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Substitution of wheat flour with whole-grain spelt flour in cakes and its influence on consumer acceptance

Published online by Cambridge University Press:  15 April 2015

C. Kong
Affiliation:
School of Agriculture, Food and Rural Development, Newcastle University (Singapore Campus)
C. Soh
Affiliation:
Nanyang Polytechnic, School of Chemical and Life Sciences
G. M. O'Brien
Affiliation:
School of Agriculture, Food and Rural Development, Newcastle University (Singapore Campus)
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Abstract

Type
Abstract
Copyright
Copyright © The Authors 2015 

In typical bakery products, wheat flour is the principal ingredient(Reference Abdel-Aal and Rabalski1), and wheat gluten has been associated with negative health consequences in individuals with gluten-related disorders(Reference Catassi, Bai and Bonaz2). Wholegrain spelt flour (WSF) appears to offer a suitable alternative to wheat for some gluten-sensitive individuals. In order to be accepted by consumers, any ‘healthy alternative’ version of a food product must be of comparable sensory quality to the standard product(Reference Fogliano and Vitaglione3). To date, new product-development (NPD) efforts involving WSF have mainly been focused on breads, with little NPD work in the area of other baked goods such as cakes(Reference Abdel-Aal and Rabalski1). The aim of this study was to develop WSF versions of sponge cake and butter cake – both popular in Singapore -, with similar baking quality and product acceptability to those of the standard wheat-based versions. In a series of controlled bakery trials, baking performance (specific volume: cm3/g) of WSF- and standard wheat-based versions was compared (seed-displacement method). During a five-day post-baking period, crumb firmness (g) and springiness (%) were compared (TX – XT Plusä Texture Analyzer). All assays were performed in triplicate. Analysis of the resulting data indicated an absence of significant difference (p > 0·05) between WGS- and standard wheat-based sponge cakes and butter cakes, in terms of specific volume, firmness and springiness (Mann-Whitney/Kruskal-Wallis tests used).

In consumer testing, the perceptions of 50 mainly Singaporean consumers (aged 19–37 years) regarding the wheat- and WGS-based sponge cake and butter cake products were assessed using a 9-point hedonic scale(Reference Resurrección, Brody and Lord4). At the 5% significance level, the wheat-based butter cake scored significantly better than the WGS-based butter cake in terms of overall appearance, overall aroma and texture-softness, while the wheat-based sponge cake outscored the WGS version in terms of overall appearance and overall aroma. With the remaining attributes (‘flavour’ and ‘overall acceptance’, and additionally ‘texture-softness’ in the case of the sponge cake), no significant differences (p > 0·05) were noted between the wheat-based and WGS-based cakes (Mann-Whitney U test used).

The results of the study demonstrate the potential of WGS as a potential substitute for wheat flour in some cake-type products. Although no significant differences were found in terms of specific volume, firmness and springiness between the WGS- and the standard wheat-based cakes, nonetheless the consumer-derived data indicate something of a “preference gap” in favour of the standard wheat-based products. If WGS-based cake products are to be fully successful, it appears that NPD efforts will be required to focus on improving sensory quality.

References

1.Abdel-Aal, ESM. & Rabalski, I (2008) Food Chem 111, 150156.Google Scholar
2.Catassi, C, Bai, JC, Bonaz, B et al. (2013) Nutrients 5, 38393853.Google Scholar
3.Fogliano, V & Vitaglione, P (2005) Mol Nutr Food Res 49, 256262.Google Scholar
4.Resurrección, AVA (2008) Consumer sensory testing for product development. In: Brody, A.L. and Lord, J.B (eds.) Developing New Food Products for a Changing Marketplace (2nd ed) CRC Press, Boca Raton, USA.Google Scholar