Documentos de Visconti R.P. | REDI

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Mostrando 7 resultados de: 7

Subtipo de publicación

Publisher

Acta Biomaterialia(2)

Bioengineering(2)

Advanced Functional Materials(1)

Biomaterials(1)

Journal of Histotechnology(1)

Área temáticas

Ingeniería y operaciones afines(3)

Anatomía humana, citología, histología(2)

Enfermedades(2)

Fisiología humana(2)

Fisiología y materias afines(2)

Área de conocimiento

Biología celular(2)

Ciencia de materiales(2)

Biomateriales(1)

Biotecnología(1)

Año de Publicación

Origen

Palabras Claves

Magnetic nanoparticles(7)

Tissue engineering(6)

Tissue fusion(3)

Biological magnetic cellular spheroids as building blocks for tissue engineering

Abstract: Magnetic nanoparticles (MNPs), primarily iron oxide nanoparticles, have been incorporated into cellu

Palabras claves:

Ferritin, Magnetic nanoparticles, Magnetoferritin, Tissue engineering

Casco M., Frank Alexis, Gu Y., Herbst A., Kornev K.G., Mattix B.M., Olsen T.R., Simionescu D.T., Visconti R.P.

Accelerated iron oxide nanoparticle degradation mediated by polyester encapsulation within cellular spheroids

Abstract: Nanomaterials including gold nanoparticles, polymeric nanoparticles, and magnetic iron oxide nanopar

Palabras claves:

Degradation, Iron oxide nanoparticles, Magnetic nanoparticles, spheroids

Casco M., Frank Alexis, Mattix B.M., Moore T.L., Olsen T.R., Simionescu D.T., Visconti R.P.

Manipulation of cellular spheroid composition and the effects on vascular tissue fusion

Abstract: Cellular spheroids were investigated as tissue-engineered building blocks that can be fused to form

Palabras claves:

Magnetic nanoparticles, Magnetic patterning, spheroids, Tissue engineering, Tissue fusion

Casco M., Frank Alexis, Herbst A., Mattix B.M., Olsen T.R., Simionescu D.T., Tarasidis A., Visconti R.P., Williams C.

Longitudinal stretching for maturation of vascular tissues using magnetic forces

Abstract: Cellular spheroids were studied to determine their use as “bioinks” in the biofabrication of tissue

Palabras claves:

Magnetic forces, Magnetic nanoparticles, spheroids, Tissue engineering, Tissue fusion, Tissue maturation

Barry K., Casco M., Evans G., Frank Alexis, Herbst A., Jaeggli M.P., Olsen T.R., Pruett L., Reid J., Rothermel T., Simionescu D.T., Visconti R.P.

Iron oxide nanoparticles stimulates extra-cellular matrix production in cellular spheroids

Abstract: Nanotechnologies have been integrated into drug delivery, and non-invasive imaging applications, int

Palabras claves:

extracellular matrix, Magnetic nanoparticles, spheroids, Tissue engineering

Casco M., Evans G., Frank Alexis, Herbst A., Olsen T.R., Pruett L., Rothermel T., Simionescu D.T., Visconti R.P.

Janus magnetic cellular spheroids for vascular tissue engineering

Abstract: Cell aggregates, or spheroids, have been used as building blocks to fabricate scaffold-free tissues

Palabras claves:

Iron oxide, Magnetic nanoparticles, spheroids, Tissue engineering, Tissue fusion

Casco M., Frank Alexis, Mattix B.M., Olsen T.R., Poole J.T., Reese L., Simionescu A., Simionescu D.T., Visconti R.P., Zhang J.

Processing cellular spheroids for histological examination

Abstract: Cellular spheroids are three-dimensional cell cultures that mimic native tissues and produce their o

Palabras claves:

Magnetic nanoparticles, Spheroid histology, spheroids, Tissue engineering

Casco M., Evans G., Frank Alexis, Herbst A., Jenkins L., Mattix B.M., McMahan C., Olsen T.R., Simionescu D.T., Tarasidis A., Visconti R.P., Williams C.