Ina Rosenberger scite author profile

The need for test systems for nanoparticle biocompatibility, toxicity, and inflammatory or adaptive immunological responses is paramount. Nanoparticles should be free of microbiological and chemical contaminants, and devoid of toxicity. Nevertheless, in the absence of contamination, these particles may still induce undesired immunological effects in vivo, such as enhanced autoimmunity, hypersensitivity reactions, and fibrosis. Here we show that artificial particles of specific sizes affect immune cell recruitment as tested in a dermal air pouch model in mice. In addition, we demonstrate that the composition of nanoparticles may influence immune cell recruitment in vivo. Aside from biophysical characterizations in terms of hydrodynamic diameter, zeta potential, concentration, and atomic concentration of metals, we show that – after first-line in vitro assays – characterization of cellular and molecular effects by dermal air pouch analysis is straightforward and should be included in the quality control of nanoparticles. We demonstrate this for innate immunological effects such as neutrophil recruitment and the production of immune-modulating matrix metalloproteases such as MMP-9; we propose the use of air pouch leukocytosis analysis as a future standard assay.

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Targeted diagnostic magnetic nanoparticles for medical imaging of pancreatic cancer

Rosenberger

Strauss

Dobiasch

et al. 2015

Journal of Controlled Release

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Physico-chemical and toxicological characterization of iron-containing albumin nanoparticles as platforms for medical imaging

Rosenberger

Schmithals

Vandooren

et al. 2014

Journal of Controlled Release

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Towards hybrid biocompatible magnetic rHuman serum albumin-based nanoparticles: use of ultra-small (CeL_n)^3/4+cation-doped maghemite nanoparticles as functional shell

Israel¹,

Kovalenko²,

Boyko³

et al. 2015

Nanotechnology

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Human serum albumin (HSA) is a protein found in human blood. Over the last decade, HSA has been evaluated as a promising drug carrier. However, not being magnetic, HSA cannot be used for biomedical applications such as magnetic resonance imaging (MRI) and magnetic drug targeting. Therefore, subsequent composites building on iron oxide nanoparticles that are already used clinically as MRI contrast agents are extensively studied. Recently and in this context, innovative fully hydrophilic ultra-small CAN-stabilized maghemite ((CeLn)(3/4+)-γ-Fe2O3) nanoparticles have been readily fabricated. The present study discusses the design, fabrication, and characterization of a dual phase hybrid core (rHSA)-shell ((CeLn)(3/4+)-γ-Fe2O3 NPs) nanosystem. Quite importantly and in contrast to widely used encapsulation strategies, rHSA NP surface-attached (CeLn)(3/4+)-γ-Fe2O3 NPs enabled to exploit both rHSA (protein functionalities) and (CeLn)(3/4+)-γ-Fe2O3 NP surface functionalities (COOH and ligand L coordinative exchange) in addition to very effective MRI contrast capability due to optimal accessibility of H2O molecules with the outer magnetic phase. Resulting hybrid nanoparticles might be used as a platform modular system for therapeutic (drug delivery system) and MR diagnostic purposes.

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Ina Rosenberger

Intradermal air pouch leukocytosis as an in vivo test for nanoparticles

Targeted diagnostic magnetic nanoparticles for medical imaging of pancreatic cancer

Physico-chemical and toxicological characterization of iron-containing albumin nanoparticles as platforms for medical imaging

Towards hybrid biocompatible magnetic rHuman serum albumin-based nanoparticles: use of ultra-small (CeL_n)^3/4+cation-doped maghemite nanoparticles as functional shell

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Ina Rosenberger

Intradermal air pouch leukocytosis as an in vivo test for nanoparticles

Targeted diagnostic magnetic nanoparticles for medical imaging of pancreatic cancer

Physico-chemical and toxicological characterization of iron-containing albumin nanoparticles as platforms for medical imaging

Towards hybrid biocompatible magnetic rHuman serum albumin-based nanoparticles: use of ultra-small (CeLn)3/4+cation-doped maghemite nanoparticles as functional shell

Contact Info

Product

Resources

About

Towards hybrid biocompatible magnetic rHuman serum albumin-based nanoparticles: use of ultra-small (CeL_n)^3/4+cation-doped maghemite nanoparticles as functional shell