic susceptibility contrast MRI.•Perfusion MRI parameters can reflect properties of magnetic nanoparticles.•Size of magnetic nanoparticles is the dominate factor to affect perfusion parameters.•PEGylation may affect perfusion parameters for small-siz...

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Published inJournal of magnetism and magnetic materials Vol. 475; pp. 76 - 82
Main Authors Lin, Yen-Ling, Lin, Yu-Chun, Wang, Li-Jen, Ngo, Sin-Ting, Ma, Yunn-Hwa
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.04.2019
Elsevier BV
Subjects
Blood circulation
Blood flow
Blood volume
Contrast agents
Dynamic susceptibility contrast
Feasibility studies
In vivo methods and tests
Kidneys
Magnetic nanoparticles
Magnetic permeability
Magnetic resonance imaging
Nanoparticles
NMR
Nuclear magnetic resonance
Parameters
Particle size
Perfusion MRI
Polyethylene glycol
Rodents
Transit time
Dynamic susceptibility contrast
Perfusion MRI
Magnetic resonance imaging
Polyethylene glycol
Magnetic nanoparticles
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Abstract •Magnetic nanoparticles as contrast agent for dynamic susceptibility contrast MRI.•Perfusion MRI parameters can reflect properties of magnetic nanoparticles.•Size of magnetic nanoparticles is the dominate factor to affect perfusion parameters.•PEGylation may affect perfusion parameters for small-sized particles.•Magnetic nanoparticles are feasible for renal perfusion evaluation. Magnetic nanoparticles (MNPs) can be used as magnetic resonance imaging (MRI) contrast agent with dynamic susceptibility contrast (DSC) MRI, which is an important in vivo method to assess organ perfusion with multiple clinical applications. Since variations in particle size and PEGylation of MNPs may potentially influence particle-tissue interactions in the microcirculation, we evaluate their effects on rat kidneys with DSC MRI. Anesthetized Sprague Dawley rats were cannulated for intravenous injection of dextran-coated MNPs (50 nm and 250 nm; 5 mg/kg) with or without PEGylation during acquirement of DSC MRI images. The results demonstrate that both particle size and PEGylation may alter perfusion parameters. Relative mean transit time (rMTT) of 50 nm particles is 1.8 fold of that of 250 nm particles with or without PEGylation. In MNPs of 50 nm, PEGylation is associated with 38% and 25% shorter time-to-peak (TTP) and time from onset to 50% drop from peak (T50), respectively; however, PEGylation exerts no effect on these parameters of 250 nm particles. Nevertheless, particle size or PEGylation exert no influence on the prediction of relative blood flow or relative blood volume of the kidney. In conclusion, DSC MRI is a feasible method to evaluate renal perfusion and properties of MNPs in circulation.
AbstractList Magnetic nanoparticles (MNPs) can be used as magnetic resonance imaging (MRI) contrast agent with dynamic susceptibility contrast (DSC) MRI, which is an important in vivo method to assess organ perfusion with multiple clinical applications. Since variations in particle size and PEGylation of MNPs may potentially influence particle-tissue interactions in the microcirculation, we evaluate their effects on rat kidneys with DSC MRI. Anesthetized Sprague Dawley rats were cannulated for intravenous injection of dextran-coated MNPs (50 nm and 250 nm; 5 mg/kg) with or without PEGylation during acquirement of DSC MRI images. The results demonstrate that both particle size and PEGylation may alter perfusion parameters. Relative mean transit time (rMTT) of 50 nm particles is 1.8 fold of that of 250 nm particles with or without PEGylation. In MNPs of 50 nm, PEGylation is associated with 38% and 25% shorter time-to-peak (TTP) and time from onset to 50% drop from peak (T50), respectively; however, PEGylation exerts no effect on these parameters of 250 nm particles. Nevertheless, particle size or PEGylation exert no influence on the prediction of relative blood flow or relative blood volume of the kidney. In conclusion, DSC MRI is a feasible method to evaluate renal perfusion and properties of MNPs in circulation.
•Magnetic nanoparticles as contrast agent for dynamic susceptibility contrast MRI.•Perfusion MRI parameters can reflect properties of magnetic nanoparticles.•Size of magnetic nanoparticles is the dominate factor to affect perfusion parameters.•PEGylation may affect perfusion parameters for small-sized particles.•Magnetic nanoparticles are feasible for renal perfusion evaluation. Magnetic nanoparticles (MNPs) can be used as magnetic resonance imaging (MRI) contrast agent with dynamic susceptibility contrast (DSC) MRI, which is an important in vivo method to assess organ perfusion with multiple clinical applications. Since variations in particle size and PEGylation of MNPs may potentially influence particle-tissue interactions in the microcirculation, we evaluate their effects on rat kidneys with DSC MRI. Anesthetized Sprague Dawley rats were cannulated for intravenous injection of dextran-coated MNPs (50 nm and 250 nm; 5 mg/kg) with or without PEGylation during acquirement of DSC MRI images. The results demonstrate that both particle size and PEGylation may alter perfusion parameters. Relative mean transit time (rMTT) of 50 nm particles is 1.8 fold of that of 250 nm particles with or without PEGylation. In MNPs of 50 nm, PEGylation is associated with 38% and 25% shorter time-to-peak (TTP) and time from onset to 50% drop from peak (T50), respectively; however, PEGylation exerts no effect on these parameters of 250 nm particles. Nevertheless, particle size or PEGylation exert no influence on the prediction of relative blood flow or relative blood volume of the kidney. In conclusion, DSC MRI is a feasible method to evaluate renal perfusion and properties of MNPs in circulation.
Author Lin, Yen-Ling
Wang, Li-Jen
Ngo, Sin-Ting
Lin, Yu-Chun
Ma, Yunn-Hwa
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  givenname: Yu-Chun
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  surname: Ma
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  email: yhma@mail.cgu.edu.tw
  organization: Department of Physiology and Pharmacology, Chang Gung University, Taoyuan, Taiwan
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CitedBy_id crossref_primary_10_1002_nbm_4566
crossref_primary_10_1016_j_bioadv_2023_213724
crossref_primary_10_1088_2632_959X_ac0596
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Perfusion MRI
Magnetic resonance imaging
Polyethylene glycol
Magnetic nanoparticles
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Snippet •Magnetic nanoparticles as contrast agent for dynamic susceptibility contrast MRI.•Perfusion MRI parameters can reflect properties of magnetic...
Magnetic nanoparticles (MNPs) can be used as magnetic resonance imaging (MRI) contrast agent with dynamic susceptibility contrast (DSC) MRI, which is an...
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SubjectTerms Blood circulation
Blood flow
Blood volume
Contrast agents
Dynamic susceptibility contrast
Feasibility studies
In vivo methods and tests
Kidneys
Magnetic nanoparticles
Magnetic permeability
Magnetic resonance imaging
Nanoparticles
NMR
Nuclear magnetic resonance
Parameters
Particle size
Perfusion MRI
Polyethylene glycol
Rodents
Transit time
Title Renal perfusion assessment using magnetic nanoparticles with 7T dynamic susceptibility contrast MRI in rats
URI https://dx.doi.org/10.1016/j.jmmm.2018.11.041
https://www.proquest.com/docview/2195914302/abstract/
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