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scopus(8)
Biological magnetic cellular spheroids as building blocks for tissue engineering
ArticleAbstract: Magnetic nanoparticles (MNPs), primarily iron oxide nanoparticles, have been incorporated into celluPalabras claves:Ferritin, Magnetic nanoparticles, Magnetoferritin, Tissue engineeringAutores:Casco M., Frank Alexis, Gu Y., Herbst A., Kornev K.G., Mattix B.M., Olsen T.R., Simionescu D.T., Visconti R.P.Fuentes:scopusAccelerated iron oxide nanoparticle degradation mediated by polyester encapsulation within cellular spheroids
ArticleAbstract: Nanomaterials including gold nanoparticles, polymeric nanoparticles, and magnetic iron oxide nanoparPalabras claves:Degradation, Iron oxide nanoparticles, Magnetic nanoparticles, spheroidsAutores:Casco M., Frank Alexis, Mattix B.M., Moore T.L., Olsen T.R., Simionescu D.T., Visconti R.P.Fuentes:scopusIron oxide nanoparticles stimulates extra-cellular matrix production in cellular spheroids
ArticleAbstract: Nanotechnologies have been integrated into drug delivery, and non-invasive imaging applications, intPalabras claves:extracellular matrix, Magnetic nanoparticles, spheroids, Tissue engineeringAutores:Casco M., Evans G., Frank Alexis, Herbst A., Olsen T.R., Pruett L., Rothermel T., Simionescu D.T., Visconti R.P.Fuentes:scopusJanus magnetic cellular spheroids for vascular tissue engineering
ArticleAbstract: Cell aggregates, or spheroids, have been used as building blocks to fabricate scaffold-free tissuesPalabras claves:Iron oxide, Magnetic nanoparticles, spheroids, Tissue engineering, Tissue fusionAutores: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.Fuentes:scopusSynthesis of brightly PEGylated luminescent magnetic upconversion nanophosphors for deep tissue and dual MRI imaging
ArticleAbstract: A method is developed to fabricate monodispersed biocompatible Yb/Er or Yb/Tm doped β-NaGdF4 upconvePalabras claves:capture and release, deep tissue imaging, Magnetic nanoparticles, MRI, upconversion nanophosphorsAutores:Anker J.N., Chen H., Colvin D.C., Crawford T., Frank Alexis, Gore J.C., Mefford O.T., Moore T.L., Qi B.Fuentes:scopusManipulation of cellular spheroid composition and the effects on vascular tissue fusion
ArticleAbstract: Cellular spheroids were investigated as tissue-engineered building blocks that can be fused to formPalabras claves:Magnetic nanoparticles, Magnetic patterning, spheroids, Tissue engineering, Tissue fusionAutores:Casco M., Frank Alexis, Herbst A., Mattix B.M., Olsen T.R., Simionescu D.T., Tarasidis A., Visconti R.P., Williams C.Fuentes:scopusProcessing cellular spheroids for histological examination
ArticleAbstract: Cellular spheroids are three-dimensional cell cultures that mimic native tissues and produce their oPalabras claves:Magnetic nanoparticles, Spheroid histology, spheroids, Tissue engineeringAutores: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.Fuentes:scopusLongitudinal stretching for maturation of vascular tissues using magnetic forces
ArticleAbstract: Cellular spheroids were studied to determine their use as “bioinks” in the biofabrication of tissuePalabras claves:Magnetic forces, Magnetic nanoparticles, spheroids, Tissue engineering, Tissue fusion, Tissue maturationAutores: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.Fuentes:scopus