Surface modification effect on contrast agent efficiency for X-ray based spectral photon-counting scanner/luminescence imaging: from fundamental study to in vivo proof of concept.
Loic CuauPia AklArthur GautheronAngèle HoumeauFrédéric ChaputAla YarominaLudwig DuboisPhilippe LambinSzilvia KarpatiStéphane ParolaB RezaeifarJean-Baptiste LangloisSalim A Si-MohamedBruno MontcelPhilippe DouekFrederic LerougePublished in: Nanoscale (2024)
X-Ray imaging techniques are among the most widely used modalities in medical imaging and their constant evolution has led to the emergence of new technologies. The new generation of computed tomography (CT) systems - spectral photonic counting CT (SPCCT) and X-ray luminescence optical imaging - are examples of such powerful techniques. With these new technologies the rising demand for new contrast agents has led to extensive research in the field of nanoparticles and the possibility to merge the modalities appears to be highly attractive. In this work, we propose the design of lanthanide-based nanocrystals as a multimodal contrast agent with the two aforementioned technologies, allowing SPCCT and optical imaging at the same time. We present a systematic study on the effect of the Tb 3+ doping level and surface modification on the generation of contrast with SPCCT and the luminescence properties of GdF 3 :Tb 3+ nanocrystals (NCs), comparing different surface grafting with organic ligands and coatings with silica to make these NCs bio-compatible. A comparison of the luminescence properties of these NCs with UV revealed that the best results were obtained for the Gd 0.9 Tb 0.1 F 3 composition. This property was confirmed under X-ray excitation in microCT and with SPCCT. Moreover, we could demonstrate that the intensity of the luminescence and the excited state lifetime are strongly affected by the surface modification. Furthermore, whatever the chemical nature of the ligand, the contrast with SPCCT did not change. Finally, the successful proof of concept of multimodal imaging was performed in vivo with nude mice in the SPCCT taking advantage of the so-called color K-edge imaging method.
Keyphrases
- high resolution
- dual energy
- computed tomography
- energy transfer
- magnetic resonance
- contrast enhanced
- quantum dots
- magnetic resonance imaging
- mycobacterium tuberculosis
- healthcare
- mass spectrometry
- positron emission tomography
- image quality
- type diabetes
- chronic pain
- pain management
- optical coherence tomography
- insulin resistance
- room temperature
- living cells
- metal organic framework
- fluorescent probe