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3. Repeated Injection of Very Small Superparamagnetic Iron Oxide Particles (VSOPs) in Murine Atherosclerosis: A Safety Study.

Author

Haase, Tobias, Ludwig, Antje, Stach, Anke, Mohtashamdolatshahi, Azadeh, Hauptmann, Ralf, Mundhenk, Lars, Kratz, Harald, Metzkow, Susanne, Kader, Avan, Freise, Christian, Mueller, Susanne, Stolzenburg, Nicola, Radon, Patricia, Liebl, Maik, Wiekhorst, Frank, Hamm, Bernd, Taupitz, Matthias, and Schnorr, Jörg

Subjects
MAGNETIC resonance angiography, FERRIC oxide, IRON in the body, ATHEROSCLEROSIS, ATHEROSCLEROTIC plaque, HOMEOSTASIS, LIVER
Abstract

Citrate-coated electrostatically stabilized very small superparamagnetic iron oxide particles (VSOPs) have been successfully tested as magnetic resonance angiography (MRA) contrast agents and are promising tools for molecular imaging of atherosclerosis. Their repeated use in the background of pre-existing hyperlipidemia and atherosclerosis has not yet been studied. This study aimed to investigate the effect of multiple intravenous injections of VSOPs in atherosclerotic mice. Taurine-formulated VSOPs (VSOP-T) were repeatedly intravenously injected at 100 µmol Fe/kg in apolipoprotein E-deficient (ApoE KO) mice with diet-induced atherosclerosis. Angiographic imaging was carried out by in vivo MRI. Magnetic particle spectrometry was used to detect tissue VSOP content, and tissue iron content was quantified photometrically. Pathological changes in organs, atherosclerotic plaque development, and expression of hepatic iron-related proteins were evaluated. VSOP-T enabled the angiographic imaging of heart and blood vessels with a blood half-life of one hour. Repeated intravenous injection led to VSOP deposition and iron accumulation in the liver and spleen without affecting liver and spleen pathology, expression of hepatic iron metabolism proteins, serum lipids, or atherosclerotic lesion formation. Repeated injections of VSOP-T doses sufficient for MRA analyses had no significant effects on plaque burden, steatohepatitis, and iron homeostasis in atherosclerotic mice. These findings underscore the safety of VSOP-T and support its further development as a contrast agent and molecular imaging tool. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Iron(III)‐tCDTA derivatives as MRI contrast agents

Author

Xie, Jing, Haeckel, Akvile, Hauptmann, Ralf, Ray, Iweta Pryjomska, Limberg, Christian, Kulak, Nora, Hamm, Bernd, and Schellenberger, Eyk

Subjects
low‐molecular‐weight iron(III)‐based contrast agents, iron oxide nanoparticles, iron chelate, magnetic resonance imaging, nephrogenic systemic fibrosis, ddc:610, gadolinium, 610 Medizin und Gesundheit
Abstract

Purpose Low molecular weight iron(III) complex‐based contrast agents (IBCA) including iron(III) trans‐cyclohexane diamine tetraacetic acid [Fe(tCDTA)]− could serve as alternatives to gadolinium‐based contrast agents in MRI. In search for IBCA with enhanced properties, we synthesized derivatives of [Fe(tCDTA)]− and compared their contrast effects. Methods Trans‐cyclohexane diamine tetraacetic acid (tCDTA) was chemically modified in 2 steps: first the monoanhydride of Trans‐cyclohexane diamine tetraacetic acid was generated, and then it was coupled to amines in the second step. After purification, the chelators were analyzed by high‐performance liquid chromatography, mass spectrometry, and NMR spectrometry. The chelators were complexed with iron(III), and the relaxivities of the complexes were measured at 0.94, 1.5, 3, and 7 Tesla. Kinetic stabilities of the complexes were analyzed spectrophotometrically and the redox properties by cyclic voltammetry. Results Using ethylenediamine (en) and trans‐1,4‐diaminocyclohexane, we generated monomers and dimers of tCDTA: en‐tCDTA, en‐tCDTA‐dimer, trans‐1,4‐diaminocyclohexane‐tCDTA, and trans‐1,4‐diaminocyclohexane‐tCDTA‐dimer. The iron(III) complexes of these derivatives had similarly high stabilities as [Fe(tCDTA)]−. The iron(III) complexes of the trans‐1,4‐diaminocyclohexane derivatives had higher T1 relaxivities than [Fe(tCDTA)]− that increased with increasing magnetic field strengths and were highest at 6.8 L·mmol−1·s−1 per molecule for the dimer. Remarkably, the relaxivity of [Fe(en‐tCDTA)]+ had a threefold increase from neutral pH toward pH6. Conclusion Four iron(III) complexes with similar stability in comparison to [Fe(tCDTA)]− were synthesized. The relaxivities of trans‐1,4‐diaminocyclohexane‐tCDTA and trans‐1,4‐diaminocyclohexane‐tCDTA‐dimer complexes were in the same range as gadolinium‐based contrast agents at 3 Tesla. The [Fe(en‐tCDTA)]+ complex is a pH sensor at weakly acidic pH levels, which are typical for various cancer types. DFG Peer Reviewed

Published
2021

10. Iron(III)‐tCDTA derivatives as MRI contrast agents: Increased T 1 relaxivities at higher magnetic field strength and pH sensing

Author

Xie, Jing, Haeckel, Akvile, Hauptmann, Ralf, Ray, Iweta Pryjomska, Limberg, Christian, Kulak, Nora, Hamm, Bernd, and Schellenberger, Eyk

Subjects
low-molecular-weight iron(III)-based contrast agents, iron oxide nanoparticles, iron chelate, magnetic resonance imaging, nephrogenic systemic fibrosis, gadolinium, 600 Technik, Medizin, angewandte Wissenschaften::610 Medizin und Gesundheit::610 Medizin und Gesundheit
Abstract

Purpose: Low molecular weight iron(III) complex-based contrast agents (IBCA) including iron(III) trans-cyclohexane diamine tetraacetic acid [Fe(tCDTA)](-) could serve as alternatives to gadolinium-based contrast agents in MRI. In search for IBCA with enhanced properties, we synthesized derivatives of [Fe(tCDTA)](-) and compared their contrast effects. Methods: Trans-cyclohexane diamine tetraacetic acid (tCDTA) was chemically modified in 2 steps: first the monoanhydride of Trans-cyclohexane diamine tetraacetic acid was generated, and then it was coupled to amines in the second step. After purification, the chelators were analyzed by high-performance liquid chromatography, mass spectrometry, and NMR spectrometry. The chelators were complexed with iron(III), and the relaxivities of the complexes were measured at 0.94, 1.5, 3, and 7 Tesla. Kinetic stabilities of the complexes were analyzed spectrophotometrically and the redox properties by cyclic voltammetry. Results: Using ethylenediamine (en) and trans-1,4-diaminocyclohexane, we generated monomers and dimers of tCDTA: en-tCDTA, en-tCDTA-dimer, trans-1,4-diaminocyclohexane-tCDTA, and trans-1,4-diaminocyclohexane-tCDTA-dimer. The iron(III) complexes of these derivatives had similarly high stabilities as [Fe(tCDTA)](-). The iron(III) complexes of the trans-1,4-diaminocyclohexane derivatives had higher T-1 relaxivities than [Fe(tCDTA)](-) that increased with increasing magnetic field strengths and were highest at 6.8 L.mmol(-1).s(-1) per molecule for the dimer. Remarkably, the relaxivity of [Fe(en-tCDTA)](+) had a threefold increase from neutral pH toward pH6. Conclusion: Four iron(III) complexes with similar stability in comparison to [Fe(tCDTA)](-) were synthesized. The relaxivities of trans-1,4-diaminocyclohexane-tCDTA and trans-1,4-diaminocyclohexane-tCDTA-dimer complexes were in the same range as gadolinium-based contrast agents at 3 Tesla. The [Fe(en-tCDTA)](+) complex is a pH sensor at weakly acidic pH levels, which are typical for various cancer types.

Published
2021
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15. Iron(III)‐tCDTA derivatives as MRI contrast agents: Increased T1 relaxivities at higher magnetic field strength and pH sensing.

Author

Xie, Jing, Haeckel, Akvile, Hauptmann, Ralf, Ray, Iweta Pryjomska, Limberg, Christian, Kulak, Nora, Hamm, Bernd, and Schellenberger, Eyk

Subjects
GADOLINIUM, MAGNETIC flux density, HIGH performance liquid chromatography, IRON, MAGNETIC resonance imaging, CONTRAST effect
Abstract

Purpose: Low molecular weight iron(III) complex‐based contrast agents (IBCA) including iron(III) trans‐cyclohexane diamine tetraacetic acid [Fe(tCDTA)]− could serve as alternatives to gadolinium‐based contrast agents in MRI. In search for IBCA with enhanced properties, we synthesized derivatives of [Fe(tCDTA)]− and compared their contrast effects. Methods: Trans‐cyclohexane diamine tetraacetic acid (tCDTA) was chemically modified in 2 steps: first the monoanhydride of Trans‐cyclohexane diamine tetraacetic acid was generated, and then it was coupled to amines in the second step. After purification, the chelators were analyzed by high‐performance liquid chromatography, mass spectrometry, and NMR spectrometry. The chelators were complexed with iron(III), and the relaxivities of the complexes were measured at 0.94, 1.5, 3, and 7 Tesla. Kinetic stabilities of the complexes were analyzed spectrophotometrically and the redox properties by cyclic voltammetry. Results: Using ethylenediamine (en) and trans‐1,4‐diaminocyclohexane, we generated monomers and dimers of tCDTA: en‐tCDTA, en‐tCDTA‐dimer, trans‐1,4‐diaminocyclohexane‐tCDTA, and trans‐1,4‐diaminocyclohexane‐tCDTA‐dimer. The iron(III) complexes of these derivatives had similarly high stabilities as [Fe(tCDTA)]−. The iron(III) complexes of the trans‐1,4‐diaminocyclohexane derivatives had higher T1 relaxivities than [Fe(tCDTA)]− that increased with increasing magnetic field strengths and were highest at 6.8 L·mmol−1·s−1 per molecule for the dimer. Remarkably, the relaxivity of [Fe(en‐tCDTA)]+ had a threefold increase from neutral pH toward pH6. Conclusion: Four iron(III) complexes with similar stability in comparison to [Fe(tCDTA)]− were synthesized. The relaxivities of trans‐1,4‐diaminocyclohexane‐tCDTA and trans‐1,4‐diaminocyclohexane‐tCDTA‐dimer complexes were in the same range as gadolinium‐based contrast agents at 3 Tesla. The [Fe(en‐tCDTA)]+ complex is a pH sensor at weakly acidic pH levels, which are typical for various cancer types. [ABSTRACT FROM AUTHOR]

Published
2021
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16. MOESM4 of Synthesis of europium-doped VSOP, customized enhancer solution and improved microscopy fluorescence methodology for unambiguous histological detection

Author

Schellenberger, Angela, Hauptmann, Ralf, Millward, Jason, Eyk Schellenberger, Yuske Kobayashi, Taupitz, Matthias, Infante-Duarte, Carmen, Schnorr, Jörg, and Wagner, Susanne

Abstract

Additional file 4: Figure S2. Improved buffer capacity of HEE. Fluorescence signal of Eu3+ remains stable with HEE solution in acidic conditions. Several Eu3+ solutions with c(Eu) = 1000 nmol/L and different HCL in the range from 0.012 to 0.9 mol/L were prepared. 100 μL of these solutions were mixed with 900 μL of the enhancer solution for fluorescence detection. The Eu fluorescence intensity of a solution without HCL was set to 100%. The high buffer capacity of the HEE leads to a stable fluorescence signal with up to 0.5 mol/L of HCL.

Published
2017
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17. Labeling of mesenchymal stem cells for MRI with single-cell sensitivity

Author

Ariza de Schellenberger, Angela, Kratz, Harald, Farr, Tracy D., Hauptmann, Ralf, Wagner, Susanne, Taupitz, Matthias, and Schellenberger, Eyk A.

Subjects
Magnetic field microdistortions, Single-cell imaging, Mesenchymal stem cells, VSOP, MCP, Resovist®
Abstract

Sensitive cell detection by magnetic resonance imaging (MRI) is an important tool for the development of cell therapies. However, clinically approved contrast agents that allow single-cell detection are currently not available. Therefore, we compared very small iron oxide nanoparticles (VSOP) and new multicore carboxymethyl dextran-coated iron oxide nanoparticles (multicore particles, MCP) designed by our department for magnetic particle imaging (MPI) with discontinued Resovist® regarding their suitability for detection of single mesenchymal stem cells (MSC) by MRI. We achieved an average intracellular nanoparticle (NP) load of .10 pg Fe per cell without the use of transfection agents. NP loading did not lead to significantly different results in proliferation, colony formation, and multilineage in vitro differentiation assays in comparison to controls. MRI allowed single-cell detection using VSOP, MCP, and Resovist® in conjunction with high-resolution T2*-weighted imaging at 7 T with postprocessing of phase images in agarose cell phantoms and in vivo after delivery of 2,000 NP-labeled MSC into mouse brains via the left carotid artery. With optimized labeling conditions, a detection rate of ~45% was achieved; however, the experiments were limited by nonhomogeneous NP loading of the MSC population. Attempts should be made to achieve better cell separation for homogeneous NP loading and to thus improve NP-uptake-dependent biocompatibility studies and cell detection by MRI and future MPI. Additionally, using a 7 T MR imager equipped with a cryocoil resulted in approximately two times higher detection. In conclusion, we established labeling conditions for new high-relaxivity MCP, VSOP, and Resovist® for improved MRI of MSC with single-cell sensitivity.

Published
2016

21. Labeling of mesenchymal stem cells for MRI with single-cell sensitivity

Author

Ariza de Schellenberger,Angela, Kratz,Harald, Farr,Tracy, Lowa,Norbert, Hauptmann,Ralf, Wagner,Susanne, Taupitz,Matthias, Schnorr,Joerg, Schellenberger,Eyk, Ariza de Schellenberger,Angela, Kratz,Harald, Farr,Tracy, Lowa,Norbert, Hauptmann,Ralf, Wagner,Susanne, Taupitz,Matthias, Schnorr,Joerg, and Schellenberger,Eyk

Abstract

Angela Ariza de Schellenberger,1 Harald Kratz,1 Tracy D Farr,2,3 Norbert Löwa,4 Ralf Hauptmann,1 Susanne Wagner,1 Matthias Taupitz,1 Jörg Schnorr,1 Eyk A Schellenberger1 1Department of Radiology, 2Department of Experimental Neurology, Center for Stroke Research Berlin, Charité – Universitätsmedizin Berlin, Berlin, Germany; 3School of Life Sciences, University of Nottingham, Medical School, Nottingham, UK; 4Department of Biomagnetic Signals, Physikalisch-Technische Bundesanstalt Berlin, Berlin, Germany Abstract: Sensitive cell detection by magnetic resonance imaging (MRI) is an important tool for the development of cell therapies. However, clinically approved contrast agents that allow single-cell detection are currently not available. Therefore, we compared very small iron oxide nanoparticles (VSOP) and new multicore carboxymethyl dextran-coated iron oxide nanoparticles (multicore particles, MCP) designed by our department for magnetic particle imaging (MPI) with discontinued Resovist® regarding their suitability for detection of single mesenchymal stem cells (MSC) by MRI. We achieved an average intracellular nanoparticle (NP) load of >10 pg Fe per cell without the use of transfection agents. NP loading did not lead to significantly different results in proliferation, colony formation, and multilineage in vitro differentiation assays in comparison to controls. MRI allowed single-cell detection using VSOP, MCP, and Resovist® in conjunction with high-resolution T2*-weighted imaging at 7 T with postprocessing of phase images in agarose cell phantoms and in vivo after delivery of 2,000 NP-labeled MSC into mouse brains via the left carotid artery. With optimized labeling conditions, a detection rate of ~45% was achieved; however, the experiments were limited by nonhomogeneous NP loading of the MSC population. Attempts should be made to achieve better cell separation

Published
2016

49. <UEQN LOC="INLINE" NOTAT="TEX">${{\hfill\ 1\atop \hfill \infty }}$</UEQN>[HgGe<INF>9</INF>]<SUP>2</SUP> – Ein durch Heteroatome kovalent verknüpftes Polymer mit Zintl-Ionen als Bausteinen<FNR HREF="fnxx"></FNR> <FN ID="fnxx"> Diese Arbeit wurde von der Deutschen Forschungsgemeinschaft (SPP 1072) gefördert. Wir danken Herrn Dr. Cordier für die Unterstützung bei der Datensammlung für die Strukturanalyse und Herrn Dr. Eichel für die Aufnahme von ESR-Spektren. </FN>

Author

Nienhaus, Anke, Hauptmann, Ralf, and Fässler, Thomas F.

Abstract

No Abstract

Published
2002
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50. ∞2[Rb4Sn9] — A Low Dimensional Arrangement of Zintl Ions in [Rb(18‐crown‐6)]2Rb2[Sn9](en)1.5

Author

Hauptmann, Ralf and Fässler, Thomas F.

Abstract

The compound [Rb(18‐crown‐6)]2Rb2[Sn9](en)1.5(1) was synthesized from an alloy of formal composition K2Rb2Sn9by dissolving in ethylenediamine (en) followed by the addition of 18‐crown‐6 and toluene. 1crystallizes in the monoclinic space group P21/n with a= 10.557(2), b= 25.837(5), c= 20.855(4)Å, β= 102.39°, and Z= 4. The structure consists of [Sn9]4—cluster anions, which are connected via Rb atoms to infinite ∞2[Rb4Sn9] layers. The layers of binary composition are separated by the crown ether molecules. The crown ether molecules are bound by one side via the Rb atoms to the [Sn9]4—anions. The other side, which is turned away from the Rb atoms, shows only weak van der Waals interactions to the crown ether molecules of the next layer. Comparison with other compounds of similar composition shows, that the variation of the alkali metals and the complexing organic molecules leads to the low dimensional arrangement of the clusters.

Published
2002
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