Acceptance of handmade products containing nuts and fructooligosaccharides

Freitas Folly, Gilce Andrezza de; Neiva da Silva, Ester; Vieira Verner, Fabiana; Santos Silva, Fernanda Cacilda dos; Pinheiro Volp, Ana Carolina

doi:10.3305/nh.2013.28.1.6142

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Nutrición Hospitalaria

On-line version ISSN 1699-5198Print version ISSN 0212-1611

Nutr. Hosp. vol.28 n.1 Madrid Jan./Feb. 2013

https://dx.doi.org/10.3305/nh.2013.28.1.6142

ORIGINAL

Acceptance of handmade products containing nuts and fructooligosaccharides

Aceptación de productos artesanales formulados con nueves y fructooligosacáridos

Gilce Andrezza de Freitas Folly¹, Ester Neiva da Silva², Fabiana Vieira Verner², Fernanda Cacilda dos Santos Silva³ and Ana Carolina Pinheiro Volp⁴

¹Master student in Health and Nutrition (Research Line: Biochemistry and Pathophysiology of Nutrition) by Universidade Federal de Ouro Preto, Ouro Preto - Minas Gerais, Brazil.
²Bachalor's Degree in Nutrition by Faculdade de Minas, Muriae-Minas Gerais, Brazil.
³MSc. PhD student in Physiology and Professor at Universidade Federal de Ouro Preto, Ouro Preto Minas Gerais, Brazil.
⁴PhD in Science and Technology of Food and Adjunct Professor at Universidade Federal de Ouro Preto, Ouro Preto- Minas Gerais, Brazil.

Correspondence

ABSTRACT

Introduction: Prebiotic and food with functional properties are beneficial for consumers through prevention of many diseases.
Aim: Verify the acceptance of handmade product (chocolate bar, soy sweet and sweet bread) formulated based on oil seeds (flaxseed, peanut and Brazil nut) and or fructooligosaccharides (FOS).
Methods: Four samples of each handmade product were prepared adding different concentrations of oil seed and FOS. The sensory evaluation was performed by a sample of 373 consumers; 126, 121 and 126 tasters of chocolate bar, soy sweet and sweet bread, respectively, using a hedonic scale of nine points. The results were submitted to analysis of variance (ANOVA) and Tukey's test.
Results and Discussion: Observing the trials averages, we inferred that samples of sweet bread with Brazil nut and/or FOS had the greater acceptance. However, all the samples are good market alternatives because they had presented averages between 6 and 9 points, and conferred accretion of omega-3 and omega-6 fatty acids, protein, fiber, antioxidant vitamins and minerals, as well as, phytochemicals, which plays an important role in health promotion.
Conclusion: The handmade products formulated based on oil seeds and FOS had good acceptance and can improve the consumer dietary patterns. But, in order to prove the functionality of these products, new studies should be performed.

Key words: Functional foods. Chocolate. Flaxseed. Peanuts. Brazil nuts. Fructooligosaccharide.

RESUMEN

Introducción: Los prebióticos y alimentos con propiedades funcionales proporcionan beneficios para la salud de los consumidores a través de la prevención de muchas enfermedades.
Objetivo: Verificar la aceptación de productos artesanales (chocolate en barra, dulce de soja y pan dulce) formulados con nueces (linaza, maní y nueces de Brasil) y, o fructooligosacáridos (FOS).
Métodos: Cuatro muestras de cada producto fueron preparados con adición de diferentes concentraciones de nueces y FOS. La evaluación sensorial se realizó mediante una muestra de 373 consumidores, con 126, 121 y 126 probadores para muestras de chocolate en barra, dulce de soja y pan dulce, respectivamente, utilizándose la escala hedónica de nueve puntos. Los resultados fueron sometidos a Análisis de Varianza (ANOVA) y el test de Tukey.
Resultados y Discusión: Observándose las medias de los juzgamientos, se infiere que las muestras con mayor aceptación han sido de pan dulce con nueces de Brasil y, o FOS. Sin embargo, todas las muestras son buenas alternativas de mercado y se lo mostró un promedio de entre 6 y 9 puntos, más un aumento de ácidos grasos omega 3 y 6, proteínas, fibras, vitaminas, antioxidantes y minerales, así como fitoquímicos, los cuales desempeñan un papel importante en la promoción de la salud.
Conclusión: Los productos artesanales formulados con oleaginosas y, o FOS tuvieron una buena aceptabilidad y pueden mejorar los hábitos alimentarios de los consumidores. Pero para probar la funcionalidad de estos productos, se necesitan nuevos estudios.

Palabras clave: Alimentos funcionales. Chocolate. Linaza. Maní. Nueces de Brasil. Fructooligosacárido.

Abbreviations
ANOVA: Analysis of variance.
ANVISA: Agência Nacional de Vigilância Sanitária.
DRI: Dietary Reference Intakes.
USA: United States of America.
FDA: Food and Drugs Administration.
FOS: Fructooligosaccharides.
LOX: Lipoxygenases Enzymes.
RDA: Recommended Dietary Allowances.
SAS: Statistical Analysis Systems (software).
UL: Tolerable Upper Intake Levels.

Introduction

The incessant consumer search for food which incorporates functional properties together with good sensory characteristics generated in food companies and researchers a bigger concern about further research in this regard. Thus, such food have been studied more frequently in last year, because they confer benefits to health, energy balance and weight loss (oil seed), cardiovascular diseases and atherosclerosis, type 2 diabetes and insulin resistance¹.

Functional foods are not the only ones that provide benefits to health. Prebiotics share the same function. Among then, fructooligosaccharides (FOS) are fructose polymers linked to one molecule of glucose. They belong to oligosaccharide group, are totally resistant to digestion in upper digestive tract and are used almost entirely by bifidobacteria in colon. Among their benefits, when usually ingested, is the growth of beneficial intestinal microbiota, intestinal function modulation, lipid profile improve (specially triglycerides) and suppression of putrefactive substances production². FOS are considered fibers, therefore they are widely used in food with the finality of increase their concentration³.

Some food, as oil seeds, have also been highlighted in relation to health benefits⁴. The flaxseed has in its composition about 30 to 40% of fat, 20 to 25% of protein (limiting aminoacids: lysine, methionine and cysteine), 20 to 28% of total fiber (75% insoluble and 25% soluble), A, B, D, E vitamins and minerals, as potassium and phosphorus. Among vegetable food, flaxseed is considered as largest omega-3 fat acid source, because, there are almost 57% of total lipid in its composition⁵.

The true nuts (Brazil nuts) and edible seeds (peanuts) contains high amount of lipids (between 40 and 60%) and proteins (between 8 and 20%). In relation to protein quality, these food present an essential aminoacids profile which attend the most of children and adults (limiting aminoacids: lysine, methionine and cysteine). Moreover, they are oleic fatty acid source (omega-9), linoleic (omega-6), have good relationship of omega-6 with linolenic (omega-3) which correspond to 232.21, and are considered phytosterols source, especially the β-sistosterol, E vitamin, selenium and fibers, mainly, insoluble fibers⁴. In view of this nutrient profile, these food consumption is related to risk reducing for many chronic diseases, as cardiovascular, some types of cancers (e.g.: prostate, esophagus, stomach, colon and rectum)^4,6.

Volp et al.⁷ analyzed diet quality indexes and observed that the food environment of human is complex and multidimensional, and that the measure of consumption does not show adequately the complexity of food choices, diet variety or the nature of food patterns. Additionally, they also observed that there are indexes which help to assess of diet quality, but they were created based on American recommendations. So, there is a necessity to develop indexes adapted to Brazilian population based on typical food and portions established in Brazilian food pyramid and guides. But, in order to develop researches which evaluate the diet quality of the individual or determine the food patterns of a population, is necessary to base on in nutrition principles which include the proportionality, variety and moderation⁸.

So, despite of the benefits that FOS and oil seeds concede to health, little is known about sensorial characteristics when we added to handmade food in different proportions. Therefore, the aim of this study was develop new handmade food products (e.g.: chocolate bar, soy sweet and sweet bread) and evaluate the addition effect of different concentration of FOS and/or oil seeds (flaxseed, peanut and Brazil nut) on their acceptance by students of a Minas Gerais university ( in Brazil) in order to improve the population food pattern.

Material e methods

Material

- Experiment 1 (Chocolate bar with FOS and/or flaxseed): Four samples of chocolate bars were prepared adding different concentration of FOS and crushed flaxseed (table I). We chose to use dark chocolate in chocolate bar formulation.

- Experiment 2 (Soy sweet with FOS and/or peanut an adaptation of birth sweet, typical in Brazil): Four samples of bleached common soy sweet were prepared adding different concentration of FOS and peanut (table I).

- Experiment 3 (Sweet Bread with FOS and/or Brazil nut): Four samples of sweet bread were prepared adding different concentration of FOS and Brazil nut (table I).

All products used in handmade products preparation were obtained in local market.

Methods

- Samples preparation. The samples were prepared in Dietary Technique Laboratory of an university of Minas Gerais, in Brazil. The ingredient amount added to samples is presented in table I. The FOS and oil seeds amount added were calculated on the handmade food product total weight.

- Sensory analysis. The sensory evaluation of chocolate bar, soy sweet and sweet bread samples was realized by 373 consumers (126, 121 and 126, respectively). The consumers evaluated the overall acceptance of formulation, using a nine-point hedonic scale (Annex 1) adapted of Reis e Minim⁹. The test was performed at a university campus (Muriae - Minas Gerais, Brazil) with students of different majors.

Samples were evaluated, in the same section, by each consumer, where it was served in monadic form, in encoded portion, with random number of three digits. The experiment was structured according to the randomized complete block design.

- Statistical analysis. The data related to acceptance of four samples were submitted to analysis of variance (ANOVA) and Tukey's test at 5% of probability having as variation sources, samples and consumers. ANOVA was used to analyze the hedonic scale results considering jointly all consumers evaluations. So, we assumed that all presented the same behavior, disregarding the individuality⁹. Tukey's test was used to deduce the unstructured qualitative factors effect, since it is a test for comparing averages¹⁰. Statistical analysis were performed using Statistical Analysis Systems software (SAS) version 9.0.

Results and Discussion

The judgment averages for each handmade food product samples are presented in table II. Control chocolate bar showed the major judgment average for chocolate bar sample. It did not differ statistically from sample of chocolate bar with FOS. However, the chocolate bar containing only flaxseed showed the smaller judgment average, differing significantly from the other samples, as shown by Tukey's test. The chocolate bar added with FOS and flaxseed also obtained a different significantly average from others samples. The control chocolate bar samples, added with FOS or with FOS plus flaxseed showed judgment averages between 7 and 8 ranging from the hedonic terms "liked moderately" and "liked so much". However, the chocolate bar sample added only with flaxseed obtained judgment averages between 6 and 7, ranging from the hedonic terms "liked slightly" and "liked moderately". So, observing the judgment averages for different samples, it is possible infer that all samples are good market alternatives, since they presented judgment averages between 6 and 8 (nine-point hedonic scale). This observation becomes important since chocolate is a great acceptance market product, in which there was a modification that added substances with relevant functional properties for consumer public. Chocolate is a functional food, since it has high concentration of phenolic compounds. The flavonoids are the most abundant phenolic compounds in cocoa. According to Ding et al.¹¹ many studies suggest that cocoa flavonoids can act as antioxidants reducing the risk or delaying the development of cardiovascular diseases, cancer, hypertension and insulin resistance.

The acceptance of dark chocolate sample added flaxseed (with or without FOS) was the lower in relation to samples without flaxseed, probably, due to the change in chocolate texture created by flaxseed addiction. The chocolate bar acquired a granulated texture by crushed flaxseed. This property is not always well accepted by consumer, since it changes, even mildly, the traditional composition and sensory characteristic of chocolate bar.

In a study of roll acceptability plus flaxseed and wheat flour, there was little or no alteration in flavor in comparison to common salt bread. The flaxseed bread had nice flavor and physicochemical characteristics similar to traditional roll, and excellent acceptance by consumers¹². Similar results were found in a study about honey bread added with flaxseed, obtaining good sensory evaluation and product high acceptability¹³.

The flaxseed addiction to dark chocolate bar confers increase of various nutrients. Fibers, for example, reduce cholesterolemia, improve the intestinal microbiota and induce satiety⁵. Polyunsaturated fatty acids (Omega-3 and Omega-6) act positively on lipid profile, reduce the blood viscosity, promote greater endothelium relaxation, and have antiarrhythmic¹⁴, anti-inflammatory and antithrombotics¹⁵ effects. Moreover, lignans act on liver similarly to estrogen, confer antioxidant and, possibly, anticancer activity.¹⁵ Additionally, they can interfere in hepatic metabolism improving lipid profile, thyroid metabolism, increasing triiodothyronine concentration, and enhance the bile acids excretion, reducing the dietary cholesterol absorption¹⁶.

In United States of America (USA), Food and Drugs Administration (FDA) indicates the incorporation of up to 12% of flaxseed in food products. In Brazil, there are no rules or standards which limit the exact amount of flaxseed which should be added to food products in order to they could have characteristic of food rich in functional properties¹⁷.

In relation to soy sweet sample, we observed that the highest judgment average was for soy sweet plus peanut. It did not differ statistically the other soy sweet sample which contained FOS and peanut. However, we observed that control soy sweet had the lowest judgment average, differing significantly the other sample. The soy sweet added with FOS, also obtained averages significantly different of others. The samples of soy sweet with peanut and soy sweet with FOS and peanut obtained acceptance averages between 7 and 8, ranging from the hedonic terms "liked moderately" and "like so much". Since the sample of soy sweet added with FOS obtained acceptance averages between 6 and 7, ranging from the hedonic terms "liked slightly" and "liked moderately". The control soy sweet had acceptance averages between 5 and 6, corresponding to the hedonic terms "not liked nor disliked". So, observing the judgment averages for different samples, it is possible to infer that soy and its derivates are, in fact, appreciated by a small segment of the population. The addition of peanut, mainly, and or FOS significantly improved the sensory characteristics, and consequently, their acceptance. Moreover, such modification also added food with important functional properties for consumer public.

The smallest acceptance of control soy sweet, probably, was due to same sensory characteristic modification in consequence of physical changes in soyprotein during the process of reduction of lipoxygenase action by heat (blanching process) applied to grain in preliminary stage of sweet preparation. The blanching process aims to reduce the unpleasant taste and flavor produced by lipoxygenases enzymes (LOX) action, which are present in soy grain as LOX-1, LOX-2 and LOX-3 forms¹⁸.

Nevertheless, soy products can be mixed with many healthy ingredients, which have better acceptance by consumer, in order to improve their acceptability. In this study we used peanut for this purpose.

The results about the acceptability of soy sweet added with peanut are interesting, since peanut is an abundant protein source as soy, and its consumption can attenuate the deficiency of animal protein in poor regions. In relation to chemical composition, the peanut has 44.57% of lipid, 24.03% of protein, 12.01% of carbohydrate, 11.30 g of fibers and 545.29 Kcal/100 g. Among the lipid profile, it has 14.81% of saturated fat, 43.93% of monounsaturated, 37.81% of polyunsaturated and the omega-6/omega-3 index of 129.38. Among the minerals, it is calcium, iron, zinc, magnesium, potassium, sodium, copper and phosphorus source.⁴ Thus, the peanut use in soy sweet is considered promising, since it reduce the soy unpleasant taste and flavor, besides being abundant in minerals which participate the several enzymes synthesis.

The daily intake of at least 25 g of soyprotein can help reduce the cholesterol since its consumption is associated with a balanced diet and healthy living habits¹⁹. Isoflavones is one of the main soy bioactive substances, which reduce the risk of certain types of cancer. Protease inhibitor (Trypsin inhibitor), saponins, daidzein, genistein, glycitein, phytosterols and oligosaccharides are also present in soy. They can act in reduction of chronic disease development risk²⁰. School feeding American government programs showed that soy can replace the animal protein up to 30%, without impairment²¹. Moreover, soyprotein can change the pattern of genes expression related to lipid metabolism in liver and adipose tissue, favoring the maintenance organic homeostasis²⁰.

Griel et al.²² evaluating the peanut consumption effects on anthropometric parameters and diet quality, observed that peanut and its derivatives improve the diet nutritional profile. They also realized that these food inclusions do not promote weight gain for consumer since his energetic intake does not exceed the recommendations. So, the peanut and peanut butter intake can stimulate the healthy diet consumption, reducing chronic disease risk.

In relation to sweet bread samples, we observed that sweet bread added with Brazil nut and sweet bread added with FOS and Brazil nut had major judgment averages. The acceptance of latter was not statistically different of sweet bread added with FOS and control sweet bread. The samples of sweet bread with Brazil nut had acceptance average between 8 and 9, ranging from the hedonic terms "liked so much" and "liked extremely". However, the samples of sweet bread added with FOS and Brazil nut, sweet bread with FOS and control sweet bread had acceptance average between 7 and 8, ranging from the hedonic terms "liked moderately" and "liked so much". So, observing the judgment averages for different samples, it is possible infer that these samples are excellent alternatively market, since they had judgment averages between 7 and 9 (9-point scale). This observation is important, since the bread is part of Brazilians dietary pattern. Moreover, the addition of Brazil nut, mainly, and FOS provide better sensory characteristics, beyond functional properties which are very wanted by consumers.

The chemical composition of Brazil nut consist of 64.94% of lipid, 11.14% of protein, 6.27% of carbohydrate, 87.02 g of fibers and 665.98 Kcal/100g. In relation to lipid profile, it has 25.47% of saturated fat, 29.03% of monounsaturated, 44.31% of polyunsaturated and the omega-6/ omega-3 index of 232.21⁴. About the minerals, Brazil nut is abundant in selenium, containing 236.8 μg/ 8 g (29.6 μg/g) of nut, an average, equivalent of two units²³. This addition also brings benefits. The selenium recommendation for adults, according to Dietary Reference Intakes (DRI) is at least of 55 μg/day (RDA - Recommended Dietary Allowances), and maximum intake (UL - Tolerable Upper Intake Levels) of 400 μ/day²⁴. Therefore, a portion of 50 g of bread added with Brazil nut supply the minimum recommended intake. Regarding to metabolic syndrome components (adiposity, dyslipidemia, hypertension, hyperglycemia), the selenium, probably, presents benefic effects in prevention and treatment of type 2 diabetes and cardiovascular diseases, besides confers antioxidant effects²⁵. Additionally, Brazil nut is a resveratrol an arginine source, which act on platelet aggregation inhibition and vasodilatation, by nitric oxide release⁴.

Generally, in this study, samples with FOS had major acceptance in relation to others, which can be assigned to its sweetener power. Its sweet flavor is similar to saccharose, which is our traditional sweetener²⁶. FOS is 0.4 to 0.6 fold more sweet than saccharose, however provide only 1 calorie/g²⁷. Dental caries prevention is other benefit of these sweeteners²⁶ due to FOS excellent technological properties of flavor, texture and do not alter the product characteristic where is added²⁸.

FOS are added to food because they promote benefits, as bifid bacteria growth , suppression of putrefactive bacteria growth, reduction of toxic metabolites accumulation resulting from fermentation processes and consequent reduction of colon cancer incidence, besides prevent constipation^2,28. FOS also reduces cholesterolemia, because they are metabolized by colonic bacteria producing short-chain fatty acids, as propionate, which inhibit hydroxymethyl-glutaryl-CoA reductase enzyme, responsible by endogenous cholesterol synthesis²⁹.

A study showed that FOS increased bifidobacteria amount in patients with hematologic neoplasms undergoing chemotherapy treatment³⁰.

According to National Health Surveillance Agency (ANVISA- Agencia Nacional de Vigilancia Sanitaria), solid product added with FOS must contain at least 3 g of FOS (fibers) in each portion in order to have functional allegation¹⁹. In present study, such proportion was used in samples preparation³¹.

Conclusion

According to results observed in sensory evaluation of dark chocolate bar, control samples and samples added with FOS had better acceptance, but these do not differ as the overall acceptance. The addition of FOS to dark chocolate bar was benefic, because gave pleasant sweetener power to consumers taste. Although, FOS and flaxseed given additional benefits to food.

The highest judgment average was to control chocolate bar. In relation to soy sweet, samples with peanut and peanut plus FOS had the best acceptance, differing from others. The control soy sweet had the worst acceptance. The addition previously mentioned conferred nutritional and sensory value to product, since soy has a flavor enjoyed by a small segment of Brazilian population. Thus, this is an alternative to increase the soy intake in Brazil. Regarding to sweet bread, samples added with Brazil nut and Brazil nut plus FOS had better acceptance. The last had the same acceptance than sample with FOS. FOS addition to bread conferred a sweeter taste and provided an improvement in its nutritional value. Thus, these foods can be inserted in human diet in order to improve Brazilian dietary pattern. However, despite of all alleged benefits and great acceptance by consumer, new studies must be performed to prove the functionality and grant functional allegation to these handicraft products formulated based on oilseed and FOS.

References

1. Mori A, Mattes RD. Propriedades funcionais das oleaginosas: papel no risco de doengas crónicas. In: Costa NMB, Rosa COB, editores. Alimentos funcionais: componentes e efeitos fisiológicos. Rio de Janeiro: Rubio; 2010. Cap.13; p.209-27. [ Links ]

2. Tomomatsu H. Health effects of oligossacharides. Food Technol 1994; 48(10): 61-5. [ Links ]

3. Henriques GS. Biodisponibilidade de carboidratos. In: Cozzolino, SMF. Biodisponibilidade de nutrientes. 2^a ed. Barueri: Manole; 2007. Cap. 5; p.124-52. [ Links ]

4. Freitas JB, Naves MMV. Composição química de nozes e sementes comestíveis e sua relação com a nutrição e saúde. Rev Nutr 2010; 23(2): 269-79. [ Links ]

5. Sales RL, Fialho CGO, Costa NMB. Linhaça: nutrientes, compostos bioativos e efeitos fisiológicos. In: Costa NMB, Rosa COB, editores. Alimentos funcionais: componentes bioativos e efeitos fisiológicos. Rio de Janeiro: Rubio; 2010. Cap.11; p.193-208. [ Links ]

6. World Cancer Research Fund. Food, nutrition, physical activity, and prevention of cancer: a global perspective. Washington (DC): AIR; 2007. [ Links ]

7. Volp ACP, Alfenas RCG, Costa NMB, Minim VPR, Stringueta PC, Bressan J. Índices dietéticos para avaliação da qualidade de dietas. Rev Nutr Campinas 2010; 23(2): 281-95. [ Links ]

8. Volp ACP. Revisão sobre os índices e instrumentos dietéticos para determinação da qualidade de dietas. Rev Bras Promoç Saúde. Fortaleza 2011; 24(4): 404-14. [ Links ]

9. Reis RC, Minim VPR. Teste de aceitação. In: Minim VPR, editor. Análise sensorial: estudos com consumidores. Viçosa: Editora UFV; 2006. Cap.3; p.67-83. [ Links ]

10. Bertoldo JG, Coimbra JLM, Guidolin AF, Mantovani A, Vale NM. Problemas relacionados com o uso de testes de comparação de médias em artigos científicos. Biotemas 2008; 21(2): 145-153. [ Links ]

11. Ding EL, Hutfless SM, Ding X, Girotra S. Chocolate and prevention of cardiovascular disease: a systematic review. Nutr Metab 2006; 3: 2. [ Links ]

12. Oliveira TM, Pirozi MR, Borges JTS. Elaboração de pão de sal utilizando farinha mista de trigo e linhaça. Alim Nutr Araraquara 2007; 18: 141-50. [ Links ]

13. Possamai TN (dissertação). Elaboração do pão de mel com fibra alimentar proveniente de diferentes grãos, sua caracterização físico-química, microbiológica e sensorial. Curitiba: Universidade Federal do Paraná; 2005. [ Links ]

14. Sposito AC, Caramelli B, Fonseca FAH, Bertolami MC. IV Diretriz Brasileira sobre Dislipidemias e Prevenção da Aterosclerose. Departamento de Aterosclerose da Sociedade Brasileira de Cardiologia. Arq Bras Cardiol 2007; 88(1): 1-19. [ Links ]

15. Lissin LW, Cookie JP. Phytoestrogens and cardiovascular health. J Am Coll Cardiol 2000; 35(6): 1403-10. [ Links ]

16. Bhathena SJ, Ali AA, Mohamed AI, Hansen CT, Velásquez MT. Differential effects of dietary flaxseed protein and soy protein on plasma triglyceride and uric acid levels in animal models. J Nutr Bioch 2002; 13(11): 684-9. [ Links ]

17. Maciel LMB, Pontes DF, Rodrigues MCP. Efeito da adição de farinha de linhaça no processamento de biscoito tipo cracker. Alim Nutr Araraquara 2008; 19(4): 385-92. [ Links ]

18. Ciabotti S, Barcelos MFP, Pinheiro ACM, Clemente PR, Lima MAC. Característica sensorial e física de extratos de tofus de soja comum processada termicamente e livre de lipoxigenase. Ciênc Tecnol Aliment 2007; 27: 643-8. [ Links ]

19. Agência Nacional de Vigilância Sanitária - ANVISA (Internet). Alimentos com Alegações de Propriedades Funcionais e ou de Saúde, Novos Alimentos/Ingredientes, Substâncias Bioativas e Probióticos. 2005. Disponível em: http://www.anvisa.gov.br/alimentos/comissoes/tecno.htm. [ Links ]

20. Mandarino JMBC. Compostos antinutricionais da soja: caracterização e propriedades funcionais. In: Costa NMB, Rosa COB, editores. Alimentos funcionais: componentes e efeitos fisiológicos. Rio de Janeiro: Rubio; 2010. Cap.11; p.177-92. [ Links ]

21. Messina MJ, Persky V, Setchell KD, Barnes S. Soy intake and cancer risk: a review of the in vitro and in vivo data. Nutr Cancer 1994; 21: 113-21. [ Links ]

22. Griel AE, Eissenstat B, Juturu V, Hsieh G, Kris-Etherton PM. Improved Diet Quality with Peanut Consumption. J Am Coll Nutr 2004; 23(6): 660-8. [ Links ]

23. Pacheco M. Tabela de Equivalentes, Medidas Caseiras e Composição Química dos Alimentos. Rio de Janeiro: Rubio; 2006. 655p. [ Links ]

24. Dietary Reference Intakes (DRIs): Recommended Intakes for Individuals. National Academy of Sciences. Institute of Medicine. Food and Nutrition Board. Disponível em <http://fnic.nal.usda.gov/dietary-guidance/dietary-reference-intakes/dri-tables> [ Links ].

25. Volp ACP, Bressan J, Hermsdorff HHM, Zulet MA, Martínez JA. Efeitos antioxidantes do selênio e seu elo com a inflamação e síndrome metabólica. Rev Nutr 2010; 23(4): 581-90. [ Links ]

26. Gallagher ML. Os nutrientes e seu metabolismo. In: Mahan LK, Escott-Stump S. Krause: Alimentos, nutrição e dietoterapia. 12 ed. Rio de Janeiro: Elsevier; 2010. Cap. 3; p. 39- 143. [ Links ]

27. Passos LML, Park Y, Kun K. Frutoligossacarídeos: implicação na saúde humana e utilização em alimentos. Cienc Rural 2003; 33(2): 385-95. [ Links ]

28. Mizota, T. Functional and Nutritional Foods Containing Bifidogenic Factors. Int Dairy J 1996; 313: 31-35. [ Links ]

29. Rodriguez R, Jimenez A, Fernandez-Bolanos J, Heredia A. Dietary fibre from vegetable products as source of functional ingredients. Trends Food Sci Technol 2006; 17(1): 3-15. [ Links ]

30. Búrigo T, Fagundes RLM, Trindade EBSM, Vasconcelos HCFF. Efeito bifidogênico do frutooligossacarídeo na micro-biota intestinal de pacientes com neoplasia hematológica. Rev Nutr 2007; 20(5): 491-7. [ Links ]

31. Sales RL, Volp ACP, Barbosa KBF, Dantas MIS, Duarte, HS, Minim VPR. Mapa de preferência de sorvetes ricos em fibras. Ciènc Tecnol Aliment 2008; 28: 27-31. [ Links ]

Correspondence:
Ana Carolina Pinheiro Volp.
Departamento de Nutrição Clínica e Social.
Escola de Nutrição.
Universidade Federal de Ouro Preto. Brasil.
Campus Universitário.
Morro do Cruzeiro, s/n.
Ouro Preto, MG. Brasil.
CEP 35400-000.
E-mail: anavolp@gmail.com

Recibido: 30-VIII-2012.
Aceptado: 20-XI-2012.