Bebida l?ctea fermentada elaborada com Camellia sinensis / Fermented milk elaborated with Camellia sinensis

Ribeiro, Ot?vio Augusto Silva

27 March 2013

Submitted by Rodrigo Martins Cruz (rodrigo.cruz@ufvjm.edu.br) on 2015-01-13T12:14:07Z No. of bitstreams: 2 otavio_augusto_silva_ribeiro.pdf: 545164 bytes, checksum: d56f5a2896e7b9e509a0cb0f76970414 (MD5) license_rdf: 22974 bytes, checksum: 99c771d9f0b9c46790009b9874d49253 (MD5) / Approved for entry into archive by Rodrigo Martins Cruz (rodrigo.cruz@ufvjm.edu.br) on 2015-01-13T12:14:47Z (GMT) No. of bitstreams: 2 otavio_augusto_silva_ribeiro.pdf: 545164 bytes, checksum: d56f5a2896e7b9e509a0cb0f76970414 (MD5) license_rdf: 22974 bytes, checksum: 99c771d9f0b9c46790009b9874d49253 (MD5) / Approved for entry into archive by Rodrigo Martins Cruz (rodrigo.cruz@ufvjm.edu.br) on 2015-01-13T12:14:45Z (GMT) No. of bitstreams: 2 otavio_augusto_silva_ribeiro.pdf: 545164 bytes, checksum: d56f5a2896e7b9e509a0cb0f76970414 (MD5) license_rdf: 22974 bytes, checksum: 99c771d9f0b9c46790009b9874d49253 (MD5) / Approved for entry into archive by Rodrigo Martins Cruz (rodrigo.cruz@ufvjm.edu.br) on 2015-01-13T12:15:28Z (GMT) No. of bitstreams: 2 otavio_augusto_silva_ribeiro.pdf: 545164 bytes, checksum: d56f5a2896e7b9e509a0cb0f76970414 (MD5) license_rdf: 22974 bytes, checksum: 99c771d9f0b9c46790009b9874d49253 (MD5) / Made available in DSpace on 2015-01-13T12:15:28Z (GMT). No. of bitstreams: 2 otavio_augusto_silva_ribeiro.pdf: 545164 bytes, checksum: d56f5a2896e7b9e509a0cb0f76970414 (MD5) license_rdf: 22974 bytes, checksum: 99c771d9f0b9c46790009b9874d49253 (MD5) Previous issue date: 2013 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior (CAPES) / A presente pesquisa foi conduzida com o objetivo de se desenvolver e caracterizar bebida l?ctea fermentada formulada com Camellia sinensis. Procedeu-se a elabora??o da infus?o de folhas desidratadas e picadas de C. sinensis em soro l?cteo (1g.100g-1) a qual foi adicionada em leite ado?ado (sacarose 10% p/p), coagulado por Streptococcus salivarius subsp. thermophilus e Lactobacillus delbrueckii subsp. bulgaricus nas propor??es de 10, 20, 30 e 40% (v/p). O controle consistiu em iogurte adicionado com sacarose (10% p/p). Procedeu-se ?s determina??es de massa seca, umidade, res?duo mineral fixo, prote?na, gordura, s?dio, acidez, quantifica??o de bact?rias l?ticas totais, atividade antioxidante total e viscosidade no tempo inicial de fabrica??o e em 15 e 30 dias de armazenamento. No produto, em seu tempo inicial de fabrica??o, procedeu-se a determina??o cromatogr?fica de compostos vol?teis e ? condu??o dos testes sensoriais de aceita??o e inten??o de consumo. O teor de massa seca, a umidade, res?duo mineral fixo e contagem total de bact?rias l?ticas de formula??es de bebida l?ctea fermentada n?o foram significativamente afetados pela quantidade de infus?o de C. sinensis adicionada. Entretanto, o conte?do de prote?na, gordura e s?dio foram significativamente menores, quanto maior a percentagem de infus?o incorporada ao produto. Houve redu??o significativa na viscosidade aparente do produto mediante o aumento da quantidade de infus?o adicionada. A atividade antioxidante total das formula??es foi significativamente maior quanto maior a quantidade de infus?o adicionada. A adi??o de infus?o contribuiu para a diversifica??o de compostos vol?teis formadores de aroma e sabor no produto. A formula??o de bebida l?ctea fermentada, com adi??o de 30% de infus?o de C. sinensis em soro l?cteo, foi a preferida em testes sensoriais, com maior aceita??o e maior inten??o de consumo. / Disserta??o (Mestrado) ? Programa de P?s-Gradua??o em Zootecnia, Universidade Federal dos Vales do Jequitinhonha e Mucuri, 2013. / ABSTRACT The aim of this research was to develop and to characterize fermented dairy beverage formulated with Camellia sinensis. Infusion was elaborated with the addiction of dehydrated leaves of C. sinensis in whey (1g.100g-1) which added in sweetened milk (10% sucrose w/w) coagulated by Streptococcus salivarius subsp. thermophilus and Lactobacillus delbrueckii subsp. bulgaricus in proportions of 10, 20, 30 and 40% (v/ w). The control treatment consisted of yogurt added with sucrose (10% w / w). Analysis were performed to quantify dry mass, moisture, ash, protein, fat, sodium, acidity, total quantification of lactic acid bacteria, total antioxidant activity and viscosity at the initial time of production and at 15 and 30 days of storage. Chromatographic determination of volatile compounds and sensory tests of acceptance and consumption intention were conducted at the initial time of production. Dry matter content, moisture, ash and total count of lactic acid bacteria from fermented milk drink formulations were not significantly affected by the amount of infusion of C. sinensis. However, the content of protein, fat and sodium were significantly lower with the increase of the proportion of infusion incorporated into the product. Significant reduction in apparent viscosity occurs with the increase in the amount of infusion added. The total antioxidant activity of the formulations was significantly higher as higher were the amount of added infusion. The addition of infusion contributed to the diversification of volatile aroma and taste makers in the product. The formulation of fermented dairy drink with addition of 30% Infusion C. sinensis was better evaluated in sensory tests, with greater acceptance and greater consumer intent of consumption.

Antioxidante

Compostos vol?teis

Aceita??o

Alimento funcional

Whey drink de uva processado por di?xido de carbono supercr?tico: par?metros de qualidade e sensoriais / Whey-grape drink processed by supercritical carbon dioxide: quality and sensory parameters

Amaral, Gabriela Vieira do

17 July 2017

Submitted by Celso Magalhaes (celsomagalhaes@ufrrj.br) on 2018-03-07T15:22:05Z No. of bitstreams: 1 2017 - Gabriela Vieira do Amaral.pdf: 1320069 bytes, checksum: bc0ab4f1fe7a912edee70092297020a1 (MD5) / Made available in DSpace on 2018-03-07T15:22:12Z (GMT). No. of bitstreams: 1 2017 - Gabriela Vieira do Amaral.pdf: 1320069 bytes, checksum: bc0ab4f1fe7a912edee70092297020a1 (MD5) Previous issue date: 2017-07-17 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior - CAPES / Emerging supercritical carbon dioxide (SCCD) technology has been studied as a cold pasteurizing agent, however, few studies are available on its efficiency in dairy products. In this study, the effects of SCCD processing by different pressures 14, 16 and 18 MPa (35 ? 2 ?C / 10 min) on whey drink, whey drink and grape juice were investigated in comparison To conventional pasteurization (heat treatment at 72 ?C / 15 s). Physicochemical analyzes of pH, titratable acidity, total soluble solids, phenolic compounds, anthocyanins, antioxidant activity, angiotensin converting enzyme (ACE) inhibitory activity and volatile compounds were performed. The color, particle size, rheology, physical stability, as well as microbiological quality and sensory analysis of beverages were also smoothed. The results of this study evidenced the absence of differences between treatments in pH, titratable acidity, soluble solids, total anthocyanins and DPPH activity (p> 0.05). A direct relationship between SCCD pressure and ACE inhibitory activity was observed, with 34.63, 38.75 and 44.31% (14, 16 and 18 MPa, respectively). Few differences were found in the volatile compounds profile. The beverage processing by SCCD resulted in a product with lower particle diameter, lower consistency index and a reduction in pseudoplastic character compared to the beverage treated by the conventional process. No effect of high pressure CO2 on the sensorial attributes of the drink was observed for the studied levels. Consumers found no difference between CO2 treated beverages and heat-treated beverages. The results confirm the processing of SCCD as a promising technology for the non-thermal treatment of grape whey drink made available a health and wellness promoter beverage. Background: Non-thermal food processing is configured as an interesting alternative for the food industry due to the increased nutrient retention and minimal sensory changes in processed products. Scope and approach: The aim of this review is to address the potential of supercritical carbon dioxide technology, emphasizing milk and dairy processing, including the historical aspects, main advantages, microbial inactivation mechanisms, as well as effects in some quality parameters of dairy products. Key findings and conclusions: The use of supercritical carbon dioxide technology (SC-CO2) presents great potential application in dairy processing, since it is effective to reduce microbial load when compared to the pasteurization process, thus obtaining a product with greater shelf life and better organoleptic properties with minimal and sometimes positive changes in the intrinsic quality parameters The effect of supercritical carbon dioxide technology (SCCD, 140, 160, and 180 bar at 35 ? 2 ?C for 10 min) on whey-grape juice drink characteristics was investigated. Physicochemical characterization (pH, titratable acidity, total soluble solids), bioactive compounds ( phenolic compunds, anthocyanins , DPPH and ACE activity) and the volatile compounds were performed. Absence of differences were found among treatments for pH, titratable acidity, soluble solids, total anthocyanins and DPPH activity (p>0.05). A direct relationship between SCCD pressure and ACE inhibitory activity was observed, with 34.63, 38.75, and 44.31% (140, 160, and 180 bar, respectively). Regards the volatile compounds, it was noted few differences except by the presence of ketones. The findings confirm the SCCD processing as a potential promising technology to the conventional thermal treatment. The use of supercritical technology as a non-thermal pasteurization process of the whey-grape juice drink was investigated in this study. The effects of supercritical carbon dioxide at 14, 16, and 18 MPa (35 ? 2?C/10 min) on the physical and sensory properties of the beverage, when compared to conventional pasteurization (heat treatment at 72?C/15 s) were evaluated. High-pressure CO2 processing of whey-grape juice drink resulted in a product with lower particle diameter, lower consistency index, and a reduction in pseudoplastic character when compared to the beverage treated by the conventional process. No effect of high-pressure CO2 was observed on the sensory attributes of the beverage for the levels studied. Consumers did not find differences between the CO2-treated and heat-treated beverages. Our findings suggest the use of supercritical technology with carbon dioxide as an effective alternative for the production and availability of a health and wellness promoting beverage / A tecnologia emergente de di?xido de carbono supercr?tico (DCSC) vem sendo estudada como agente pasteuriza??o a frio, no entanto, s?o poucos os estudos dispon?veis a cerca da sua efici?ncia em derivados l?cteos. Neste estudo, foram investigados os efeitos do processamento do DCSC por diferentes press?es 14, 16 e 18 MPa (35 ? 2 ?C / 10 min) no whey drink de uva, bebida a base de soro de leite e suco de uva, em compara??o ? pasteuriza??o convencional (tratamento t?rmico a 72 ?C / 15 s). Foram realizadas an?lises f?sico-quimicas de pH, acidez titul?vel, s?lidos sol?veis totais, compostos fen?licos, antocianinas, atividade antioxidante, atividade inibidora da enzima conversora de angiotensina (ECA) e compostos vol?teis. Tamb?m foramam alisados a cor, o tamanho de part?cula, reologia, estabilidade f?sica, assim como a qualidade microbiol?gica e analise sensorial das bebidas. Os resultados deste estudo evidenciaram a aus?ncia de diferen?as entre os tratamentos nas an?lises de pH, acidez titul?vel, s?lidos sol?veis, antocianinas totais e atividade de DPPH (p> 0,05). Foi observada uma rela??o direta entre press?o DCSC e atividade inibit?ria ACE, com 34,63, 38,75 e 44,31% (14, 16 e 18 MPa, respectivamente). Poucas diferen?as foram encontratdas no perfil dos compostos vol?teis. O processamento das bebidas por DCSC resultou em um produto com menor di?metro de part?cula, menor ?ndice de consist?ncia e uma redu??o no car?ter pseudopl?stico em compara??o com a bebida tratada pelo processo convencional. N?o foi observado efeito de CO2 de alta press?o nos atributos sensoriais da bebida para os n?veis estudados. Os consumidores n?o encontraram diferen?as entre as bebidas tratadas com CO2 e as bebidas tratadas termicamente. Os resultados confirmam o processamento do DCSC como uma tecnologia promissora para o tratamento n?o t?rmico de whey drink de uva disponibilizado uma bebida promotora de sa?de e bem-estar Antecedentes: Os processamentos de alimentos n?o t?rmicos s?o configurados como uma alternativa interessante para a ind?stria de alimentos devido ao aumento da reten??o de nutrientes e mudan?as sensoriais m?nimas nos produtos processados. ?mbito e abordagem: o objetivo desta revis?o ? abordar o potencial da tecnologia de di?xido de carbono supercr?tico, enfatizando o processamento de leite e l?cteos, incluindo os aspectos hist?ricos, as principais vantagens, os mecanismos de inativa??o microbiana, bem como os efeitos em alguns par?metros de qualidade dos produtos l?cteos. Principais conclus?es e conclus?es: o uso de tecnologia supercr?tica de di?xido de carbono (SC-CO2) apresenta grande potencial de aplica??o no processamento de l?cteos, uma vez que ? efetivo reduzir a carga microbiana quando comparado ao processo de pasteuriza??o, obtendo-se assim um produto com maior prateleira e melhores propriedades sensoriais com mudan?as m?nimas e ?s vezes positivas nos par?metros de qualidade intr?nseca. O efeito da tecnologia de di?xido de carbono supercr?tico (SCCD, 140, 160 e 180 bar a 35 ? 2 ?C durante 10 min) em caracter?sticas de bebidas de suco de uva foi investigado. Caracteriza??o f?sico-qu?mica (pH, acidez titul?vel, s?lidos sol?veis totais), compostos bioativos (compostos fen?licos, antocianinas, DPPH e atividade ACE) e os compostos vol?teis foram realizados. A aus?ncia de diferen?as foi encontrada entre tratamentos para pH, acidez titul?vel, s?lidos sol?veis, antocianinas totais e atividade de DPPH (p> 0,05). Foi observada uma rela??o direta entre press?o SCCD e atividade inibit?ria ACE, com 34,63, 38,75 e 44,31% (140, 160 e 180 bar, respectivamente). Atende aos compostos vol?teis, observou-se poucas diferen?as, exceto pela presen?a de cetonas. Os resultados confirmam o processamento do SCCD como uma potencial tecnologia promissora para o tratamento t?rmico convencional O uso da tecnologia supercr?tica como processo de pasteuriza??o a frio da bebida de suco de uva e soro de uva foi investigado neste estudo. Os efeitos do di?xido de carbono supercr?tico em 14, 16 e 18 MPa (35 ? 2 ?C / 10 min) nas propriedades f?sicas e sensoriais da bebida, quando comparados ? pasteuriza??o convencional (tratamento t?rmico a 72 ?C / 15 s) Foram avaliados. O processamento de CO2 de alta press?o da bebida de suco de soro de soro de leite resultou em um produto com menor di?metro de part?cula, menor ?ndice de consist?ncia e uma redu??o no car?ter pseudopl?stico em compara??o com a bebida tratada pelo processo convencional. N?o foi observado efeito de CO2 de alta press?o nos atributos sensoriais da bebida para os n?veis estudados. Os consumidores n?o encontraram diferen?as entre as bebidas tratadas com CO2 e as bebidas tratadas termicamente. Nossas descobertas sugerem o uso da tecnologia supercr?tica com di?xido de carbono como uma alternativa efetiva para a produ??o e disponibilidade de uma bebida promotora de sa?de e bem-estar

Emerging technology

whey

grape juice

supercritical dioxide carbon technology

whey-grape juice drink

bioactive compounds

volatile compounds

Non-thermal process

supercritical fluid

whey - drink

tecnologia emergente

soro de leite

suco de uva

bebida de soro de uva

compostos bioativos

compostos vol?teis

Processamento n?o t?rmico

Fluido supercr?tico

bebida l?ctea

Ci?ncias Exatas e da Terra