Your search keyword '"Acetaldeido"' showing total 7 results

1. Carbonyl compounds in wine: factors related to presence and toxic effects.

Author

Oliveira Lago, Laura and Elisa Welke, Juliane

Subjects

*CARBONYL compounds, *URETHANE, *DNA adducts, *FORMALDEHYDE, *WOOD combustion, *ACETALDEHYDE, *CARBOHYDRATES

Abstract

The objective of this study was to review technological and toxicological factors related to presence of carbonyl compounds found in wines, including acetaldehyde, formaldehyde, acrolein, ethyl carbamate (EC) and furfural. Acetaldehyde and formaldehyde may be formed through the ethanol and methanol oxidation, respectively. Acrolein may arise as a thermal degradation product of glycerol, amino acids, carbohydrates and triglycerides or by metabolic activity of microorganisms. In addition, acrolein and furfural are formed during wood combustion; therefore, these aldehydes may be present in raw materials due to the environmental contamination. Furfural is also a product of the Maillard reaction formed from sugars and amino acids, while ethyl carbamate occurs through the reaction between urea and ethanol. These compounds may react with SO2 and phenolic compounds to form non-volatile adducts, which positively modulates color stability, astringency and aroma in wine. However, when ingested through wine, electrophilic carbonyl compounds may form adducts with nucleophilic targets, such as DNA, resulting in genotoxicity along the gastrointestinal tract. Furthermore, carbonyl compounds induce the increase of reactive oxygen species and can trigger apoptosis, in addition to hepatocellular adenoma and carcinoma as a consequence of chronic hepatotoxicity. Neurodegenerative diseases may be related to the exposure to carbonyl compounds. Therefore, strategies to reduce the levels of these compounds should be studied in order to get the most out of the beneficial functional properties of wine consumption. [ABSTRACT FROM AUTHOR]

Published

2019

2. Poli(tereftalato de etileno), PET: uma revisão sobre os processos de síntese, mecanismos de degradação e sua reciclagem Poly(ethylene terephthalate), PET: a review on the synthesis processes, degradation mechanisms and its recycling

Author

Wanderson Romão, Márcia A. S. Spinacé, and Marco-A. De Paoli

Subjects

Poli(tereftalato de etileno), degradação termomecânica, degradação termo-oxidativa, acetaldeído, oligômeros, dietileno glicol, Acetaldehyde, diethylene glycol, oligomers, poly(ethylene terephthalate), thermomechanical degradation, thermo-oxidation degradation, Chemical technology, TP1-1185

Abstract

Apresentamos uma revisão sobre o poli(tereftalato de etileno) enfatizando os processos de síntese e os mecanismos de degradação. Atualmente o Brasil apresenta um dos maiores índices mundiais de reciclagem mecânica deste polímero, correspondendo a um percentual de 53%. O sucesso desse termoplástico na indústria de reciclagem deve-se à sua ampla diversidade de aplicações, desde a indústria têxtil (multifilamento) até as indústrias de alimentos, onde as embalagens recicladas grau alimentício poderão ser misturadas com a resina virgem em diversas proporções e reprocessadas para o uso. Uma abordagem sobre a atual legislação do uso de PET reciclado em contato com alimentos também é mostrada neste trabalho. No processo de síntese do PET realizado em duas ou três etapas, são usados comonômeros e aditivos para otimizar as condições de processamento do material. Entretanto, tanto durante a síntese como no processo de reciclagem, ocorrem reações de degradação (termomecânica e termo-oxidativa) e reações secundárias, formando acetaldeído, oligômeros, e o dietileno glicol. A presença desses "contaminantes" acelera o processo de degradação do polímero, afetando a qualidade do produto final.We present a review on poly(ethylene terephthalate), emphasizing the synthesis processes and the degradation mechanisms. Brazil is currently among the countries that most recycle PET, with 53% of this polymer being mechanically recycled. The success of this thermoplastic in the recycling industry is due to its large diversity of applications, from the textile industry to food packaging, where the food grade recycled packages will be mixed with the pristine resin for reprocessing and use. We also discuss the present legal aspects concerning PET recycling and its use in contact with food. In the synthesis of PET, usually done in two or three steps, several co-monomers and additives are used to optimize the final properties and processing conditions. Additionally, during the synthesis, processing and recycling, several degradation (thermomechanical and thermo-oxidation) and secondary reactions occur, producing acetaldehydes, oligomers and diethyleneglicol. The presence of these "contaminants" accelerates the degradation process of the polymer affecting the final product characteristics.

Published

2009

3. Remoção de adstringência de caqui: um enfoque bioquímico, fisiológico e tecnológico Removal of astringency in persimmon fruits: a biochemical, physiological and technological view

Author

Fernando Kazuhiro Edagi and Ricardo Alfredo Kluge

Subjects

destanização, tanino, acetaldeído, álcool etílico, dióxido de carbono, tannin, acetaldehyde, ethanol, carbon dioxide, Agriculture, Agriculture (General), S1-972

Abstract

Apenas na Ásia, centro de origem do caqui (Diospyros kaki L.), existem mais de 2000 cultivares diferentes, das quais, a maioria é adstringente. Diante de tamanha variabilidade, existem diferentes métodos de remoção de adstringência, de tal forma que cada um deve ser adaptado a cada cultivar e local de produção. Tais métodos de destanização objetivam promover um acúmulo de acetaldeído na polpa dos frutos, o qual provoca a polimerização das moléculas de taninos solúveis, responsáveis pela adstringência, transformando-os num composto com consistência de gel, insolúvel e, assim, não adstringente. Entre os métodos mais utilizados estão: aplicação de vapor de álcool etílico, que ativa a enzima álcool dehidrogenase com subseqüente acúmulo de acetaldeído, e a promoção da anaerobiose, que induz a transformação do piruvato em acetaldeído em uma reação catalisada pela enzima piruvato descarboxilase. Neste trabalho de revisão, visa à discussão dos principais fatores a serem observados no processo de remoção da adstringência de caquis, como o método a ser utilizado, a temperatura de destanização, o tempo de exposição ao tratamento e o ponto de maturação dos frutos, entre outros.In Asia, the center of origin of persimmon (Diospyros kaki L.), more than 2000 different varieties are present, most of then being astringent. Beyond such variability, there are a lot of different methods to remove the astringency of fruit and each treatment is more approachable for each cultivar and local of production. The different methods to remove the astringency are based, mostly, at the accumulation of acetaldehyde at the flesh fruit that induce the polymerization of the soluble tannin molecules, responsible for the astringency formation, turning them into an insoluble and non astringent substance. The most used methods are: ethanol vapor application which activates alcohol dehydrogenase and increases the acetaldehyde accumulation; and application of anaerobic atmosphere, that induces the transformation of piruvate into acetaldehyde in a reaction catalyzed by the piruvate descarboxilase. This review aims to argue the main factors to be observed in the astringency removal process of persimmon fruit, such as method to be used, temperature to remove astringency, time of exposure to the treatment, fruit ripening at time of astringency removal, among others.

Published

2009

4. Caracterização das emissões de aldeídos de veículos do ciclo diesel Emission of aldehydes from light duty diesel vehicles

Author

Rui de Abrantes, João V de Assunção, and Edegar Yoshio Hirai

Subjects

Substâncias perigosas, Aldeídos, Acetaldeído, Formaldeído, Emissões de veículos, Poluição do ar, Hazardous substances, Aldehydes, Acetaldehyde, Formaldehyde, Vehicle emissions, Air pollution, Public aspects of medicine, RA1-1270

Abstract

OBJETIVO: Caracterizar as emissões de acetaldeído e formaldeído, substâncias nocivas para a saúde das pessoas e cujas emissões dos veículos a diesel ainda não estão regulamentadas. MÉTODOS: Testes padronizados foram realizados em quatro veículos leves comerciais do ciclo diesel, testados num dinamômetro de chassis, usando o procedimento de teste FTP-75. Os poluentes foram analisados por cromatografia líquida de alta eficiência. RESULTADOS: Os resultados mostraram que a emissão de acetaldeído variou de 5,9 a 45,4 mg/km e a de formaldeído variou de 16,5 a 115,2 mg/km. A emissão média para a soma dos aldeídos foi de 58,7 mg/km, variando de 22,5 mg/km a 160 mg/km. A proporção entre os dois se manteve constante, próximo de 74% de formaldeído e 26% de acetaldeído. CONCLUSÕES: A emissão de aldeídos provenientes de veículos movidos a diesel foi significativa quando comparada com as emissões reais dos veículos de ignição por centelha ou com o limite previsto para os veículos do ciclo Otto na legislação brasileira. O estabelecimento de limites de emissão para essas substâncias para veículos a diesel mostra-se importante, considerando o crescimento da frota de veículos a diesel, a toxicidade desses compostos e sua participação como precursores nas reações de formação de gás ozônio na baixa troposfera.OBJECTIVE: To characterize acetaldehyde and formaldehyde emissions, which are harmful gases to human health and not yet regulated for diesel engines. METHODS: Standardized tests were performed in four diesel light duty commercial vehicles, using a frame dynamometer and test procedure FTP-75. The pollutants were analyzed by high performance liquid chromatography. RESULTS: Results have shown acetaldehyde emission ranged from 5.9 to 45.4 mg/km, and formaldehyde emission from 16.5 to 115.2 mg/km. The average emission for aldehyde sum was 58.7 mg/km, ranging from 22.4 to 160.6 mg/km. The proportion between the two substances remained constant, close to 74% for formaldehydes and 26% for acetaldehydes. CONCLUSIONS: The emission of diesel vehicle aldehydes was significant when compared with actual spark ignition vehicle emissions, or with the foresee limit for Otto cycle vehicles in Brazilian legislation. Establishing emission limits for these substances also in diesel vehicles is imperative in the light of the vehicle fleet growth, toxicity of these compounds, and their contribution as precursors in ozone gas formation reactions in low troposphere.

Published

2005

5. Qualidade pós-colheita de melão 'Orange Flesh' minimamente processado armazenado sob refrigeração e atmosfera modificada Postharvest quality of fresh-cut 'Orange Flesh' melon stored under refrigeration and modified atmosphere

Author

Brígida Monteiro Vilas Boas, Mônica Elizabeth Torres Prado, Eduardo Valério de Barros Vilas Boas, Elisangela Elena Nunes, Francisca Marta Machado Casado de Araújo, and Edimilson Bosco Chitarra

Subjects

Cucumis melo L., vida de prateleira, dióxido de carbono, acetaldeído, shelf-life, carbon dioxide, acetaldehyde, ethanol, Plant culture, SB1-1110

Abstract

Melões 'Orange Flesh' minimamente processados foram armazenados por 8 dias sob refrigeração (6 ± 1ºC e 90 ± 5% UR) e atmosfera modificada (passiva e ativas: 5% O2 + 5% CO2 e 2% O2 + 10% CO2). As variáveis pH, acidez titulável, sólidos solúveis e acetaldeído não foram influenciadas pelas atmosferas estudadas. Aumentos na concentração de CO2 ocorreram ao logo do armazenamento, sendo que a atmosfera modificada ativa (2% O2 + 10% CO2) foi mais eficaz no controle da produção de CO2 até o quarto dia de armazenamento.Fresh-cut 'Orange Flesh' melons were stored for 8 days under refrigeration (6 ± 1ºC e 90 ± 5% RH) and modified atmosphere (passive and active: 5% O2 + 5% CO2 and 2% O2 + 10% CO2). The variables pH, titratable acidity, soluble solids and acetaldehyde were not affected, differently, for the atmospheres studied. Increase in CO2 concentration occurred over the storage period. Active modified atmosphere (2% O2 + 10% CO2) was the most effective in controlling the CO2 production until the fourth day of storage.

Published

2004

6. Remoção de adstringência de caqui: um enfoque bioquímico, fisiológico e tecnológico.

Author

Edagi, Fernando Kazuhiro and Kluge, Ricardo Alfredo

Subjects

*KAKI persimmon, *ACETALDEHYDE, *CULTIVARS, *ALCOHOL, *CARBON dioxide, *POLYMERIZATION, *ALCOHOL dehydrogenase

Abstract

In Asia, the center of origin of persimmon (Diospyros kaki L.), more than 2000 different varieties are present, most of then being astringent. Beyond such variability, there are a lot of different methods to remove the astringency of fruit and each treatment is more approachable for each cultivar and local of production. The different methods to remove the astringency are based, mostly, at the accumulation of acetaldehyde at the flesh fruit that induce the polymerization of the soluble tannin molecules, responsible for the astringency formation, turning them into an insoluble and non astringent substance. The most used methods are: ethanol vapor application which activates alcohol dehydrogenase and increases the acetaldehyde accumulation; and application of anaerobic atmosphere, that induces the transformation of piruvate into acetaldehyde in a reaction catalyzed by the piruvate descarboxilase. This review aims to argue the main factors to be observed in the astringency removal process of persimmon fruit, such as method to be used, temperature to remove astringency, time of exposure to the treatment, fruit ripening at time of astringency removal, among others. [ABSTRACT FROM AUTHOR]

Published

2009

7. Astringency in ʻGiomboʼ persimmon and its relationship with the harvest time

Author

Magda Andréia Tessmer, Beatriz Appezzato-da-Glória, and Ricardo Alfredo Kluge

Subjects

acetaldeído, adstringência, colheita, Diospyros kaki L., etanol, Agriculture (General), S1-972, Biotechnology, TP248.13-248.65

Abstract

ABSTRACT ʻGiomboʼ is one of most cultivated persimmon cultivars in Brazil. It is a late-harvest cultivar and requires treatment for astringency removal. The aim of this study was to evaluate the efficiency of ethanol and the effect of harvest time on reducing astringency, physicochemical and anatomical characteristics of 'Giombo' persimmon. Two experiments were carried out, one in each growing season, with five treatments corresponding to exposure to 1.70 mL kg-1ethanol for 0, 12, 24, 36 and 48 hours. At the end of the growing season (2011) the fruits achieved the astringency index and levels of soluble tannins suitable for consumption in 24 hours, and at the beginning of the growing season (2012) in 36 hours, indicating that the efficiency of the treatment is related to harvest time and ethanol exposure time. Astringency removal with ethanol affects the cell structure with accumulation of substances inside the cells and in intercellular spaces, resulting in the degradation of the parenchyma cell wall. To avoid such damage and maintain fruit quality, it is recommended the combination of low ethanol doses with less ethanol exposure time.