Czech J. Food Sci., 2001, 19(1):24-30 | DOI: 10.17221/6570-CJFS

Changes during the extrusion of semolina in mixture with sugars

A. Farouk Mansour, F. Pudil, V. Janda, J. Pokorný
Institute of Chemical Technology - Department of Food Chemistry and Analysis, Prague, Czech Republic

Wheat semolina and its mixtures with 5% glucose, fructose of sucrose were processed in a sigle screw extruder at the maximum temperature of 140°C and the processing time of 30 s. The nonenzymic browning was only moderate, but it was substantially more intensive in mixtures with glucose or fructose than in the case of wheat semolina or its mixture with sucrose. Red and yellow pigments were mainly formed. The odour acceptability was affected by the presence of sugars almost negligibly, but the intensities were different, higher in extruded mixtures with glucose and fructose than in wheat semolina or its mixture with sucrose. Small differences were observed in the sensory profile. Extrusion of semolina with sugars produced more sensory active volatiles (52-69 identified compounds) than in extruded semolina (41 compounds). Pyrazines, furans and pyrans were the most important sensory active compounds. Their amounts increased by the addition of sugars to semolina; the mixture of semolina with glucose was particularly rich in active compounds. The formation of pyrazines was more enhanced by the addition of fructose than of other sugars. Maltol, butyrolactone and acetic acid were present in large amounts. Even if sensory characteristics were improved by addition of sugars to semolina, the difference was not very pronounced.

Keywords: browning; extrusion; furans; fructose; glucose; pyrazines; semolina; sensory value; sucrose; wheat

Published: February 28, 2001  Show citation

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Farouk Mansour A, Pudil F, Janda V, Pokorný J. Changes during the extrusion of semolina in mixture with sugars. Czech J. Food Sci. 2001;19(1):24-30. doi: 10.17221/6570-CJFS.
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    References

    1. ANDREJS B., HÜNER H., KLEINHANS S. (1995). Mehlinhaltstoffe quantitativ Bestimmen. Int. Z. Lebensm.-Technik, 46: 30–34.
    2. BALTES W., BOCHMANN G. (1987a): Model reactions in roast aroma formation. II. Mass spectrometric identification of furans and furanones from the reaction of serine and threonine with sucrose under the conditions of coffee roaasting. Z. Lebensm.-Unters. Forsch., 184: 179–186. Go to original source...
    3. BALTES W., BOCHMANN G. (1987b): Model reactions in roast aroma formation. IV. Mass spectrometric identification of pyrazines from the reaction of serine and threonine with sucrose under the conditions of coffee roasting. Z. Lebensm.Unters. Forsch., 184: 485–493. Go to original source...
    4. BOELENS H., HEYDEL J. (1973): Chemische Konstitution und Geruch. Eine Studie über strukturelle Eigenschaften chemischer Verbindungen mit verschiedenen Geruchscharakteristiken. Chemiker Z., 97: 8–15. Go to original source...
    5. BUTTERY R.G., LING L.C. (1995): Volatile flavor components of corn tortillas and related products. J. Agr. Food Chem., 43: 1878–1882. Go to original source...
    6. CHEN J., SERAFIN F.L., PANDYA R.N., DAUN H. (1991): Effects of extrusion conditions on sensory properties of corn meal extrudates. J. Food Sci., 56: 84–89. Go to original source...
    7. FELDBERG C. (1969): Starches come of age. Snack Food, 58: 66-68.
    8. FORS S.M. (1987): Isolation of pyrazines in extruded malt by stepwise extraction and distillation. Lebensm.-Wiss. Technol., 20: 42–47.
    9. FORS S.M., ERIKSSON C.E. (1986): Pyrazines in extruded malt. J. Sci. Food Agric., 37: 991–1000. Go to original source...
    10. HUBER G.R. (1991): Carbohydrates in extrusion processing. Food Technol., 45: 160-161.
    11. HWANG H.I., HARTMANN T.G., HO C.-T. (1995): Relative activities of amino acids in pyrazine formation. J. Agr. Food Chem., 43: 179–184. Go to original source...
    12. JOTOVALLOTOVAL N.K., SEIBEL W. (1992): Studien über die Herstellung von Teigwaren auf Reis- und Maisbasis. Getreide, Mehl Brot, 46: 149–154.
    13. KARAHADIAN C., JOHNSON K.A. (1993): Analysis of headspace volatiles and sensory characteristics of fresh corn tortillas made from fresh masa dough and spray-dried masa flour. J. Agr. Food Chem., 41: 791–799. Go to original source...
    14. LORENZ K., WELSCH J., NORMANN R., BEETNER G., FREY A. (1974): Extrusion processing of triticale. J. Food Sci., 39: 572–576. Go to original source...
    15. LUNDGREN B., KARLSTRÖM B., TORRANG-LINDBOM G., ANDERSSON Y., CLAPPERTON J. (1991/2): Extruded wheat flour: flavour and texture – comparison of evaluations by two laboratories. Food Qual. Pref., 3: 1–12. Go to original source...
    16. MAGA J.A., SIZER C.E. (1979): Pyrazine formation during the extrusion of potato flakes. Lebensm.-Wiss. Technol., 12: 15–16.
    17. MIDDEN T.M. (1989): Twin screw extrusion of corn flakes. Cereal Foods World, 34: 941–943.
    18. MILIAE B.I.J., PILETIAE M.V., GRUJIAE-INJAC B., GEMBIAE S.M. (1980): Kinetic behavior of free radical formation in the nonenzymatic browning reaction. J. Food Process. Preserv., 4: 13–26. Go to original source...
    19. NEUMANN P.E., CHAMBERS IV E. (1993): Effects of honey type and level on the sensory and physical properties of an extruded honey-graham formula breakfast cereal. Cereal Foods World, 38: 418–425.
    20. OSNABRUGGE W. VAN (1989): How to flavor baked goods and snacks effectively. Food Technol., 43: 74–82.
    21. PFANNHAUSER W. (1993): Volatiles formed during extrusion cooking of cereals. Flavour Fragrance J., 8: 109–113. Go to original source...
    22. PILKOVÁ L., POKORNÝ J., DAVÍDEK J. (1990): Browning reactions of Heyns rearrangement products. Nahrung, 34: 759–764. Go to original source...
    23. POKORNÝ J., PILKOVÁ L., DAVÍDEK J., VALENTOVÁ H. (1988): Effect of Amadori rearrangement products on the non-enzymic browning in model systems. Nahrung, 32. 767–776. Go to original source...
    24. RIHA III W.E., HO C.-T. (1996): Formation of flavors during extrusion cooking. Food Rev. Int., 12: 351–373. Go to original source...
    25. ROTHE M. (1974): Aroma von Brot. Akad. Verlag, Berlin.
    26. SCHIEBERLE P., GROSCH W. (1984): Identifizierung von Aromastoffen aus der Krume von Roggenbrot – Vergleich mit den Aromen der Kruste. Z. Lebensm.-Unters. Forsch., 178: 479–483.
    27. SCHIEBERLE P., GROSCH W. (1987): Evaluation of the flavour of wheat and rye bread crust by aroma extract dilution analysis. Z. Lebensm.-Unters. Forsch., 185: 111–113. Go to original source...
    28. SIZER C.E., MAGA J.A., LORENZ K. (1975): The occurrence of pyrazines in white bread crust and crumb. Lebensm.-Wiss. Technol., 8: 267–269.
    29. STREJÈEK F., POKORNÝ J., VIERECKLOVÁ M., POKORNÝ D., HOLAS J. (1993): Relationships among sensory attributes of flat crisp bread. Potrav. Vìdy, 11: 81–98.
    30. VISESSURAKARN S., DUANGMAL K., ITTHIWACHANA S. (1991): Use of broken rice for breakfast cereals. Food, 21: 24–36; Abstract FSTA (12), M 070 (1991).
    31. YAYLAYAN V.A, FICHTALI J., VAN DE VOORT F.R. (1992): Production of Maillard reaction flavour precursors by extrusion proceessing. Food Res. Int., 25: 175–180. Go to original source...
    32. YOO S.S., HO C.-T. (1997): Pyrazine generation from the Maillard reaction of mixed amino acids in model systems. Perfumer Flavorist, 22: 49-52.
    33. ZHANG J. (1994): Chemistry and protein deamidation: reaction kinetics, parameter effects and impact on flavor generation. Dissert. Abstr. Int. B, 54: 5457–5458.

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