Czech J. Food Sci., 2019, 37(6):391-402 | DOI: 10.17221/214/2018-CJFS

Processing technology of tea bakery foods - a ReviewReview

Hongchun Cui1, Jianyong Zhang2, Jizhong Yu1, Heyuan Jiang*,2, Cun Ao1, Haitao Huang1
1 Tea Research Institute Hangzhou, Academy of Agricultural Sciences, Hangzhou, P.R. China
2 Tea Research Institute, Chinese Academy of Agricultural Sciences, Key Laboratory of Tea Biology and Resources Utilization, Ministry of Agriculture, Hangzhou, P.R. China

Tea foods, especially tea bakery foods, play an important role in bridging the gap between supply and demand of tea industry. This paper reviews the processing technology of tea bakery foods which include tea breads, tea cakes, and tea biscuits during the past thirty years. It also points to the fact that there are no uniform quality evaluation methods for tea bakery foods. Effect of the chemical composition of tea on the quality of bakery food is discussed. According to differences in texture, chemical composition, and biological activity of functional components, different ingredients and their ratios should be adjusted to obtain high-quality tea bakery foods. To effectively preserve the special tea flavour, biological activities of tea components should be retained as much as possible. Tea baked foods were mainly evaluated through senses. There were many differences in the sensory evaluation indices, evaluation criteria, and the scores by different experts. Further, this paper provides a critical outlook of the developments needed in processing technology and quality improvement of tea bakery foods.

Keywords: tea; bakery food; processing technology; quality; sensory evaluation

Published: December 31, 2019  Show citation

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Cui H, Zhang J, Yu J, Jiang H, Ao C, Huang H. Processing technology of tea bakery foods - a Review. Czech J. Food Sci. 2019;37(6):391-402. doi: 10.17221/214/2018-CJFS.
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    References

    1. Akhtar S., Anjum F.M., Anjum M.A. (2011): Micronutrient fortification of wheat flour: Recent development and strategies. Food Research International, 44: 652-659. Go to original source...
    2. Asquiht T., Butler L. (1986): Interactions of condensed tannins with selected proteins. Phytochemistry, 25: 1591-1593. Go to original source...
    3. Awa F.M.B., Ma S.J., Li X.D., Liu L. (2018): Application of microencapsulation for the safe delivery of green tea polyphenols in food systems: Review and recent advances. Food Research International, 105: 241-249. Go to original source... Go to PubMed...
    4. Baixauli R., Salvador A, Fiszman S.M. (2008): Textural and colour changes during storage and sensory shelf life of muffins containing resistant starch. European Food Research and Technology, 226: 523-530. Go to original source...
    5. Bao L.L., Li S.(2014): Process technology of tea cookie.Food Safety Guide, 9: 73-74.
    6. Cao S., Hu F., Xu Z.Q., Fang D., Lu N. (2012): Study on the processing technology and antioxidant of green tea cake. Science and Technology of Food Industry, 11: 286-288.
    7. Cheng H.P., Wan Y.Q., Li C.H., Dong J. (2011): Study on the processing technology of matcha crisp cookies. Food Industry and Science technology, 12: 374-376.
    8. Chen M.C. (1999): Study on process of the tea flavor bread. Food Research and Development, 20: 43-44.
    9. Decamps K., Joye I.J., Rakotozafy L., Nicolas J., Coutin C.M., Delcour J.A. (2013): The bread dough stability improving effect of pyranose oxidase from trametes multicolor and glucose oxidase from aspergillus niger: unraveling the molecular mechanism. Journal of Agricultural and Food Chemistry, 61: 7848-7854. Go to original source... Go to PubMed...
    10. Dewettinck K., Bockstaele V.F., Kühne B., Walle D.V.D, Courtens T.M., Gellynck X. (2008): Nutritional value of bread: Influence of processing, food interaction and consumer perception. Journal of Cereal Science, 48: 243-257. Go to original source...
    11. Di M.R., Cavella S., Masi P. (2008): Predicting sensory cohesiveness, hardness and springiness of solid foods from instrumental measurements. Journal of Texture Studies, 39: 129-149. Go to original source...
    12. Dilek K., Zeynep H., Alev B., Sinan K. (2007): Bubble and pore formation of the high-ratio cake formulation with polydextrose as a sugar- and fat-replacer. Journal of Food Engineering, 78: 953-964. Go to original source...
    13. Domenek S., Morel M.H., Redl A., Guibert S. (2003): Rheological investigation of swollen gluten polymer networks: Effects of process parameters on cross-link density. Macromolecular Stmposia, 200: 137-145. Go to original source...
    14. Duan Y.L., Liang Y., Li B., Zhang X., Li L. (2016): Effect of tea extracts on bread quality and antioxidant capacity. Food Science and Technology, 41: 137-142.
    15. Els D., Filip V.B., Ingrid D.L., Frank D, Mia E. (2018): Validation of in-vitro antifungal activity of thyme essential oil on Aspergillus niger and Penicillium paneum through application in par-baked wheat and sourdough bread. LWT-Food Science and Technology, 87: 368-378. Go to original source...
    16. FU Z.J., Michelle J.Y.Y., Zhou W.B., Zhang L, Chen Y.T., Lu J. (2016): Effect of (-)-epigallocatechin gallate (EGCG) extracted from green tea in reducing the formation of acrylamide during the bread baking process. Food Chemistry, 242: 162-168. Go to original source... Go to PubMed...
    17. Gawlik-Dziki U., Swieca M., Dziki D., Baraniak B., TomiloJ., Czyz J. (2014): Quality and antioxidant properties of breads enriched with dry onion (Allium cepa L.) skin. Food Chemistry, 156: 72. Go to original source...
    18. Gu Z.Z. (2003): Study on the process of tea ultra-fine powder bread. Food Science and Technology: 58-60.
    19. Haslma E. (1989): Plat PolyPhenols vegetable tannins revisited. Cambridge University Press, 10: 170-172.
    20. Hathorn C.S., Biswas M.A., Gichuhi P.N., Bovell-Benjamin A.C. (2008): Comparison of chemical, physical, microstructural, and microbial properties of breads supplemented with sweetpotato flour and high-gluten dough enhancers. LWT-Food Science and Technology, 41: 803-815. Go to original source...
    21. Huang H.H., Gao K.R. (1996): Effects of tea polyphenols on the isolation and characteristics of bromeliad. Food Science, 17: 6-11. https://doi.org/10.17221/214/2018-CJFS Go to original source...
    22. Huang X.J., Lai H.X., Chen S.P., Chen X.J. (2011): Processing technology of characteristic phoenix tea health cake. Ningxia Agriculture and Forestry Science Technology, 52: 69-70.
    23. Huang Y.Y., Zhang H.H., Zhang S.K., Li D.W., Zhu Y.J., Wang X.G., Jin Q.Z. (2012): Color difference value combined with sensory evaluation to optimize tea biscuit recipe. China Tea Processing, 2: 41-48.
    24. Jia G.F., Fan L.X., Wang J.S. (2004): Structure, function and application of wheat gluten protein. Food processing, 2: 11-13.
    25. Jin S.Z. (1999): Processing technology of tea powder cake. Guizhou Tea, 1: 39-41.
    26. José M.L., Paulo E.S.M. (2016): Phenolic compounds of green tea: Health benefits and technological application in food. Asian Pacific Journal of Tropical Biomedicine, 6: 709-719. Go to original source...
    27. Kihlberg I., Johansson L, Kohler A, Risvik E. (2004): Sensory qualities of whole wheat pan bread-influence of farming system, milling and baking technique. Journal of Cereal Science, 39: 67-84. Go to original source...
    28. Kuang W., Zhao R.Y., Wang J.S. (2002): Study on the relationship between wheat protein and bakery quality. Journal of Zhengzhou Institute of Technology, 23: 95-98.
    29. Kulthe A.A., Thorat S.S., Lande S.B. (2017): Evaluation of physical and textural Properties of cookies prepared from pearl millet flour. International Journal of Current Microbiology and Applied Sciences 6: 692-701. Go to original source...
    30. Laura G.G., Marai H.R., Paula T., Mathieu T., Nicolas F., Jorge F.V.R, Susana F., Amparo L.R. (2017): Impact of microencapsulation within electrosprayed proteins on the formulation of green tea extract-enriched biscuits. LWT-Food Science and Technology, 81: 77-86. Go to original source...
    31. Lavelli V., Vantaggi C., Corey M., & Kerr W. (2010). Formulation of a dry green tea-apple product: study on antioxidant and color stability. Journal of Food Science, 75, C184-C190. Go to original source... Go to PubMed...
    32. Lee D.S., Kim Y., Song Y., Lee J.H., Lee S., Yoo S.H. (2016): Development of a gluten-free rice noodle by utilizing protein-polyphenol interaction between soy protein isolate and extract of Acanthopanax sessiliflorus. Journal of the Science of Food and Agriculture, 96: 1037-1043. Go to original source... Go to PubMed...
    33. Li B., Liu M.L. (2014): Study on the process technology and formulation optimization of tea cookie. Processing of Agricultural Products, 12: 36-37.
    34. Li H., Li C.F., Ren J., Jiang H.Y., Zhou P., Wei X.L. (2014): Effect of shading time on matcha and matcha cake quality. Journal of Shanghai Normal University (Natural Sciences), 43: 573-577.
    35. Li J.J. (2015): Study on the processing technology of matcha cake. Food Enigineer, 4: 18-21.
    36. Li X.W., Zhang J., Li X.Y., Xu H., Lu N. (2015): Establishment of shelf-life prediction model for tea soda crackers. Journal of Food Science and Technology, 33: 74-78.
    37. Liming C., Choi I., Lee C.K., Park K.K., Baik B.K. (2014): Bran Characteristics and bread-baking quality of whole grain wheat flour. Cereal Chemistry, 91: 398-405. Go to original source...
    38. Liu M.M. (2016): Study on Black Tea Bakery and Green Tea Cake Combination Products. [Ph.D. Thesis.] Hefei, Anhui Agricultural University. (in Chinese)
    39. Loosveld A., Delcour J.A. (2000): The significance of arabinogalactan-peptide for wheat flour bread-making. Journal of Cereal Science, 32: 147-157. Go to original source...
    40. Ma L., Li H.T., Liu Y.Y. (2016): Study on the technology of high fiber and low sugar pumpkin matcha cake. Food Research and Development, 37: 59-62.
    41. Manisha G., Soumya C., Indran D. (2012): Indrani. Studies on interaction between stevioside, liquid sorbitol, hydrocolloids and emulsifiers for replacement of sugar in cakes. Food Hydrocolloids, 29: 363-373. Go to original source...
    42. M a r c i a D. S. P. (2 0 1 3) : Te a : A n e w p e r s p e c t i v e on health benefits. Food Research International, 53: 558-567.
    43. Milani R.F., Morgano M.A., Cadore S. (2016): Trace elements in camellia sinensis marketed in southeastern Brazil: extraction from tea leaves to beverages and dietary exposure. LWT-Food Science and Technology, 68: 491-498. Go to original source...
    44. Mitsumoto M., O'Grady M. N., Kerry J. P., Buckley D.J. (2005): Addition of tea catechins and vitamin C on sensory evaluation, colour and lipid stability during chilled storage in cooked or raw beef and chicken patties. Meat Science, 69, 773-779. Go to original source... Go to PubMed...
    45. Ning J.M., Gary G.H., Sun J.J., Wan X.C. Amaud D. (2017): Effect of green tea powder on the quality attributes and antioxidant activity of whole-wheat flour pan bread. LWT-Food Science and Technology, 79: 342-348. Go to original source...
    46. Orth R.A., Bushuk W. (1972): A comparative study of the proteins of diverse baking qualities.Cereal Chemistry, 49: 268-275.
    47. O'Sullivan C.M., Lynch A., Lynch P.B., Buckley D.J., Kerry J.P. (2004). Use of antioxidants in chicken nuggets manufactured with and without the use of salt and/or sodium tripolyphosphate: effects on product quality and shelf-life stability. International Journal of Poultry Science, 3: 345-353. Go to original source...
    48. Pan Y. (2013): Study on process technology and quality of green tea tough biscuits. Hefei, Anhui Agricultural University: 7-16.
    49. Pan Y., Yang Z.Z., Wang Y.Z., Huang H., Lu N. (2013): Process technology of tea tough biscuits. Packaging and Food Machinery, 31: 14-17.
    50. Pico J., Bernal J., Gómez M. (2015): Wheat bread aroma compounds in crumb and crust: A review. Food Research International, 75: 200-215. Go to original source... Go to PubMed...
    51. Rasiah I.A., Sutton K.H., Low F.L., Lin H.M., Gerrard J.A. (2005): Crosslinking of wheat dough proteins by glucose oxidase and the resulting effects on bread and croissants. Food Chemistry, 89: 325-332. Go to original source...
    52. Ren J. (2014): Research of high Selenium matcha food. Shanghai, Shanghai Normal University: 51-54.
    53. Ren T.Y., An Y.H. (2009): Study on process of the organic tea bread with high content of zinc and selenium. Food Science and Technology, 6: 6-8. Go to original source...
    54. Ribotta P.D., Perez G.T., León A.E., Anon M.C. (2004): Effect of emulsifier and guar gum on micro structural, rheological and baking performance of frozen bread dough. Food Hydrocolloids, 18: 305-313. Go to original source...
    55. Schirmer M., Jekle M., Arendt E., Becker T. (2012): Physicochemical interactions of polydextrose for sucrose replacement in pound cake. Food Research International, 48: 291-298. Go to original source...
    56. Seyhun N., Sumnu G., Sahin S. (2003): Effects of different emulsifier types, fat contents, and gum types on retardation of stalling of microwave-baked cakes. NahrungFood, 47: 48-251. Go to original source... Go to PubMed...
    57. Shao Y, Wang B.G., Zheng Y.Y., Lian M.M., Hou H.D., Zhu G.Y. (2017): Research of Xinyang green tea staple bread. Preservation and Processing, 17: 60-64.
    58. Si H.Q., Song W.J., Li C.W. (2011): Changes and detection methods of theabrownin Content in bread. Food Science and Technology, 36: 150-152.
    59. Song L., Tong L.Y., Li Y.L. (2005): Formula research of ultra-fine tea powder chiffon cake. Cereals, Oils and Foodstuffs, 2: 68-69.
    60. Steele V.E., Bagheri D., Balentine D.A., Boone C.W., Mehta R., Morse M.A, Sharma S., Sigman C.C., Stoner G.D., Wargovich M.J., Weisburger J.H., Zhu S., Kelloff G.J. (1999): Preclinical efficacy studies of green and black tea extracts. Proceedings of the Society for Experimental Biology and Medicine, 220: 210-212. Go to original source... Go to PubMed...
    61. Su L., Duan Y., Yin L.Q. (2014): Study on the processing technology of matcha cake. Journal of Inner Mongolia Agricultural University (Natural Science Edition), 35: 87-91.
    62. Sui X.F., Zhao P., Wang Y.Z., Chen F.Z., Qin L.K. (2012): Study on the nutritional function components analysis and application of ultra-fine tea powder. Food Research and Development, 33: 173-177.
    63. Swieca M., Gawlik-Dziki U., Dziki D., Baraniak B., Czyz J. (2013): The influence of protein-flavonoid interactions on protein digestibility in vitro and the antioxidant quality of breads enriched with onion skin. Food Chemistry, 141: 451-458. Go to original source... Go to PubMed...
    64. Tan S. (2006): Effect of tea polyphenols on foaming properties of protein and application in cake. Changsha: Hunan Agricultural University: 20-25.
    65. Tan S., Wu X.L., Wu X., Liu Y., Wu W.G. (2008): Application of tea polyphenol in the chiffon cake. Food Industry and Science Technology, 29: 67-69.
    66. Tang S.Z., Kerry J.P., Sheehan D., Buckley D.J. (2001): Antioxidative mechanisms of tea catechins in chicken meat systems. Food Chemistry, 76, 45-51. Go to original source...
    67. Tian J., Cao Y. (2012): Current and situation trend of China bakery industry. Agricultural Science, 7: 51-52.
    68. Tsatsaragkou Κ., Protonotariou S., Mandala I. (2016): Structural role of fibre addition to increase knowledge of non-gluten bread. Journal of Cereal Science, 67: 58-67. Go to original source...
    69. Wahlund K.G., Gustavsson M., Macritchie F., Nylander T., Wannerberger L. (1996): Size characterisation of wheat proteins, particularly glutenin, by asymmetrical flow field-flow fractionation. Journal of Cereal Science, 23: 113-119. Go to original source...
    70. Wang G.X., Sun D.H., Mei Z.F. (2008): Study on preparation of sponge cake using whole egg powder. Science and Technology of Food Industry, 6: 245-247.
    71. Wang L.H. (2015): Study on the processing technology and quality of ultra-fine green tea powder. [Ph.D. Thesis.] Yaan, Sichuan Agricultural University. (in Chinese)
    72. Wang N.X. (2017): Process and problem analysis of green tea tough biscuits. Modern Food: 118-119.
    73. Wang R., Zhou W. (2004): Stability of tea catechins in the breadmaking process. Journal of Agricultural and Food Chemistry, 52, 8224-8229. Go to original source... Go to PubMed...
    74. Wang R., Zhou W.B., Jiang X.H. (2008): Mathematical modeling of the stability of green tea catechin epigallocatechin gallate (EGCG) during bread baking. Journal of Food Engineering, 87: 505-513. Go to original source...
    75. Wang R.D. (2004): Study on microwave assisted baking technology of green tea pumpkin cake. Food Processing, 3: 49-51.
    76. Wang Y.Z. (2013): Study on the application of corn and green tea in the processing of cookies. Hefei: Anhui Agricultural University: 25-35.
    77. Wang Z.J., Li Y., Jiang L.Z., Wang J. (2011): Determine amount and variety of tea powder in tea cake by golden section method. Food Industry and Science Technology, 32: 231-233.
    78. Wan Y.Q., Wu Y.H. (2011): Processing of matcha cake. Journal of Anhui Agricultural Science, 17: 169-170.
    79. Weiguo W., Mike C., Howell N. (2007): The effect of instant green tea on the foaming and rhelogical specialities of egg albumen proteins. Journal of the Science of Food & Agriculture, 87: 1810-1819. Go to original source...
    80. Wen H.T. (2005): Study on the processing technology and mechanism of tea bread. [Ph.D. Thesis.] Changsha, Hunan Agricultural University. (in Chinese) https://doi.org/10.17221/214/2018-CJFS Go to original source...
    81. Wen X.J., Zhang W., Wang Y., Chen K.P. (2013): Process of tea cookie. Tropical Agricultural Sciences, 33: 55-59.
    82. Xie C.M., Wen L.X., Ren E.F., Li X.R., Wang L.L., Zhang F., Ai J.W. (2016): Study on Liubao tea health bread. Food Science and Technology, 41: 114-120.
    83. Xie C.M., Wen L.X., Wang L.L, Ren E.F., Luo X.J., Ai J.W., Ye X.Y. (2015): Formular research of black tea salty favor biscuits. Public Technology, 17: 85-87.
    84. Xing R.X. (2007): Discussion on bread manufactures technology. Food engineering, 1: 49-50.
    85. Xu H.L. (2015): Effect of tea polyphenols on processing properties of brown rice, polished rice and starch. Changsha: Central South University of Forestry and Technology: 58-61.
    86. Xu H.L., Wu Y., Li A.P., Zhang Y.Q. (2015): Development of tea polyphenol brown rice sponge cake. Food and Grease, 28: 54-58.
    87. Xu J.Y., Wang M., Zhao J.P.,Wang Y.H., Ikhlas A.K. (2018): Yellow tea (Camellia sinensis L.), a promising Chinese tea: Processing, chemical constituents and health benefits. Food Research International, 107: 567-577. Go to original source... Go to PubMed...
    88. Yang L.R., Chang H., Li C.X., He Y.J. (2010): The research on chiffon cake. Journal of Shanxi Agricultural University. (Natural Science) (Ed.), 30: 556-559.
    89. Yang X.P., Zhou L.T., Cui J.G., Lin Y.H. (2006): Processing technology of ultra-fine green tea powder. Food Industry, 6: 16-18.
    90. Yang Y.Q., Zeng Z.Y. (2003): Study on the process of tea flavor bread. Food and Oil Science and Technology, 6: 14-15.
    91. Yao Y.F., Zhong Y.F. (2011): Study on the process method of pulp biscuits. Food Industry: 6:29
    92. Zhang H., Ruili Q., Yoshinori M. (2019): The impact of oolong and black tea polyphenols on human health. Food Bioscience, 29: 55-61. Go to original source...
    93. Zhang X.F., Wang Y., Yang S.L., Ding Z.T. (2009): Study on development of cookie made with green tea. Science and Technology of Food Industry, 30: 278-282.
    94. Zheng L.N., Liu L. (2013): Formular research of matcha wholemeal cookie. Modern Food Science and Technology, 29: 1362-1364.
    95. Zhou Y.B., Wang D.F., Wan X.C., Zhang L., Du X.F., Hu W.S. (2009): Effect of tea polysaccharide addition on the properties of bread made from two f1ours. Journal of Food Processing and Preservation, 33: 798-813. Go to original source...
    96. Zhou Y.B, Wang D.F., Zhang L., Du X.F., Zhou X.L. (2008): Effect of polysaccharides on gelatinization and retro gradation of wheat starch. Food Hydrocolloids, 22: 505-512. Go to original source...
    97. Zhu F., Ratchaneekorn S., Wang S.N. (2016): Effect of black tea on antioxidant, textural, and sensory properties of Chinese steamed bread. Food Chemistry, 194: 1217-1223. Go to original source... Go to PubMed...
    98. Zou L. (2016). Effect of grape pomace on the senzory quality and antioxidant capacity of steamed bread. Cereals & Oils, 7: 19-23.

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