Smart Pasta Design: Tailoring Formulations for Technological Excellence with Sprouted Quinoa and Kiwicha Grains.

The pursuit of developing healthier pasta products without compromising technological properties involves a strategic approach via the customization of raw material formulations and the integration of grain germination and extrusion processes. This study explores the impact of incorporating sprouts from quinoa (Chenopodium quinoa Willd) and kiwicha (Chenopodium pallidicaule Aellen) on the physicochemical properties of pasta by employing a centroid mixture design. The desirability function was utilized to identify the optimal ingredient proportions necessary to achieve specific objectives. The study identified optimal formulations for two pasta variations: pasta with the substitution of sprouted quinoa and cushuro powder (PQC), and pasta with partial substitution of sprouted kiwicha and cushuro powder (PKC). The optimal formulation for PKC was determined as 70% wheat flour (WF), 15% sprouted kiwicha flour (SKF), and 15% cushuro powder (CuP), with a desirability score of 0.68. Similarly, for PQC, the optimal formulation comprised 79% WF, 13% sprouted quinoa flour (SQF), and 8% CuP, with a desirability of 0.63. The optimized pasta formulation exhibited longer cooking times (10 and 8 min), increased weight gain (235% and 244%), and minimal loss of solids (1.4 and 1.2%) for PQC and PKC, respectively. Notably, firmness (2.8 and 2.6 N) and breaking strength values (2 and 2.7 N) for PQC and PKC pasta formulations, respectively, were comparable to those of the control sample (2.7 N and 2.6 N for firmness and fracturability, respectively). This research underscores the potential of tailored formulations and innovative processes to enhance the nutritional profile of pasta while maintaining key technological attributes.

A New Advancement in Germination Biotechnology of Purple Creole Corn: Bioactive Compounds and In Situ Enzyme Activity for Water-Soluble Extract and Pan Bread.

Germination is a simple and cost-effective technology that enhances the technological, sensory, and nutritional potential of grains, making them more attractive for use in the food industry. Germinating indigenous seeds is an alternative to increase noticeability and add value to these grains, which hold social and economic significance in the regions where they are cultivated, such as creole purple pericarp corn (PPCC) from the Couto Magalhães de Minas region in Brazil. This study aimed to optimize the germination parameters of time (24-96 h) and temperature (18-32 °C) for PPCC to produce water-soluble extracts and bread. Endogenous enzymes resulting from the germination process significantly enhanced (p < 0.10) the technological (total reducing sugars, total soluble solids, and soluble proteins) and biological properties (γ-aminobutyric acid, total soluble phenolic compounds, and antioxidant capacity) of the water-soluble extracts. The optimum point for obtaining the extracts was found to be at 85.3 h at 30.46 °C (with desirability of 90.42%), and this was statistically validated. The incorporation of germinated PPCC flours into bread was also promising (p < 0.10) and had a positive impact on the dough property (dough volume increase) and the final product, especially in terms of instrumental texture (springiness, cohesiveness, gumminess, chewiness, and resilience), resulting in a softer texture (lower firmness and hardness). The addition of PPCC flours did not alter instrumental color parameters, which may lead to greater consumer acceptance due to imperceptible differences in color to untrained individuals, with the optimized point at 96 h at 29.34 °C, with a desirability of 92.60%. Therefore, germinated PPCC shows promise for use as a base for obtaining water-soluble extracts and in bread as a replacement for commercial flour improvers, while also adding value to a raw material that is part of the local culture and agrobiodiversity.

Technological and health properties and main challenges in the production of vegetable beverages and dairy analogs.

Lactose intolerance affects about 68-70% of the world population and bovine whey protein is associated with allergic reactions, especially in children. Furthermore, many people do not consume dairy-based foods due to the presence of cholesterol and ethical, philosophical and environmental factors, lifestyle choices, and social and religious beliefs. In this context, the market for beverages based on pulses, oilseeds, cereals, pseudocereals and seeds and products that mimic dairy foods showed a significant increase over the years. However, there are still many sensory, nutritional, and technological limitations regarding producing and consuming these products. Thus, to overcome these negative aspects, relatively simple technologies such as germination and fermentation, the addition of ingredients/nutrients and emerging technologies such as ultra-high pressure, pulsed electric field, microwave and ultrasound can be used to improve the product quality. Moreover, consuming plant-based beverages is linked to health benefits, including antioxidant properties and support in the prevention and treatment of disorders and common diseases like hypertension, diabetes, anxiety, and depression. Thus, vegetable-based beverages and their derivatives are viable alternatives and low-cost for replacing dairy foods in most cases.

New Breakfast Cereal Developed with Sprouted Whole Ryegrass Flour: Evaluation of Technological and Nutritional Parameters.

Ryegrass is one such cereal that has been underutilized in human nutrition despite its high nutritional and functional value due to the presence of phytochemicals and dietary fibers. Exploiting ryegrass for human consumption is an exciting option, especially for countries that do not produce wheat, as it is easily adaptable and overgrows, making it economically viable. This study evaluated the nutritional content of γ-aminobutyric acid and bioactive compounds (total soluble phenolic compounds) and the physicochemical and technological properties of partially substituting maize flour (MF) with sprouted whole ryegrass flour (SR) in developing extrusion-cooked breakfast cereals. A completely randomized design with substitutions ranging from 0 to 20% of MF with SR was employed as the experimental strategy (p < 0.05). Partial incorporation of SR increased the content of γ-aminobutyric acid and total soluble phenolic compounds. Using sprouted grains can adversely affect the technological quality of extruded foods, mainly due to the activation of the amylolytic enzymes. Still, ryegrass, with its high dietary fiber and low lipid content, mitigates these negative effects. Consequently, breakfast cereals containing 4 and 8% SR exhibited better physicochemical properties when compared to SR12, SR16, SR20, and USR10, presenting reduced hardness and increased crispness, and were similar to SR0. These results are promising for ryegrass and suggest that combining the age-old sprouting process with extrusion can enhance the nutritional quality and bioactive compound content of cereal-based breakfast products while maintaining some technological parameters, especially crispiness, expansion index, water solubility index, and firmness, which are considered satisfactory.

Obtaining and characterizing polyphenol extracts based on anthocyanins from Melinis minutiflora inflorescences and Plinia cauliflora fruits and application in gelatins.

Anthocyanins are a class of compounds potentially used as food dyes. Thus, this study aimed to obtain and characterize natural extracts from Melinis minutiflora inflorescence (M), Plinia. cauliflora peel (JP) and P. cauliflora peel and seeds (JPS) and apply them as natural food dyes in gelatins. The extracts did not show statistically significant differences in pH values and water activity. The M and JPS extracts showed similar values of anthocyanins and total phenolic compounds and were higher than those from the JP extract. The M and JPS extracts showed a bathochromic effect, which was not observed for the JP extract. The bathochromic effect may indicate a possible complexation of anthocyanins. The color composition analysis revealed that the JP extract has a higher absorbance at a wavelength of 520 nm, indirectly suggesting the presence of more monomeric anthocyanins in its composition. The extract application test in gelatin did not change the texture properties of the gelatins. In addition, our findings revealed that the JPS extract had the best color stability after ten days of analysis, indicating that anthocyanin complexation with the phenolic compounds of P. cauliflora seeds contributed more effectively to anthocyanin stability in the model used.

High protein, gluten-free cookies made with rice, beans and avocado

Cookies are versatile foods that can supply specific needs and can be used as food vehicles to increase the intake of various nutrients. The objective was to create a gluten-free butter cookie based on rice flour (Oryza sativa). A central composite design 22 was used for analyzing the substitution of rice flour for bean flour (Phaseolus vulgaris, L.) (0-60%) and the substitution of butter for avocado puree (Persea americana) (0-100%). Response Surface Methodology were used to analyze the data with a significance of 10% (p<0.1) and a minimum R2 of 0.6. Variables analyzed were protein content (%), fat content (%), spread ratio, weight loss (%), water activity, moisture content (%), and ash content (%). Increases in the percentage of substitution of bean flour and avocado puree increased the amount of protein, ash, and moisture significantly. Fat content increased significantly following the decrease in avocado substitution. The minimum weight loss was obtained on intermediate values of bean flour. Water activity and spread ratio were not affected by changes in the variables measured. Three different formulas were obtained for the optimization: 46% bean flour and 86% of avocado puree, a formulation with an appropriate moisture range by reducing the lipid oxidation (59% bean flour and 82% avocado puree), and a formulation with 100% avocado (40% bean flour and 100% avocado puree). Sensory evaluation results of optimized treatments indicated that the formula with 46% bean flour and 86% avocado puree presented the highest global acceptance. Results from this study showcase the possibility of producing gluten-free cookies with good protein content.

Las galletas son alimentos versátiles que pueden suplir necesidades específicas y ser utilizados como vehículos para aumentar la ingesta de distintos nutrientes. El objetivo fue elaborar galletas de mantequilla libres de gluten a base de harina de arroz. Se realizó un diseño central compuesto 22 donde se estudió la sustitución parcial de harina de arroz por harina de frijol (Phaseolus vulgaris, L.) (0-60%) y la sustitución de la mantequilla por puré de aguacate (Persea americana) (0-100%). Los resultados fueron analizados por la Metodología de Superficie de Respuesta con un nivel de significancia del 10% (p<0.1) y con un mínimo R2 de 0.6. Las variables de respuesta fueron: proteína (%), grasa (%), diámetro/altura, pérdida de peso (%), humedad (%) y cenizas (%). A valores altos de las dos variables estudiadas la cantidad de proteína, de cenizas y de humedad aumentó significativamente. La cantidad de grasa se incrementó al utilizar bajos niveles de puré de aguacate. Los menores valores de pérdida de peso se obtuvieron en niveles intermedios de harina de frijol. La relación diámetro/altura no fue afectada por las variables estudiadas. Al optimizar se obtuvieron 3 formulaciones diferentes: 46% de harina de frijol y 86% puré de aguacate; 59% de frijol y 82% de puré de aguacate y otra (no estadística) 40% de frijol y 100% de puré de aguacate. Los resultados del análisis sensorial de las muestras optimizadas indicaron que la formulación con mayor aceptación global fue la elaborada con 46% de harina de frijol y 86% de puré de aguacate, concluyendo que es posible elaborar una galleta libre de gluten y con una adecuada cantidad de proteína.

Performance of Thermoplastic Extrusion, Germination, Fermentation, and Hydrolysis Techniques on Phenolic Compounds in Cereals and Pseudocereals.

Bioactive compounds, such as phenolic compounds, are phytochemicals found in significant amounts in cereals and pseudocereals and are usually evaluated by spectrophotometric (UV-VIS), HPLC, and LC-MS techniques. However, their bioavailability in grains is quite limited. This restriction on bioavailability and bioaccessibility occurs because they are in conjugated polymeric forms. Additionally, they can be linked through chemical esterification and etherification to macro components. Techniques such as thermoplastic extrusion, germination, fermentation, and hydrolysis have been widely studied to release phenolic compounds in favor of their bioavailability and bioaccessibility, minimizing the loss of these thermosensitive components during processing. The increased availability of phenolic compounds increases the antioxidant capacity and favor their documented health promoting.

Bread as probiotic carriers: Resistance of Bacillus coagulans GBI-30 6086 spores through processing steps.

This study evaluated the resistance of Bacillus coagulans GBI-30, 6086 (BC) spores through the processing and storage of white and whole wheat bread. The physicochemical parameters of the probiotic bread formulations were also characterized. Loaves of bread containing or not BC were prepared. Throughout the processing, samples were collected (after mixture, after fermentation, and after baking) for enumeration of BC. In addition, BC was enumerated in different parts of loaves of bread (crust, crumb, and whole slice) collected after baking (day zero) and at different storage times (3, 7, and 10 days). The incorporation of BC did not affect the moisture, specific volume, texture and color parameters, water activity, and pH of loaves of bread. Mixing and fermentation steps did not reduce the BC survival in white or whole wheat bread. The highest (p < 0.05) number of decimal reductions (γ) was caused by baking in the crust for both loaves of bread. Baking caused around two γ of BC in the crust and 1.5 γ of BC in crumb and a whole slice of white and whole bread. Generally, storage did not increase the γ caused by baking, regardless of the evaluated part or type of bread. Results show the impacts of baking on BC and highlight the formulated white and whole wheat loaves of bread as suitable carriers for delivering the probiotic BC.

Andean Sprouted Pseudocereals to Produce Healthier Extrudates: Impact in Nutritional and Physicochemical Properties.

The tailored formulation of raw materials and the combination of grain germination and extrusion processes could be a promising strategy to achieve the desired goal of developing healthier expanded extrudates without compromising sensory properties. In this study, modifications in the nutritional, bioactive profile and physicochemical properties of corn extrudates as influenced by the complete or partial replacement by sprouted quinoa (Chenopodium quinoa Willd) and cañihua (Chenopodium pallidicaule Aellen) were investigated. A simplex centroid mixture design was used to study the effects of formulation on nutritional and physicochemical properties of extrudates, and a desirability function was applied to identify the optimal ingredient ratio in flour blends to achieve desired nutritional, texture and color goals. Partial incorporation of sprouted quinoa flour (SQF) and cañihua flour (SCF) in corn grits (CG)-based extrudates increased phytic acid (PA), total soluble phenolic compounds (TSPC), γ-aminobutyric acid (GABA) and oxygen radical antioxidant activity (ORAC) of the extrudates. Sprouted grain flour usually results in an deleterious effect physicochemical properties of extrudates, but the partial mixture of CG with SQF and SCF circumvented the negative effect of germinated flours, improving technological properties, favoring the expansion index and bulk density and increasing water solubility. Two optimal formulations were identified: 0% CG, 14% SQF and 86% SCF (OPM1) and 24% CG, 17% SQF and 59% SCF (OPM2). The optimized extrudates showed a reduced amount of starch and remarkably higher content of total dietary fiber, protein, lipids, ash, PA, TSPC, GABA and ORAC as compared to those in 100% CG extrudates. During digestion, PA, TSPC, GABA and ORAC showed good stability in physiological conditions. Higher antioxidant activity and amounts of bioaccessible TSPC and GABA were found in OPM1 and OPM2 digestates as compared to those in 100% CG extrudates.

Custard apple puree, fructooligosaccharide and soy protein hydrolysate as alternative ingredients in low carb pound cake.

The optimum formulation of a low carb pound cake was determined using alternative ingredients to replace the main sources of digestible carbohydrates in the standard formulation. Surface response methodology was a useful tool in the investigation of the use of custard apple puree (CAP), fructooligosaccharides (FOS) and soy protein hydrolysate (SPH) as partial or total replacers for wheat flour, sucrose, and powdered whole milk, respectively. The quality of pound cakes was assessed by measuring the batter and cake properties. The percentage of ingredients substitution affected the specific gravity of the batter, cakes specific volume, crumb firmness, instrumental color parameters (L*, a*, b*) and number and circularity of alveoli from pound cake slices. The model equations developed can be used for predicting the quality of the pound cake. The optimum formulation of low carb pound cake with 40.98% of CAP, 94.94% of FOS and 100% of SPH, in replacement of wheat flour, sucrose and powdered whole milk, respectively, has a 93.70% of desirability. A reduction of 60.67% in digestible carbohydrates was reached. The main reduction occurs in the starch content due to the wheat flour replacement and the non-reducing sugar content due to the sucrose partial substitution. The low carb pound cake had a moderate glycemic index (60.08%), a low glycemic load (4.69%) and accepted by the judges through sensory analysis, with an acceptability index of 72.08 ± 3.97%. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s13197-021-05155-9.

Quantifying the impact of eight unit operations on the survival of eight Bacillus strains with claimed probiotic properties.

This study assessed the impact of eight unit operations [slow pasteurization, high-temperature short time (HTST) pasteurization, cooking, baking, drying, fermentation, supercritical carbon dioxide (CO2), irradiation and extrusion] in different food matrices (milk, orange juice, meatballs, bread, crystallized pineapple, yogurt, orange juice, ground black pepper, snacks, and spaghetti) on the resistance of eight (Bacillus flexus Hk1 Bacillus subtilis Bn1, Bacillus licheniformis Me1, Bacillus mojavensis KJS3, Bacillus subtilis PXN21, Bacillus subtilis PB6, Bacillus coagulans MTCC 5856 and Bacillus coagulans GBI-30, 6086) Bacillus strains with claimed probiotic properties (PB). The number of decimal reductions (γ) caused by the unit operations varied (p < 0.05) amongst the PB. Most of the unit operations caused ≤ 2 γ of PB in the food matrices evaluated. Irradiation caused up to 4.9 γ (p < 0.05) amongst the PB tested. B. subtilis Bn1, B. mojavensis KJS3, B. licheniformis Me1, and B. coagulans GBI-30 showed higher resistance to most of the tested unit operations. These results indicate that the choice of PB for application in foods should also be based on their resistance to unit operations employed during processing. Finally, the high resistance of PB to the unit operations tested comprise valuable data for the development and diversification of probiotic foods with sporeforming strains with claimed probiotic properties.

Production of innovative gluten-free breakfast cereals based on red and black rice by extrusion processing technology.

The transformation of black and red, broken or not, whole rice grains, into breakfast cereals is an interesting way to add value to these snacks for some reasons. Firstly, broken kernels hardly achieve a high market value; whole rice is healthy not only for their nutrient contents but also for their phytochemical profile, rich in phenolic compounds; breakfast cereals from pigmented rice are colored by themselves, and any additional colorant is unneeded; finally, rice is naturally gluten-free and suitable for those with conditions like celiac disease or gluten sensitivity. The objective of this study was to optimize some extrusion parameters that account for the physicochemical properties of extrudates by using response surface methodology. Feed moisture between 15 and 21% and the 4th barrel zone temperature between 110 and 160 °C were the independent variables. Specific features such as color, texture, water solubility and absorption, cold viscosity, expansion, specific volume, and compression force were evaluated. The trials have shown that moisture had a higher impact on the extrusion process than temperature. Less expanded, denser, harder, and darker products were obtained at higher moisture levels. The optimum points were defined at 15.5% and 16.0% of feed moisture and 159 °C and 150 °C of temperature for black and red rice extrudates, respectively. These conditions resulted in cereal breakfast balls with optimal water solubility, volume, texture, and good color. Additionally, cold viscosities and a low compression led to products with a potential high approval by consumers.

Microbiota-derived acetate protects against respiratory syncytial virus infection through a GPR43-type 1 interferon response.

Severe respiratory syncytial virus (RSV) infection is a major cause of morbidity and mortality in infants <2 years-old. Here we describe that high-fiber diet protects mice from RSV infection. This effect was dependent on intestinal microbiota and production of acetate. Oral administration of acetate mediated interferon-ß (IFN-ß) response by increasing expression of interferon-stimulated genes in the lung. These effects were associated with reduction of viral load and pulmonary inflammation in RSV-infected mice. Type 1 IFN signaling via the IFN-1 receptor (IFNAR) was essential for acetate antiviral activity in pulmonary epithelial cell lines and for the acetate protective effect in RSV-infected mice. Activation of Gpr43 in pulmonary epithelial cells reduced virus-induced cytotoxicity and promoted antiviral effects through IFN-ß response. The effect of acetate on RSV infection was abolished in Gpr43-/- mice. Our findings reveal antiviral effects of acetate involving IFN-ß in lung epithelial cells and engagement of GPR43 and IFNAR.

Blackberries (Rubus sp.) and whole grain wheat flour in cookies: evaluation of phenolic compounds and technological properties.

This study evaluated the technological and functional performance of whole grain wheat flour (WGWF), blackberry flour (BF), and blackberry pieces (BP) in cookies, using a Central Rotatable Composite Design (R2 > 0.75, and p < 0.10 for model validation). Similar color and fracturability behavior was observed for all cookies with BF and BP, however the phenolic compounds (TPC) and anthocyanins (TAC) levels increased with increasing BF and BP. The formulation selected in the desirability function, containing 7.94% and 4.72% BP and BF, respectively, presented 1553.79 mg GAE/100 g TPC, 63.90 mg CGE/kg TAC. The WGWF and BF can be alternative ingredients to improve color and provide health benefits of cookies.

Chemical and nutritional characterization of raw and hydrothermal processed jambu (Acmella oleracea (L.) R.K. Jansen).

Jambu (Acmella oleracea (L.) R.K. Jansen) is a neglected plant native to the Amazon Biome. Although it is very consumed in the north of Brazil, little is known about its chemical and nutritional composition. Thus, this study aimed to characterize jambu and to evaluate the effects of the boiling process on its chemical composition. The proximate composition, minerals, total amino acids, fatty acids levels, and phytosterols were determined. In comparison with conventional vegetables jambu presented higher levels of protein (24.01%), ash (10.92%), total fiber (62.61%) some mineral such as Ca (2551.56 mg/100 g), Mg (734 mg/100 g) and Cu (2.09 mg/100 g), and amino acids such as asparagine (32.01 mg/g), glutamic acid (28.26 mg/g), valine (14.55 mg/g) and isoleucine (14.19 mg/g). A significant reduction was observed in carbohydrates, total dietary fibers, minerals, unsaturated fatty acids, and in some amino acid levels after the boiling process, with an increase in ash content, protein, and saturated fatty acids in the heat-treated jambu. Lipids, phytosterols, and some amino acid levels were not significantly affected by the hydrothermal process. Thus, this study has shown that raw and processed jambu may be good alternatives for conventional vegetables, even with nutrients losses during boiling.

Determinação da concentração de diferentes sistemas de solventes na solubilização de proteínas de análogo de carne / Determination of the concentration of different solvents systems in the protein solubilization of meat analogue

O uso de solventes específicos para extração de proteínas determina o tipo de reação química que ocorre entre os componentes proteicos, principalmente quando estes foram submetidos a tratamentos térmicos como a extrusão termoplástica, uma tecnologia de alta versatilidade, baixo custo, alta produtividade e que não gera efluentes. No entanto, é necessário o uso de concentrações adequadas dos solventes para maximizar a extração das proteínas. Neste trabalho foi avaliada a solubilização de proteínas de análogo de carne a base de isolado proteico de soja e glúten vital, submetidos ao processo de extrusão termoplástica a baixa (23%) e alta (60%) umidade. Os solventes utilizados foram: tampão fosfato (pH 7,5) de 10, 20, 40, 60, 80 e 100mM, dodecil sulfato de sódio de 1, 2, 3, 4 e 5%, β-mercaptoetanol de 1, 2, 3 e 4%, Triton X-100 de 1, 2, 3 e 4% e ureia de 6, 7, 8, 9 e 10M. Todos os reagentes foram dissolvidos ou solubilizados em tampão fosfato 40mM (pH 7,5). Os resultados mostraram que as maiores extrações proteicas foram obtidas com o uso de 40mM de tampão fosfato, 2% de dodecil sulfato de sódio, 2% de β-mercaptoetanol, 3% de Triton X-100 e 7M de ureia.

The use of specific solvents for protein extraction determines the type of chemical reaction, which occurs between the protein components, mainly when the protein was submitted to thermal treatment, such as thermoplastic extrusion, a technology with high versatility, low cost and high throughput and without effluent generation. However, it is necessary to use adequate solvents concentration in order to maximize the protein extraction. The aim of this research was to evaluate the protein solubilization of meat analogue based on isolate soy protein and vital gluten submitted to thermoplastic extrusion process at low moisture content (23%) and high moisture content (60%). The solvents used were: phosphate buffer (pH 7.5) at 10, 20, 40, 60, 80 and 100mM, sodium dodecyl sulphate at 1, 2, 3, 4 and 5%, β-mercaptoethanol at 1, 2, 3 and 4%, Triton X-100 at 1, 2, 3 and 4% and urea at 6, 7, 8, 9 and 10M. All the chemical reagents were dissolved or solubilized in phosphate buffer 40mM (pH 7.5). The results showed that the highest protein extraction were obtained when phosphate buffer 40mM, sodium dodecil sulphate 2%, β-mercaptoethanol 2%, Triton X-100 3% and urea 7M were used.

Effect of extruded wheat flour and pre-gelatinized cassava starch on process and quality parameters of French-type bread elaborated from frozen dough.

This study aimed to verify the potential of extruded wheat flour (EWF) or pre-gelatinized cassava starch (PGS) to improve the process and the quality of French bread elaborated from frozen dough. Three formulations were prepared: 100% control wheat flour (CWF) and the other two formulations with 5% substitution of wheat flour by EWF or PGS. Frozen doughs were frozen stored for seven days and after this period they were thawed, fermented, baked and evaluated for physical, chemical and technological characteristics. Available glucose levels found for EWF (12g/100g), and PGS (11.7g/100g) in relation to CWF (7.1g/100g) showed higher sugar availability for yeasts at the initial stage of proofing, and may also have had a cryoprotective effect when freezing bread doughs. The frozen doughs with EWF or PGS, when thawed and fermented, presented higher volume increase, but after baking, they presented lower volume when compared to the control bread. The results of this study are promising for the use of extruded wheat flour or pre-gelatinized cassava starch as sugar providers for doughs' post-freezing proofing process, improving frozen dough process of French-type bread.

Massa alimentícia sem glúten com elevado teor proteico obtida por processo convencional / Gluten-free pasta with high protein content obtained by conventional processing

Indivíduos celíacos necessitam de dieta sem glúten como, por exemplo, massas alimentícias de arroz. No entanto, esse cereal apresenta o menor teor de proteínas, em relação aos demais cereais, e deficiência em características tecnológicas de cozimento e textura para as massas alimentícias. O objetivo deste trabalho foi desenvolver massa de farinha de arroz com alto teor de proteína através de Delineamento Composto Central Rotacional de três variáveis independentes, sendo: X1 - isolado proteico de soja (IPS - 0-20%); X2 - albumina de ovo modificada e desidratada (ALB - 0-15%); e X3 - farinha de arroz pré-gelatinizada (FAG - 0-30%). As massas foram analisadas quanto a tempo de cozimento (TC), perda de sólidos na água de cozimento (PS), aumento de peso (AP), firmeza e adesividade. Verificou-se que a adição de IPS, ALB e FAG influenciou significativamente (P<0,10) no TC, PS e firmeza, com valores entre 300 e 525s, 2,22 e 9,84% e 4,82 e 11,13N, respectivamente. O ponto ótimo foi obtido com adição de 17% de IPS, 15% de ALB e 15% de FAG, indicando um produto com excelentes características de cozimento e textura para inclusão na dieta de celíacos.

Celiac individuals require a gluten free diet, which includes products such as rice pasta. However, this cereal has lower protein content, when compared with other cereals, and poor cooking and texture technological characteristics for pasta. The aim of this research was the development of rice pasta with high protein content through a Central and Rotational Composite Design with three independent variables, as follows: X1 - isolated soy protein (ISP - 0-20 %); X2 - modified and dehydrated egg albumin (ALB - 0-15 %); and X3 - pre-gelatinized rice flour (GRF - 0-30%). The pasta samples were analyzed for cooking time (CT), solid loss in cooking water (SL), weight gain (WG), firmness and adhesiveness. It was verified that ISP, ALB and GRF significantly influenced (P<0.10) CT, SL and firmness, with values between 300 and 525s, 2.22 and 9.84% and 4.82 and 11.13N, respectively. The optimum point was obtained with the addition of 17% ISP, 15% ALB and 15% GRF, indicating a product with excellent cooking and texture properties to include in the diet of celiacs.

Influência da adição de farinha integral de aveia, flocos de aveia e isolado protéico de soja na qualidade tecnológica de bolo inglês / Influence of the addition of oat flour, oat bran and soy protein isolate on the technological quality of English cake

Avaliou-se a qualidade de bolos elaborados com substituição parcial da farinha de trigo por isolado proteico de soja na faixa de 0 a 12% e mistura de farinha integral de aveia e flocos de aveia na faixa de 0 a 40%, mediante metodologia de superfície de resposta. Avaliaram-se características físico-químicas como composição centesimal e granulometria das matérias-primas utilizadas e as qualidades reológicas da farinha de trigo (farinografia e alveografia). Os resultados indicaram produto com melhor simetria e textura com menor firmeza quando incorporada aveia e melhor volume específico com o incremento de isolado proteico de soja. A análise sensorial indicou a viabilidade de produção dos bolos com ingredientes funcionais por meio da aceitação do produto pelos julgadores e intenção de compra.