SMART RHESINs-Superparamagnetic Magnetite Architecture Made of Phenolic Resin Hollow Spheres Coated with Eu(III) Containing Silica Nanoparticles for Future Quantitative Magnetic Particle Imaging Applications.
Julia FeyeJessica MatthiasAlena FischerDavid RudolphJens TreptowRadian PopescuJochen FrankeAnnemarie L ExarhosZoe A BoekelheideDagmar GerthsenClaus FeldmannPeter W RoeskyEsther S RöschPublished in: Small (Weinheim an der Bergstrasse, Germany) (2023)
Magnetic particle imaging (MPI) is a powerful and rapidly growing tomographic imaging technique that allows for the non-invasive visualization of superparamagnetic nanoparticles (NPs) in living matter. Despite its potential for a wide range of applications, the intrinsic quantitative nature of MPI has not been fully exploited in biological environments. In this study, a novel NP architecture that overcomes this limitation by maintaining a virtually unchanged effective relaxation (Brownian plus Néel) even when immobilized is presented. This superparamagnetic magnetite architecture made of phenolic resin hollow spheres coated with Eu(III) containing silica nanoparticles (SMARTH RHESINs) was synthesized and studied. Magnetic particle spectroscopy (MPS) measurements confirm their suitability for potential MPI applications. Photobleaching studies show an unexpected photodynamic due to the fluorescence emission peak of the europium ion in combination with the phenol formaldehyde resin (PFR). Cell metabolic activity and proliferation behavior are not affected. Colocalization experiments reveal the distinct accumulation of SMART RHESINs near the Golgi apparatus. Overall, SMART RHESINs show superparamagnetic behavior and special luminescent properties without acute cytotoxicity, making them suitable for bimodal imaging probes for medical use like cancer diagnosis and treatment. SMART RHESINs have the potential to enable quantitative MPS and MPI measurements both in mobile and immobilized environments.
Keyphrases
- high resolution
- iron oxide nanoparticles
- molecularly imprinted
- single molecule
- iron oxide
- cell therapy
- healthcare
- signaling pathway
- dna methylation
- liver failure
- metal organic framework
- drug delivery
- intensive care unit
- single cell
- quantum dots
- climate change
- respiratory failure
- young adults
- living cells
- extracorporeal membrane oxygenation
- sensitive detection
- papillary thyroid
- solid state
- fluorescent probe
- nucleic acid
- current status