Ralph Heimke-Brinck scite author profile

As antibodies to tumor necrosis factor (TNF) suppress immune responses in Crohn’s disease by binding to membrane-bound TNF (mTNF), we created a fluorescent antibody for molecular mTNF imaging in this disease. Topical antibody administration in 25 patients with Crohn’s disease led to detection of intestinal mTNF+ immune cells during confocal laser endomicroscopy. Patients with high numbers of mTNF+ cells showed significantly higher short-term response rates (92%) at week 12 upon subsequent anti-TNF therapy as compared to patients with low amounts of mTNF+ cells (15%). This clinical response in the former patients was sustained over a follow-up period of 1 year and was associated with mucosal healing observed in follow-up endoscopy. These data indicate that molecular imaging with fluorescent antibodies has the potential to predict therapeutic responses to biological treatment and can be used for personalized medicine in Crohn’s disease and autoimmune or inflammatory disorders.

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Development of a lauric acid/albumin hybrid iron oxide nanoparticle system with improved biocompatibility

Zaloga¹,

Janko²,

Nowak³

et al. 2014

IJN

110

115

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The promising potential of superparamagnetic iron oxide nanoparticles (SPIONs) in various nanomedical applications has been frequently reported. However, although many different synthesis methods, coatings, and functionalization techniques have been described, not many core-shell SPION drug delivery systems are available for clinicians at the moment. Here, bovine serum albumin was adsorbed onto lauric acid-stabilized SPIONs. The agglomeration behavior, zeta potential, and their dependence on the synthesis conditions were characterized with dynamic light scattering. The existence and composition of the core-shell-matrix structure was investigated by transmission electron microscopy, Fourier transform infrared spectroscopy, and zeta potential measurements. We showed that the iron oxide cores form agglomerates in the range of 80 nm. Moreover, despite their remarkably low tendency to aggregate even in a complex media like whole blood, the SPIONs still maintained their magnetic properties and were well attractable with a magnet. The magnetic properties were quantified by vibrating sample magnetometry and a superconducting quantum interference device. Using flow cytometry, we further investigated the effects of the different types of nanoparticle coating on morphology, viability, and DNA integrity of Jurkat cells. We showed that by addition of bovine serum albumin, the toxicity of nanoparticles is greatly reduced. We also investigated the effect of the particles on the growth of primary human endothelial cells to further demonstrate the biocompatibility of the particles. As proof of principle, we showed that the hybrid-coated particles are able to carry payloads of up to 800 μg/mL of the cytostatic drug mitoxantrone while still staying colloidally stable. The drug-loaded system exhibited excellent therapeutic potential in vitro, exceeding that of free mitoxantrone. In conclusion, we have synthesized a biocompatible ferrofluid that shows great potential for clinical application. The synthesis is straightforward and reproducible and thus easily translatable into a good manufacturing practice environment.

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Pharmaceutical formulation of HSA hybrid coated iron oxide nanoparticles for magnetic drug targeting

Zaloga

Pöttler

Leitinger

et al. 2016

European Journal of Pharmaceutics and Biopharmaceutics

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473 In Vivo Molecular Imaging Using Fluorescent Anti-TNF Antibodies and Confocal Laser Endomicroscopy Predicts Response to Anti-TNF Therapy in Crohn's Disease

Atreya¹,

Neumann²,

Neufert³

et al. 2013

Gastroenterology

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Su1915 Prediction of Anti-TNF Antibody Responses in Crohn's Disease by Endoscopic Molecular Imaging In Vivo: A Clinical Phase 1 Study

Atreya¹,

Neumann²,

Neufert³

et al. 2012

Gastroenterology

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