Evaluation of the Dual-Modal usage of contrast agents by means of Synchrotron X-ray Computed Microtomography and Magnetic Resonance Imaging using Macrophages loaded with Barium Sulfate and Gadolinium Nanoparticles for Detection and Monitoring in Animal Disease Models

摘要

¨This thesis focuses on evaluating the dual-modal Computed Tomography (CT) and Magnetic Resonance Imaging (MRI) capabilities of contrast agents. For such purposes a gadolinium based contrast agent is of high interest, due to its paramagnetic properties, which while present inside a magnetic field will hence interact with the protons spins of water (in tissue and fat) and shorten their the T1 relaxation time, thereby creating a positive image contrast in MRI. Furthermore, the X-ray Mass Attenuation Coefficient (MAC) of gadolinium is relatively high, thus suggesting its potential use, also as a CT contrast agent. Gadolinium nanoparticles (GdNPs) can be loaded into cells, such as macrophages, which offers the possibility to track cells inside entire organisms. In the first step the uptake of GdNPs inside cells was investigated, together with a test for toxicity. To show the potential of using GdNP loaded macrophages for functional imaging of inflammation, an acute allergic airway inflammation mouse model (mimicking asthma in humans) was used and analyzed by in-situ synchrotron phase contrast CT. In the first step this approach was evaluated using macrophages loaded with a clinical contrast agent containing barium sulphate (BaSO4), since this agent is known to provide high contrast in CT. In the ultimate step a combination of both BaSO4 and GdNP loaded macrophages was used in the same asthmatic mouse model and analyzed by dual modal Synchrotron phase contrast CT and Micro Magnetic Resonance Imaging (μ-MRI). Complementary results in terms of the biodistribution of injected macrophages could only be obtained by the combination of both synchrotron phase contrast CT and μ-MRI, where the first modality allows a detailed localization of clustered BaSO4 loaded macrophages, but fails to detect single macrophages, which could instead be indirectly observed by μ-MRI as an increase of the T1-contrast, coming from the soft tissue of mice injected with GdNP loaded macrophages.