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Abstract

Different commercial fibres from bamboo (BAM), cocoa (COC), psyllium (PSY), chokeberry (ARO) and citrus (CIT) were characterized for technological (oil- and water-holding capacity, solubility and bulk density) and physical (moisture, colour and particle size) features and added to a cookie recipe. The doughs were prepared using sunflower oil and white wheat flour was substituted with 5% (w/w) of the selected fibre ingredient. The attributes of the resulting doughs (colour, pH, water activity and rheological tests) and cookies (colour, water activity, moisture content, texture analysis and spread ratio) were compared to control doughs and to cookies made with refined flour and whole flour formulation. The selected fibres consistently impacted dough rheology and, consequently on, the spread ratio and the texture of the cookies. While the viscoelastic behaviour of the control dough made with refined flour was maintained in all sample doughs, adding fibre decreased loss factor (tan δ), except for ARO-added dough. Substitution of wheat flour with fibre decreased the spread ratio except for the PSY addition. The lowest spread ratio values were observed for CIT-added cookie, which were similar to whole flour cookies. The addition of phenolic-rich fibres positively affected the in vitro antioxidant activity of the final products.

Keywords

Fibre rheology texture spread ratio antioxidant activity

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References

Agrahar-Murugkar

Gulati

Kotwaliwale

, et al. (2015) Evaluation of dough and biscuits’ nutritional, textural and particle size characteristics made from composite flours containing sprouted and malted ingredients. Journal of Food Science and Technology 52(8): 5129–5137.

Amendola

De Faveri

Spigno

(2010) Grape marc phenolics: Extraction kinetics, quality and stability of extracts. Journal of Food Engineering 97(3): 384–392.

Blanco Canalis

Steffolani

León

, et al. (2017) Effect of different fibers on dough properties and biscuit quality. Journal of Science and Food Agriculture 97(5): 1607–1615.

Boulos

Greenfield

Wills

(2000) Water holding capacity of selected soluble and insoluble dietary fibre. International Journal of Food Properties 3(2): 217–231.

Canalis

León

Ribotta

(2019) Incorporation of dietary fiber on the cookie dough. Effects on thermal properties and water availability. Food Chemistry 271: 309–317.

Chau

Wang

Wen

(2007) Different micronization methods significantly improve the functionality of carrot insoluble fibre. Food Chemistry 100(4): 1402–1408.

Chevallier

Colonna

Buleon

, et al. (2000) Physicochemical behaviors of sugars, lipids, and gluten in short dough and biscuit. Journal of Agricultural and Food Chemistry 48(4): 1322–1326.

David

Lesniarek

, et al. (2021) Oleogelation of rapeseed oil with cellulose fibers as an innovative strategy for palm oil substitution in chocolate spreads. Journal of Food Engineering 292: 110315.

Denev

Kratchanov

Ciz

, et al. (2012) Bioavailability and antioxidant activity of black chokeberry (Aronia melanocarpa) polyphenols: In vitro and in vivo evidences and possible mechanisms of action: A review. Comprehensive Reviews in Food Science and Food Safety 11(5): 471–489.

10.

Devi

Khatkar

(2016) Physicochemical, rheological and functional properties of fats and oils in relation to cookie quality: A review. Journal of Food Science and Technology 53(10): 3633–3641.

11.

Dordoni

Duserm Garrido

Marinoni

, et al. (2019) Enrichment of whole wheat cocoa biscuits with encapsulated grape skin extract. International Journal of Food Science 2019: Article ID 9161840.

12.

Elleuch

Besbes

Roiseux

, et al. (2008) Date flesh: Chemical composition and characteristics of the dietary fibre. Food Chemistry 111(3): 676–682.

13.

Fradinho

Nunes

Raymundo

(2015) Developing consumer acceptable biscuits enriched with psyllium fibre. Journal of Food Science and Technology 52(8): 4830–4840.

14.

Herald

Gadgil

Tilley

(2012) High-throughput micro plate assays for screening flavonoid content and DPPH-scavenging activity in sorghum bran and flour. Journal of the Science of Food and Agricolture 92(11): 2326–2331.

15.

Huang

Chow

Fang

(2011) Preparation and physicochemical properties of fiber-rich fraction from pineapple peels as a potential ingredient. Journal of Food and Drug Analysis 19(3): 318–323.

16.

Karp

Wyrwisz

Kurek

, et al. (2017) Combined use of cocoa dietary fibre and steviol glycosides in low-calorie muffins production. International Journal of Food Science and Technology 52(4): 944–953.

17.

Kaur

Sandhu

Arora

, et al. (2015) Gluten free biscuits prepared from buckwheat flour by incorporation of various gums: Physicochemical and sensory properties. LWT-Food Science and Technology 62(1): 628–632.

18.

Laguna

Sanz

Sahi

, et al. (2014) Role of fibre morphology in some quality features of fibre-enriched biscuits. International Journal of Food Properties 17(1): 163–178.

19.

Lecumberri

Goya

Mateos

, et al. (2007) A diet rich in dietary ﬁber from cocoa improves lipid proﬁle and reduces malon-dialdehyde in hypercholesterolemic rats. Nutrition (Burbank, Los Angeles County, Calif.) 23: 332–341.

20.

Lee

Inglett

(2006) Rheological and physical evaluation of jet-cooked oat bran in low calorie cookies. International Journal of Food Science and Technology 41(5): 553–559.

21.

Mamat

Hill

(2014) Effect of fat types on the structural and textural properties of dough and semi-sweet biscuit. Journal of Food Science and Technology 51(9): 1998–2005.

22.

Mancebo

Rodríguez

Martínez

, et al. (2018) Effect of the addition of soluble (nutriose, inulin and polydextrose) and insoluble (bamboo, potato, and pea) fibres on the quality of sugar-snap cookies. International Journal of Food Science and Technology 53(1): 129–136.

23.

Mastromatteo

Guida

Danza

, et al. (2013) Rheological, microstructural and sensorial properties of durum wheat bread as affected by dough water content. Food Research International 51(2): 458–466.

24.

Noguerol

Igual

Pagán

(2022) Developing psyllium fibre gel-based foods: Physicochemical, nutritional, optical and mechanical properties. Food Hydrocolloids 122: 107108.

25.

Quiles

Campbell

Struck

, et al. (2018) Fiber from fruit pomace: A review of applications in cereal-based products. Food Reviews International 34(2): 162–181.

26.

Raymundo

Fradinho

Nunes

(2014) Effect of psyllium fibre content on the textural and rheological characteristics of biscuit and biscuit dough. Bioactive Carbohydrates and Dietary Fibre 3(2): 96–105.

27.

Sidor

Drożdżyńska

Gramza-Michałowska

(2019) Black chokeberry (Aronia melanocarpa) and its products as potential health-promoting factors – An overview. Trends in Food Science and Technology 89: 45–60.

28.

Sójka

Kołodziejczyk

Milala

(2013) Polyphenolic and basic chemical composition of black chokeberry industrial by-products. Industrial Crops Producions 51: 77–86.

29.

Sudha

Vetrimani

Leelavathi

(2007) Influence of fibre from different cereals on the rheological characteristics of wheat flour dough and on biscuit quality. Food Chemistry 100(4): 1365–1370.

30.

Tejada-Ortigoza

Garcia-Amezquita

Serna-Saldívar

, et al. (2016) Advances in the functional characterization and extraction processes of dietary fiber. Food Engineering Reviews 8(3): 251–271.

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Effect of different fibre addition on cookie dough and texture

Abstract

Keywords

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References

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