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Literature DB >> 20868627

Magnetic resonance imaging of monocytes labeled with ultrasmall superparamagnetic particles of iron oxide using magnetoelectroporation in an animal model of multiple sclerosis.

Raoul D Oude Engberink¹, Susanne M A van der Pol, Pjotr Walczak, Annette van der Toorn, Max A Viergever, Christine D Dijkstra, Jeff W M Bulte, Helga E de Vries, Erwin L A Blezer.

Abstract

AbstractInfiltrated monocytes play a crucial role in the demyelination process during multiple sclerosis (MS), an inflammatory disease of the central nervous system (CNS). Still, methods to monitor their infiltration pattern over time are lacking. In this study, magnetoelectroporation (MEP) was used to label rat monocytes with the superparamagnetic iron oxide particles Sinerem, Endorem, and Supravist. Supravist-labeled monocytes were injected in rats that we induced with experimental autoimmune encephalomyelitis, a model for MS. Imaging at 4.7 and 9.4 T revealed multiple foci of decreased signal intensity predominantly located in the cerebellum. Immunohistochemical evaluation confirmed the presence of intracellular iron in infiltrated cells, indicating the suitability of MEP to specifically follow labeled monocytes in vivo in this disease model. This technique may be further optimized and potentially used in MS patients to assess monocyte migration into the brain and to monitor the efficacy of therapeutic agents aimed at blocking cellular migration into the CNS.

Entities: Chemical Disease Gene Species

Mesh：

Substances：

Year: 2010 PMID： 20868627 PMCID： PMC3031981

Source DB: PubMed Journal: Mol Imaging ISSN： 1535-3508 Impact factor: 4.488

27 in total

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3. Instant MR labeling of stem cells using magnetoelectroporation.

Authors: P Walczak; D A Kedziorek; A A Gilad; S Lin; J W M Bulte
Journal: Magn Reson Med Date: 2005-10 Impact factor: 4.668

4. Lipoic acid affects cellular migration into the central nervous system and stabilizes blood-brain barrier integrity.

Authors: Gerty Schreibelt; René J P Musters; Arie Reijerkerk; Lody R de Groot; Susanne M A van der Pol; Esther M L Hendrikx; Ed D Döpp; Christine D Dijkstra; Benjamin Drukarch; Helga E de Vries
Journal: J Immunol Date: 2006-08-15 Impact factor: 5.422

5. In vivo macrophage activity imaging in the central nervous system detected by magnetic resonance.

Authors: V Dousset; C Delalande; L Ballarino; B Quesson; D Seilhan; M Coussemacq; E Thiaudiére; B Brochet; P Canioni; J M Caillé
Journal: Magn Reson Med Date: 1999-02 Impact factor: 4.668

Review 6. Iron oxide MR contrast agents for molecular and cellular imaging.

Authors: Jeff W M Bulte; Dara L Kraitchman
Journal: NMR Biomed Date: 2004-11 Impact factor: 4.044

7. Magnetoelectroporation: improved labeling of neural stem cells and leukocytes for cellular magnetic resonance imaging using a single FDA-approved agent.

Authors: Piotr Walczak; Jesus Ruiz-Cabello; Dorota A Kedziorek; Assaf A Gilad; Sopo Lin; Bradley Barnett; Lu Qin; Hyam Levitsky; Jeff W M Bulte
Journal: Nanomedicine Date: 2006-06 Impact factor: 5.307

8. Cell tagging with clinically approved iron oxides: feasibility and effect of lipofection, particle size, and surface coating on labeling efficiency.

Authors: Lars Matuszewski; Thorsten Persigehl; Alexander Wall; Wolfram Schwindt; Bernd Tombach; Manfred Fobker; Christopher Poremba; Wolfgang Ebert; Walter Heindel; Christoph Bremer
Journal: Radiology Date: 2005-03-04 Impact factor: 11.105

9. Comparison of SPIO and USPIO for in vitro labeling of human monocytes: MR detection and cell function.

Authors: Raoul D Oude Engberink; Susanne M A van der Pol; Ed A Döpp; Helga E de Vries; Erwin L A Blezer
Journal: Radiology Date: 2007-05 Impact factor: 11.105

10. In vivo leukocyte labeling with intravenous ferumoxides/protamine sulfate complex and in vitro characterization for cellular magnetic resonance imaging.

Authors: Y Jeffrey Wu; Leslie L Muldoon; Csanad Varallyay; Sheila Markwardt; Richard E Jones; Edward A Neuwelt
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9 in total

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Journal: J Extracell Vesicles Date: 2022-07

Review 2. Orthopaedic applications of nanoparticle-based stem cell therapies.

Authors: Ian Wimpenny; Hareklea Markides; Alicia J El Haj
Journal: Stem Cell Res Ther Date: 2012-04-19 Impact factor: 6.832

3. MRI of auto-transplantation of bone marrow-derived stem-progenitor cells for potential repair of injured arteries.

Authors: Yanfeng Meng; Feng Zhang; Tiffany Blair; Huidong Gu; Hongqing Feng; Jinnan Wang; Chun Yuan; Zhaoqi Zhang; Bensheng Qiu; Xiaoming Yang
Journal: PLoS One Date: 2012-02-17 Impact factor: 3.240

4. Detecting deoxyhemoglobin in spinal cord vasculature of the experimental autoimmune encephalomyelitis mouse model of multiple sclerosis using susceptibility MRI and hyperoxygenation.

Authors: Nabeela Nathoo; James A Rogers; V Wee Yong; Jeff F Dunn
Journal: PLoS One Date: 2015-05-18 Impact factor: 3.240

Review 5. Iron Oxide as an MRI Contrast Agent for Cell Tracking.

Authors: Daniel J Korchinski; May Taha; Runze Yang; Nabeela Nathoo; Jeff F Dunn
Journal: Magn Reson Insights Date: 2015-10-06

Review 6. Understanding disease processes in multiple sclerosis through magnetic resonance imaging studies in animal models.

Authors: Nabeela Nathoo; V Wee Yong; Jeff F Dunn
Journal: Neuroimage Clin Date: 2014-04-24 Impact factor: 4.881