0000000000280310

AUTHOR

Donald Lobsien

Tracking of Autologous VSOP-Labeled Mesenchymal Stem Cells in the Sheep Brain Using 3.0 T MRI

Assessment of biodistribution and monitoring of cell migration processes in vivo are essential for the safety of novel cell-based therapies for ischemic stroke and early-stage clinical trials, but are mainly lacking investigation in large animal models which are closer to the situation found in human patients. This chapter reports a series of experiments which establish a MRI-sensitive labeling procedure for autologous ovine mesenchymal stem cells (MSC) and the assessment of in vivo and in vitro detection limits of the cells at 3.0 T. Cell migration was monitored after intravenous transplantation following experimental stroke in sheep. Cell detection was feasible at 3.0 T with detection lim…

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Implicitly and explicitly assessed anxiety: No relationships with recognition of and brain response to facial emotions.

Abstract Trait anxiety, the disposition to experience anxiety, is known to facilitate perception of threats. Trait anxious individuals seem to identify threatening stimuli such as fearful facial expressions more accurately, especially when presented under temporal constraints. In past studies on anxiety and emotion face recognition, only self-report or explicit measures of anxiety have been administered. Implicit measures represent indirect tests allowing to circumvent problems associated with self-report. In our study, we made use of implicit in addition to explicit measures to investigate the relationships of trait anxiety with recognition of and brain response to emotional faces. 75 heal…

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A Safe and Effective Magnetic Labeling Protocol for MRI-Based Tracking of Human Adult Neural Stem Cells

Magnetic resonance imaging (MRI) provides a unique tool for in vivo visualization and tracking of stem cells in the brain. This is of particular importance when assessing safety of experimental cell treatments in the preclinical or clinical setup. Yet, specific imaging requires an efficient and non-perturbing cellular magnetic labeling which precludes adverse effects of the tag, e.g., the impact of iron-oxide-nanoparticles on the critical differentiation and integration processes of the respective stem cell population investigated. In this study we investigated the effects of very small superparamagnetic iron oxide particle (VSOP) labeling on viability, stemness, and neuronal differentiatio…

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Imaging of VSOP labeled stem cells in agarose phantoms with susceptibility weighted and T2* weighted MR Imaging at 3T: determination of the detection limit.

Objectives This study aimed to evaluate the detectability of stem cells labeled with very small iron oxide particles (VSOP) at 3T with susceptibility weighted (SWI) and T2* weighted imaging as a methodological basis for subsequent examinations in a large animal stroke model (sheep). Materials and Methods We examined ovine mesenchymal stem cells labeled with VSOP in agarose layer phantoms. The experiments were performed in 2 different groups, with quantities of 0–100,000 labeled cells per layer. 15 different SWI- and T2*-weighted sequences and 3 RF coils were used. All measurements were carried out on a clinical 3T MRI. Images of Group A were analyzed by four radiologists blinded for the num…

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