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Nanogels as prospective Biomaterial: Radio-induced Synthesis, Characterization, and Biological Assays


 
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1. Título Título del documento Nanogels as prospective Biomaterial: Radio-induced Synthesis, Characterization, and Biological Assays
 
2. Creador/a Nombre de autor/a, institución, país Adrian Alejandro Ges Naranjo; Universidad de la Habana; Cuba
 
2. Creador/a Nombre de autor/a, institución, país Herlys Viltres Cobas; Centre of Research in Applied Science and Advanced Technology, Legaria-Unit National Polytechnic Institute; México
 
2. Creador/a Nombre de autor/a, institución, país Liudy García Hernández; Centre for Technological Applications and Nuclear Development; Cuba
 
2. Creador/a Nombre de autor/a, institución, país Liena Ponce Rey; Faculty of Biology, University of Havana.; Cuba
 
2. Creador/a Nombre de autor/a, institución, país Yuri Aguilera Corrales; Higher Institute of Technology and Applied Sciences, University of Havana; Cuba
 
2. Creador/a Nombre de autor/a, institución, país Isabelle Luz; Laboratory of Biochemistry and Protein Chemistry, University of Brasilia; Brasil
 
2. Creador/a Nombre de autor/a, institución, país Katyelle Botelho; Laboratory of Biochemistry and Protein Chemistry, University of Brasilia; Brasil
 
2. Creador/a Nombre de autor/a, institución, país Wagner Fontes; Laboratory of Biochemistry and Protein Chemistry, University of Brasilia; Brasil
 
3. Materia Disciplina(s)
 
3. Materia Palabra/s clave biomaterial; citotoxicidad; radiación gamma; nanogel; neutrófilo.
 
4. Descripción Resumen

Nowadays, there is a growing interest in biodegradable polymers-based materials due to their diverse application in the biomedical field. Most studied systems involve biocompatible micro and nanodevices, such as liposomes, dendrimer, micelles or polymeric nanogels. The use of Radiation Technology, specifically gamma radiation, to produce micro and nanogels raises the possibility to obtain higher purity products, an important feature for biomedical and pharmaceutical applications. The radio-induced synthesis, characterization, cytotoxicity evaluation, and immunological response of nanogels are described in this study. Nanogel synthesis was performed in the absence of oxygen using aqueous polyvinylpyrrolidone solutions. Crosslinking reactions were carried out at 25 °C in a gamma irradiation chamber with a 60Co source. Nanogels properties were analysed by Scanning Electron Microscopy, Attenuated Total Reflection-Fourier Transform Spectroscopy, Dynamic Light Scattering, and Viscosimetry. The cytotoxicity and immunological response were evaluated by MTT test and analysis of the neutrophil respiratory burst. The results showed that nanogels formation strongly depends on the total absorbed dose. The nanogels have an elliptical shape and their chemical structure is similar to the initial polymer. The nanogels are biocompatible and promote a low-intensity neutrophil activation, similar to the well-characterized biomaterial TiO2, suggesting their potential biomedical uses.
 
5. Editorial Institución organizadora, ubicación Editorial Ciencias Médicas
 
6. Colaborador/a Patrocinador(es)
 
7. Fecha (DD-MM-AAAA) 2021-05-28
 
8. Tipo Estado y género Artículo revisado por pares
 
8. Tipo Tipo
 
9. Formato Formato de archivo PDF (English)
 
10. Identificador Identificador uniforme de recursos http://www.revibiomedica.sld.cu/index.php/ibi/article/view/1176
 
11. Fuente Título; vol., núm. (año) Revista Cubana de Investigaciones Biomédicas; Vol. 40, No. 5 (2021): Suplemento Especial COVID-19 y nuevas tecnologías
 
12. Idioma Español=es en
 
13. Relación Archivos complementarios
 
14. Cobertura Localización geoespacial, periodo cronológico, muestra de investigación (sexo, edad, etc.)
 
15. Derechos Derechos de autor/a y permisos Copyright (c) 2021 http://creativecommons.org/licenses/by-nc-sa/4.0
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