Your search keyword '"González-Mancebo, Daniel"' showing total 3 results

1. Lanthanide vanadate-based trimodal probes for near-infrared luminescent bioimaging, high-field magnetic resonance imaging, and X-ray computed tomography.

Author

Gómez-González, Elisabet, González-Mancebo, Daniel, Núñez, Nuria O., Caro, Carlos, García-Martín, Maria L., Becerro, Ana I., and Ocaña, Manuel

Subjects

*COMPUTED tomography, *MAGNETIC resonance imaging, *LUMINESCENT probes, *RARE earth metals, *X-ray imaging, *BIO-imaging sensors, *CONTRAST media, *POLYACRYLIC acid

Abstract

[Display omitted] We have developed a trimodal bioimaging probe for near-infrared luminescent imaging, high-field magnetic resonance imaging, and X-ray computed tomography using Dy3+ as the paramagnetic component and Nd3+ as the luminescent cation, both of them incorporated in a vanadate matrix. Among different essayed architectures (single phase and core–shell nanoparticles) the one showing the best luminescent properties is that consisting of uniform DyVO 4 nanoparticles coated with a first uniform layer of LaVO 4 and a second layer of Nd3+-doped LaVO 4. The magnetic relaxivity (r 2) at high field (9.4 T) of these nanoparticles was among the highest values ever reported for this kind of probes and their X-ray attenuation properties, due to the presence of lanthanide cations, were also better than those of a commercial contrast agent (iohexol) commonly used for X-ray computed tomography. In addition, they were chemically stable in a physiological medium in which they could be easily dispersed owing to their one-pot functionalization with polyacrylic acid, and, finally, they were non-toxic for human fibroblast cells. Such a probe is, therefore, an excellent multimodal contrast agent for near-infrared luminescent imaging, high-field magnetic resonance imaging, and X-ray computed tomography. [ABSTRACT FROM AUTHOR]

Published

2023

2. Design of a nanoprobe for high field magnetic resonance imaging, dual energy X-ray computed tomography and luminescent imaging.

Author

González-Mancebo, Daniel, Becerro, Ana Isabel, Corral, Ariadna, García-Embid, Sonia, Balcerzyk, Marcin, Garcia-Martin, Maria Luisa, de la Fuente, Jesús M., and Ocaña, Manuel

Subjects

*LUMINESCENCE, *DUAL energy CT (Tomography), *MAGNETIC resonance imaging, *MAGNETIC fields, *X-ray imaging, *COMPUTED tomography, *LUMINESCENCE quenching

Abstract

The combination of different bioimaging techniques, mainly in the field of oncology, allows circumventing the defects associated with the individual imaging modalities, thus providing a more reliable diagnosis. The development of multimodal endogenous probes that are simultaneously suitable for various imaging modalities, such as magnetic resonance imaging (MRI), X-ray computed tomography (CT) and luminescent imaging (LI) is, therefore, highly recommended. Such probes should operate in the conditions imposed by the newest imaging equipment, such as MRI operating at high magnetic fields and dual-energy CT. They should show, as well, high photoluminescence emission intensity for their use in optical imaging and present good biocompatibility. In this context, we have designed a single nanoprobe, based on a core-shell architecture, composed of a luminescent Eu3+:Ba 0.3 Lu 0.7 F 2.7 core surrounded by an external HoF 3 shell that confers the probe with very high magnetic transverse relaxivity at high field. An intermediate, optically inert Ba 0.3 Lu 0.7 F 2.7 layer was interposed between the core and the shell to hinder Eu3+–Ho3+ cross-relaxation and avoid luminescence quenching. The presence of Ba and Lu, with different K-edges, allows for good X-ray attenuation at high and low voltages. The core-shell nanoparticles synthesized are good potential candidates as trimodal bioprobes for MRI at high field, dual-energy CT and luminescent imaging. [ABSTRACT FROM AUTHOR]

Published

2020

3. Room temperature synthesis of water-dispersible Ln3+:CeF3 (Ln = Nd, Tb) nanoparticles with different morphology as bimodal probes for fluorescence and CT imaging.

Author

González-Mancebo, Daniel, Becerro, Ana I., Rojas, T. Cristina, Olivencia, Andrés, Corral, Ariadna, Balcerzyk, Marcin, Cantelar, Eugenio, Cussó, Fernando, and Ocaña, Manuel

Subjects

*CHEMICAL synthesis, *RARE earth metals, *NANOPARTICLES, *FLUORESCENCE, *POLYOLS

Abstract

The singular properties of lanthanide-based inorganic nanoparticles (NPs) has raised the attention of the scientific community in biotechnological applications. In particular, those systems with two or more functionalities are especially interesting. In this work, an effective and commercially attractive procedure has been developed that renders uniform, water-dispersible Ln 3+ :CeF 3 (Ln = Tb, Nd) NPs with different shapes and size. The method consists of the homogeneous precipitation, in a mixture of polyol and water, of cations and anions using precursors that allow the controlled release of the latter. The advantages of the reported method are related to the absence of surfactants, dispersing agents or corrosive precursors as well as to the room temperature of the process. The obtained Tb:CeF 3 NPs produce an intense emission after excitation through the Ce-Tb energy transfer band located in the UV spectral region, thus being potentially useful as phosphors for in-vitro imaging purposes. On the other hand, the synthesized Nd:CeF 3 NPs are good candidates for in-vivo imaging because their excitation and emission wavelengths lie in the biological windows. Finally, the excellent X-ray attenuation efficacy of the Nd:CeF 3 NPs is shown, which confers double functionality to this material as both luminescence bioprobe and contrast agent for X-ray computed-tomography. [ABSTRACT FROM AUTHOR]

Published

2018