 |
 |
 |
 |
 |
 |
Sains Malaysiana 52(2)(2023): 487-499
http://doi.org/10.17576/jsm-2023-5202-13
Effects of Water Addition Level on
Physical Properties, Rheological Profile and Sensory Evaluation of Gluten-Free
Bread: A Preliminary Approach
(Kesan Tahap Penambahan Air pada Sifat Fizikal, Profil Reologi dan
Penilaian Sensori Roti Tanpa Gluten: Suatu Pendekatan Awal)
NORASHIKIN
MOHD ZAIN1, MAARUF ABD. GHANI2,* & ZALIFAH MOHD KASIM1
1Department of Food Sciences, Faculty of
Science and Technology, Universiti Kebangsaan Malaysia, 43600 UKM Bangi,
Selangor Darul Ehsan, Malaysia
2Faculty of Fisheries & Food Science,
Universiti Malaysia Terengganu, 21030 Kuala Nerus, Terengganu Darul Iman,
Malaysia
Received: 12 June 2022/Accepted: 11
November 2022
Abstract
The amount of water in gluten-free recipes is very
important to the quality of the end product. The research aimed to develop an
alternative formula for gluten-free bread using different water levels. This
research was conducted to determine the physical properties, rheological
profile and sensory evaluation of natural gluten-free bread produced by adding
different water levels to the recipe without adding hydrocolloid. Five types of
bread with different levels of water at (A) 80%; (B) 90%; (C) 100%; (D) and
control dough: 105% (control 1); (E) 60% (wheat bread-control 2) of the flour basis
were investigated. Control 1 is the standard level of water for making
gluten-free bread, while control 2 is the standard level of water for preparing
wheat bread. Sample A has a lighter crust and crumbs, as well as a white index
value and lower ΔE values comparable to wheat bread, better volume,
increased pore size sharply and shows higher G' and G". G' decreased as
the amount of water in the dough increased. All dough formulations had higher
gelatinisation enthalpy change (ΔH) values than sample A and sample E. The
bakery sector could use the findings to design and reformulate the recipes of
diabetic and/or reduced calorie and gluten-free bread recipes to better fulfill
consumers' expectations.
Keywords:
Gluten-free bread; physical properties; rheology; sensory evaluation; water
levels
Abstrak
Kandungan
air dalam resipi bebas gluten adalah sangat penting untuk kualiti produk akhir.
Penyelidikan bertujuan untuk membangunkan formula alternatif roti bebas gluten
menggunakan tahap air yang berbeza. Penyelidikan ini adalah untuk menentukan
kualiti terutama dari segi sifat fizikal dan profil reologi roti bebas gluten
semula jadi yang dihasilkan dengan penambahan tahap air yang berbeza daripada
komposisi resipi tanpa penambahan hidrokoloid. Lima jenis roti dengan tahap air
yang berbeza pada (A) 80%, (B) 90%, (C) 100%, (D) 105% (kawalan 1) dan (E) 60%
(tepung gandum-kawalan 2) - daripada asas tepung, telah dikaji. Kawalan 1 ialah
paras air piawai untuk menghasilkan roti bebas gluten, manakala kawalan 2 ialah
paras air piawai untuk menyediakan roti gandum. Sampel A mempunyai kerak dan
serbuk roti yang lebih ringan, serta nilai indeks putih dan nilai ΔE yang
lebih rendah setanding dengan roti gandum, isi padu yang lebih baik, saiz liang
meningkat secara mendadak dan menunjukkan G' dan G” yang lebih tinggi. G'
berkurangan apabila jumlah air dalam doh bertambah. Semua formulasi doh
mempunyai nilai perubahan entalpi penggelatinan (ΔH) yang lebih tinggi daripada
sampel A dan sampel E. Sektor bakeri boleh menggunakan penemuan ini untuk
membentuk dan merumuskan semula resipi roti bebas gluten untuk diabetes
dan/atau kalori berkurangan untuk memenuhi jangkaan pengguna dengan lebih baik.
Kata
kunci: Paras air; penilaian sensori;
reologi; roti bebas gluten; sifat fizikal
REFERENCES
Aboukzail, J., Abdullah, A. &
Ghani, M.A. 2017. Effect of reducing the percentage of brown rice flour in
formulation of gluten-free bread on bread properties. International Journal of ChemTech Research 10(7): 748-755.
Aini,
N. & Purwiyatno, H. 2010. Gelatinization properties of white maize starch
from three varieties of corn subject to oxidized acetylated-oxidized
modification. International Food Research
Journal 17: 961-968.
Aminah,
A. 2004. Prinsip Penilaian Sensori.
Bangi: Universiti Kebangsaan Malaysia.
Amir,
I.Z., Hanida, H.S. & Syafiq, A. 2013. Development and physical analysis of
high fiber bread incorporated with cocoa (Theobroma
cacao sp.) pod husk powder. International
Food Research Journal 20(3): 1301-1305.
Autio,
K., Flander, L., Kinnunen, A. & Heinonen, R. 2001. Bread quality
relationship with rheological measurements of wheat flour dough. Cereal Chemistry 78(6): 654-657.
Bárcenas,
M.E., Altamirano-Fortoul, R. & Rosell, C.M. 2010. Effect of high pressure
processing on wheat dough and bread characteristics. LWT - Food Science and Technology 43(1): 12-19.
Brouns,
F.J.P.H., Van Buul, V.J. & Shewry, P.R. 2013. Does wheat make us fat and
sick? Journal of Cereal Science 58(2): 209-215.
Chieh,
C. 2006. Water. In Bakery Products
Science and Technology, edited by Hui, Y.H. Oxford: Blackwell Publishing
Ltd. pp. 211-232.
Dalgetty,
D. & Baik, B. 2006. Fortification of bread with hulls and cotyledon fibers
isolated from peas, lentils and chickpeas. Cereal
Chemistry 83(3): 269-274.
Das,
L., Raychaudhuri, U. & Chakraborty, R. 2012. Effect of baking condition on
the physical properties of herbal bread using RSM. International of Food Agriculture and Veterinary Science 2(2):
106-114.
do
Nascimento, A.B., Fiates, G.M.R. & Teixeiraa, E. 2017. We want to be
normal! Perceptions of a group of brazilian consumers with coeliac disease on
gluten-free bread buns. International
Journal of Gastronomy and Food Science 7: 27-31.
do
Nascimento, A.B., Fiates, G.M.R., Dos Anjos, A. & Teixeira, E. 2014.
Gluten-free is not enough - Perception and suggestions of celiac consumers. International Journal of Food Sciences and
Nutrition 65(4): 394-398.
El-Dash,
A.A., Camargo, C.O. & Diaz, N.M. 2006. Agroindustrial
Technology: Fundamentals of Baking Technology. Department of Industry,
Trade, Science and Technology, São Paulo: The State Government.
El
Khoury, D., Balfour-Ducharme, S. & Joye, I.J. 2018. A review on the
gluten-free diet: Technological and nutritional challenges. Nutrients 10(10): 1-27.
Fatemi,
H. 2010. Food Chemistry. Tehran:
Enteshar Sahami Co.
Fauad,
S.N.a.M., Kaur, S. & Shafie, S.R. 2020. Nutritional composition and cost
differences between glutenfree and gluten-containing food products in Kuala
Lumpur, Malaysia. Malaysian Journal of
Medicine and Health Sciences 16(6): 176-181.
Föste,
M., Verheyen, C., Jekle, M. & Becker, T. 2020. Fibres of milling and fruit
processing by-products in gluten-free bread making: A review of hydration
properties, dough formation and quality-improving strategies. Food Chemistry 306: 125451.
Fratelli,
C., Muniz, D.G., Santos, F.G. & Capriles, V.D. 2018. Modelling the effects
of psyllium and water in gluten-free bread: An approach to improve the bread
quality and glycemic response. Journal of
Functional Foods 42: 339-345.
Gallagher,
E., Kunkel, A., Gormley, T.R. & Arent, E.K. 2003. The effect of dairy and
rice powder addition on loaf and crumb characteristics, and shelf life
(intermediate and longterm) of gluten-free stored in a modified atmosphere. European Food Research and Technology 218: 44-48.
Golley,
S., Corsini, N., Topping, D., Morell, M. & Mohr, P. 2014. Motivations for
avoiding wheat consumption in Australia: Results from a population survey. Public Health Nutrition 18(3): 490-499.
Haque,
A. & Morris, E.R. 1994. Combined use of ispaghula and hpmc to replace or
augment gluten in breadmaking. Food
Research International 27(4): 379-393.
Hoseney,
R.C. 1998. Gelatinization phenomena of starch. In Phase/State Transitions in Foods, edited by Rao, M.A. & Hartel,
R.W. New York: Marcel Dekker. pp. 95-110.
Huerta,
K., Soquetta, M., Alves, J., Stefanello, R., Kubota, E. & Rosa, C.S. 2018.
Effect of flour chia (Salvia hispanica L.) as a partial substitute gum in gluten free breads. International Food Research Journal 25(2): 755-761.
Karp,
S., Wyrwisz, J. & Kurek, M.A. 2020. The impact of different levels of oat
β-glucan and water on gluten-free cake rheology and physicochemical characterisation. Journal of Food Science and Technology 57(10): 3628-3638.
Kerch,
G., Zicans, J. & Meri, R.M. 2010. The effect of chitosan oligosaccharides
on bread staling. Journal of Cereal
Science 52(3): 491-495.
Khemiri,
S., Khelifi, N., Nunes, M.C., Ferreira, A., Gouveia, L., Smaali, I. &
Raymundo, A. 2020. Microalgae biomass as an additional ingredient of
gluten-free bread: Dough rheology, texture quality and nutritional properties. Algal Research 50: 1-13.
Korus,
J., Witczak, M., Ziobro, R. & Juszczak, L. 2017. Hemp (Cannabis sativa subsp. sativa)
flour and protein preparation as natural nutrients and structure forming agents
in starch based gluten-free bread. LWT -
Food Science and Technology 84: 143-150.
Leung,
H.K., Magnuson, J.A. & Bruinsma, B.L. 1979. Pulsed nuclear magnetic
resonance study of water mobility in flour doughs. Journal of Food Science 44(5): 1408-1411.
Leray,
G., Oliete, B., Mezaize, S., Chevallier, S. & Lamballerie, M.D. 2010.
Effects of freezing and frozen storage conditions on the rheological properties
of different formulations of non-yeasted wheat and gluten-free bread dough. Journal of Food Engineering 100(1):
70-76.
Li,
J.Y., Yeh, A.I. & Fan, K.L. 2007. Gelation characteristics and morphology
of corn starch/soy protein concentrate composites during heating. Journal of Food Engineering 78(4):
1240-1247.
Liu,
F., Cao, X., Wang, H. & Liao, X. 2010. Changes of tomato powder qualities
during storage. Powder Technology 204(1): 159-166.
Marco,
C. & Rosell, C.M. 2008. Bread-making performance of protein enriched,
gluten-free breads. European Food
Research and Technology 227: 1205-1213.
Mariotti,
M., Pagani, M.A. & Lucisano, M. 2013. The role of buckwheat and hpmc on the
bread-making properties of some commercial gluten-free bread mixtures. Food Hydrocolloids 30(1): 393-400.
Mccarthy,
D.F., Gallagher, E., Gormley, T.R., Schober, T.J. & Arendt, E.K. 2005. Application
of response surface methodology in the development of gluten-free bread. Cereal Chemistry 82(5): 609-615.
Miah,
M.a.K., Haque, A., Douglass, M.P. & Clarke, B. 2002. Parboiling of rice.
Part ii: Effect of hot soaking time on the degree of starch gelatinization. International Journal of Food Science and
Technology 37: 539-545.
Mondal,
A. & Datta, A.K. 2008. Bread baking - A review. Journal of Food Engineering 86(4): 465-474.
Moreira,
R., Chenlo, F., Torres, M.D. & Prieto, D.M. 2010. Influence of the particle
size on the rheological behaviour of chestnut flour doughs. Journal of Food Engineering 100(2):
270-277.
Naito,
S., Fukami, S., Mizokami, Y., Hirose, R., Kawashima, K., Takano, H., Ishida,
N., Koizumi, M. & Kano, H. 2005. The effect of gelatinised starch on baking
bread. Food Science and Technology
Research 11(2): 194-201.
Phimolsiripol,
Y., Mukprasirt, A. & Schoenlechner, R. 2012. Quality improvement of
rice-based gluten-free bread using different dietary fibre fractions of rice
bran. Journal of Cereal Science 56(2): 389-395.
Reilly,
N.R. 2016. The gluten-free diet: Recognising fact, fiction, and fad. The Journal of Pediatrics 175: 206-210.
Ren,
Y., Linter, B.R., Linforth, R. & Foster, T.J. 2020. A comprehensive
investigation of gluten free bread dough rheology, proving and baking
performance and bread qualities by response surface design and principal
component analysis. Food & Function 11: 5333-5345.
Renzetti,
S. & Arendt, E.K. 2009. Effect of protease treatment on the baking quality
of brown rice bread: From textural and rheological properties to biochemistry
and microstructure. Journal of Cereal
Science 50(1): 22-28.
Rohaya,
M.S., Maskat, M.Y. & Ma’aruf, A.G. 2013. Rheological properties of
different degree of pregelatinised rice flour batter. Sains Malaysiana 42(12): 1707-1714.
Ronda,
F., Pérez-Quirce, S., Angioloni, A. & Collar, C. 2013. Impact of viscous
dietary fibres on the viscoelastic behaviour of gluten-free formulated rice
doughs: A fundamental and empirical rheological approach. Food Hydrocolloids 32(2): 252-262.
Rosell,
C.M., Barro, F., Sousa, C. & Mena, M.C. 2014. Cereals for developing
gluten-free products and analytical tools for gluten detection. Journal of Cereal Science 59(3):
354-364.
Różyło,
R., Dziki, D., Gawlik-Dziki, U., Cacak-Pietrzak, G., Miś, A. & Rudy,
S. 2015. Physical properties of gluten-free bread caused by water addition. International Agrophysics 29: 353-364.
Sahin,
A.W., Wiertz, J. & Arendt, E.K. 2020. Evaluation of a new method to
determine the water addition level in gluten-free bread systems. Journal of Cereal Science 93(1): 1-8.
Salmenkallio-Marttila,
M., Roininen, K., Autio, K. & Lähteenmäki, L. 2004. Effect of gluten and
transglutaminase on microstructure, sensory characteristics and instrumental
texture of oat bread. Journal of
Agricultural and Food Science 13(1-2): 138-150.
Schober,
T.J., Messerschmidt, M., Bean, S.R., Park, S.H. & Arendt, E.K. 2005.
Gluten-free bread from sorghum: Quality differences among hybrids. Cereal Chemistry 82(4): 394-404.
Schoenlechner,
R., Mandala, I., Kiskini, A., Kostaropoulos, A. & Berghofer, E. 2010.
Effect of water, albumen and fat on the quality of gluten‐free bread
containing amaranth. International
Journal of Food Science and Technology 45(4): 661-669.
Sciarini,
L.S., Ribotta, P.D., León, A.E. & Pérez, G.T. 2012. Incorporation of
several additives into gluten free breads: Effect on dough properties and bread
quality. Journal of Food Engineering 111(4): 590-597.
Singh,
J. & Whelan, K. 2011. Limited availability and higher cost of gluten-free
foods. Journal of Human Nutrition and
Dietetics 24(5): 479-486.
Skendi,
A., Mouselemidou, P., Papageorgiou, M. & Papastergiadis, E. 2018. Effect of
acorn meal-water combinations on technological properties and fine structure of
gluten-free bread. Food Chemistry 253: 119-126.
Witczak,
M., Ziobro, R., Juszczak, L. & Korus, J. 2021. Potato flakes (Solanum tuberosum L.) as a factor
modifying the rheological properties of dough and limiting the staling of
gluten-free bread. Food and Bioprocess Technology 14(1): 65-77.
Witczak,
T., Juszczak, L., Ziobro, R. & Korus, J. 2017. Rheology of gluten-free
dough and physical characteristics of bread with potato protein. Journal of Food Process Engineering 40(3):
1-11.
Wu,
K., Sung, W. & Yang, C. 2009. Characteristics of dough and bread as
affected by the incorporation of sweet potato paste in the formulation. Journal of Marine Science and Technology 17(1): 13-22.
*Corresponding
author; email: maaruf@umt.edu.my
|
|||
|
