TATIANA SANTANA BALOGH
3 resultados
Resultados de Busca
Agora exibindo 1 - 3 de 3
Tese IPEN-doc 30752 Comparative study of different methodologies for synthesis of nanogels as potential drug carriers2023 - BALOGH, TATIANA S.Nanogels are defined as nanometer-scale polymeric gels, considered innovative and promising nanomaterials for drug delivery systems. This joint Polish-Brazilian work aimed to contribute to the development of the area of production of nanogels by means of ionizing radiation, investigating different synthesis methodologies, namely gamma and electron beam-induced irradiation. Original and innovative method of nanogel synthesis via ultraviolet-induced radiation has been proposed in an unprecedented manner and successfully developed. Additionally, the possibility of conjugation of selected nanogels with technetium-99m (99mTc) has been investigated as a possible theranostic agent. In case of ionizing radiation-supported techniques influence of solution concentration, type of gas saturation and dose on physicochemical properties of irradiation products have been analysed. In the UV methodology different ratios of the number of OH radicals available in the system per number of monomeric units were evaluated with and without argon saturation. All samples were characterized in relation to weight-average molecular weight (Mw), Z-average radius of gyration (Rg), hydrodynamic radius (Rh) and second virial coefficient using DLS and SLS techniques. The ratio of the radius of gyration to the hydrodynamic radius (Rg/Rh), the polymer coil density (ρcoil), morphology by SEM and TEM, and topography by AFM were determined. Radiolabelling with technetium-99m was carried out both via direct and indirect methodology, in addition to purification and radiochemical stability tests. PVP K-90-based nanogels of different crosslink densities were successfully obtained in all proposed methods. It has been found that the use of nitrous oxide promoted higher number of hydroxyl radicals, favouring the formation of intramolecular crosslinking. The increase in the amount of OH radicals available in the medium (both by increase of the ionizing radiation dose and concentration of OH radical precursor (H2O2)) provided higher influence of intramolecular crosslinking. It was possible to radiolabel and purify PVP K-90 nanogels produced by e-beam and gamma irradiation with technetium-99m through [99mTc(CO)3(H2O)3]+.Capítulo IPEN-doc 29813 Fabrication of green nanomaterials2023 - THIPE, VELAPHI C.; FREITAS, LUCAS F.; LIMA, CAROLINE S.A.; BATISTA, JORGE G.S.; FERREIRA, ARYEL H.; OLIVEIRA, JUSTINE P.R. de; BALOGH, TATIANA S.; KADLUBOWSKI, SLAWOMIR; LUGAO, ADEMAR B.; KATTI, KATTESH V.The purpose of this chapter is to discuss the production of biocompatible green nanomaterials for biomedical applications using green nanotechnology. To enhance drug loading and delivery, these nanomaterials are engineered with immunomodulatory ligands such as phytochemicals (Epigallocatechin gallate, Mangiferin, Resveratrol), proteins (albumin and papain), crosslinked hydrogels, and nanogels. The nanomaterials described herein are synthesized via redox potential of electron-dense phytochemicals that reduce metallic precursors to their stable corresponding nanoparticles and via water radiolysis with ionizing radiation as a green approach (due to the absence of any reducing agent) for use as radiosensitizers (albumin and papain nanoparticles) in nuclear medicine – theranostics applications. The phytochemicals facilitate the delivery of nanoparticles through receptor mediated endocytosis, while the proteins such as papain, due to their proteolytic action enhances the permeation of nanoparticles into tumor tissue, and albumin increase the pharmacokinetic efficiency of these nanoparticles. The nanoparticles developed have shown effectiveness against a variety of human cancers while posing no toxicity to normal tissue. Additionally, a pilot human clinical combing Ayurvedic medicine with green nanomedicine is given as a novel approach for treating breast cancer and other related illnesses. Finally, the importance of ecotoxicology for nanomaterials is discussed in order to provide safety data in relevant multiple species (fish, daphnia, algae, rodents, etc.) with paratope/epitope distributions for evaluating tissue cross-reactivity profiles in human tissues and to provide critical information on in vivo toxicity in order to predict the possible adverse effects of nanomaterials on human and environmental health as an effort to establish regulatory limits and ISO standards for nanomaterials.Artigo IPEN-doc 27582 An updated review of macro, micro, and nanostructured hydrogels for biomedical and pharmaceutical applications2020 - LIMA, CAROLINE S.A. de; BALOGH, TATIANA S.; VARCA, JUSTINE P.R.O.; VARCA, GUSTAVO H.C.; LUGAO, ADEMAR B.; CAMACHO-CRUZ, LUIS A.; BUCIO, EMILIO; KADLUBOWSKI, SLAWOMIR S.Hydrogels are materials with wide applications in several fields, including the biomedical and pharmaceutical industries. Their properties such as the capacity of absorbing great amounts of aqueous solutions without losing shape and mechanical properties, as well as loading drugs of different nature, including hydrophobic ones and biomolecules, give an idea of their versatility and promising demand. As they have been explored in a great number of studies for years, many routes of synthesis have been developed, especially for chemical/permanent hydrogels. In the same way, stimuli-responsive hydrogels, also known as intelligent materials, have been explored too, enhancing the regulation of properties such as targeting and drug release. By controlling the particle size, hydrogel on the micro- and nanoscale have been studied likewise and have increased, even more, the possibilities for applications of the so-called XXI century materials. In this paper, we aimed to produce an overview of the recent studies concerning methods of synthesis, biomedical, and pharmaceutical applications of macro-, micro, and nanogels.