Programa de Pós-graduação em Química
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Navegando Programa de Pós-graduação em Química por Assunto "-Caroteno"
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Item Aproveitamento de rejeitos da indústria de atomatados para a produção e caracterização de extratos ricos em licopeno, β-Caroteno e Vitamina E(Universidade Federal de Goiás, 2006-03-17) SILVA, Fernanda Dias; ANTONIOSI FILHO, Nelson Roberto; http://lattes.cnpq.br/5982964870999454The production of industrial foods derived from tomato generates high levels of rejects that are composed basically of seeds and tomato peels. This reject it is rich in carotenoids, especially lycopene and β-carotene, which are pigments whose ingestion is directly linked to the decrease of the risk of chronic-degenerative diseases. The present study has as objective develops simplified and efficient extraction and analysis methods of lycopene and β-carotene starting from this reject using palm oil as coadjutant, seeking the subsequent use of this extract for enrichment of products of easy access to classes economically inferior of the population and as a vehicle of medicines. Initially it was developed the chromatographic analysis method for three columns of RP-HPLC: C18 Chromolith SpeedROD (50 mm x 4,6 mm), C18 Nova-Pack (300 mm x 3,9 mm x 4 µm) and C30 YMC Carotenoid (250 mm x 4,6 mm x 5 µm). All the columns present a considerable reduction in the time of analysis and efficient separation between lycopene and β-carotene, when compared to the analysis reported on scientific literature. Later it was done a study of the thermal stability of the pigments by means of TG, DSC and RP-HPLC seeking to evaluate the maximum temperature which the reject can be heated without the occurrence of considerable losses of the pigments. The thermogravimetric curves demonstrated that the loss of mass happens to temperatures higher than those observed by the degradations of the pigments by RP-HPLC. It means that occurs the transformation of lycopene and β-carotene in intermediary compounds which are volatilized in higher temperatures. For the development of the extraction method several variables were tested being obtained the following optimized condition: 25 g of sample was dissolved in 50 mL of hexane and 0.1 mL of palm oil, shaking by 90 minutes under 50ºC. The proposed method demonstrated to be viable once it happens in only one stage, with the use of only an solvent which can be used again after the process. The time of extraction is completely acceptable, as well as the amount of solvent used, being all the parameters compatible with industrial implementation. The oily extract was still characterized with regard to the tocopherols and tocotrienols levels in the palm oil as well as the fatty acid and triacylglicerol compositions. It was obtained the prevalence of y-tocotrienol, oleic and palmitic acids and POO and POP triacylglicerides.