Physicochemical and Rheological Properties of Non-Fat Ice Cream

Aime, D., Arntfield, S., Malcolmson, L., Ryland, D. (2001). Textural analysis of fat reduced vanilla ice cream products. Food Res. Int., 34 (2–3), 237–246.10.1016/S0963-9969(00)00160-5 Search in Google Scholar

AkalIn, A. S., Karagözlü, C., Ünal, G. (2008). Rheological properties of reduced-fat and low-fat ice cream containing whey protein isolate and inulin. Eur. Food Res. Technol., 227 (3), 889–895.10.1007/s00217-007-0800-z Search in Google Scholar

Akbari, M., Eskandari, M. H., Davoudi, Z. (2019). Application and functions of fat replacers in low-fat ice cream: A review. Trends Food Sci. Technol., 86, 34–40.10.1016/j.tifs.2019.02.036 Search in Google Scholar

Arbuckle, W. S., Marshall, R. T. (2000). Ice Cream. Springer. 483 pp. Search in Google Scholar

Çam, M., Erdogan, F., Aslan, D., Dinç, M. (2013). Enrichment of functional properties of ice cream with pomegranate by-products. J. Food Sci., 78 (10), 1543–1550.10.1111/1750-3841.12258 Search in Google Scholar

Camargo, L. da R., Doneda, D., Oliveira, V. R. (2020). Whey protein ingestion in elderly diet and the association with physical, performance and clinical outcomes. Exper. Gerontol., 137, 110936.10.1016/j.exger.2020.110936 Search in Google Scholar

Chorafas, D. N. (2015). Science and Technology. Springer Cham. 207 pp.10.1007/978-3-319-09189-1 Search in Google Scholar

Clarke, C. (2012). The Science of Ice Creame.2^nd edition. CPJ Group, Croydon, UK. 213 pp. Search in Google Scholar

Da Silva, V. M., Minim, V. P. R., Ferreira, M. A. M., Souza, P. H. de P., Moraes, L. E. da S., Minim, L. A. Ō. (2014). Study of the perception of consumers in relation to different ice cream concepts. Food Qual. Prefer., 36, 161–168.10.1016/j.foodqual.2014.04.008 Search in Google Scholar

Daw, E., Hartel, R. W. (2015). Fat destabilization and melt-down of ice creams with increased protein content. Int. Dairy J., 43, 33–41.10.1016/j.idairyj.2014.12.001 Search in Google Scholar

Mahdian, E., Karazhian, R. (2013). Effects of fat replacers and stabilizers on rheological, physicochemical and sensory properties of reduced-fat ice cream. J. Agricult. Sci. Technol., 15, 1163–1174. Search in Google Scholar

Flores, A. A., Goff, H. D. (1999). Ice crystal size distributions in dynamically frozen model solutions and ice cream as affected by stabilizers. J. Dairy Sci., 82 (7), 1399–1407.10.3168/jds.S0022-0302(99)75366-X Search in Google Scholar

Gabbi, D. K., Bajwa, U., Goraya, R. K. (2018). Physicochemical, melting and sensory properties of ice cream incorporating processed ginger (Zingiber officinale). Int. J. Dairy Technol., 71 (1), 190–197.10.1111/1471-0307.12430 Search in Google Scholar

Goff, H. D. (2002). Formation and stabilisation of structure in ice-cream and related products. Curr. Opin. Colloid Interface Sci., 7 (5–6), 432–437.10.1016/S1359-0294(02)00076-6 Search in Google Scholar

Jacobo-Valenzuela, N., Zazueta-Morales, J. de, Gallegos-Infante, J. A., Aguilar-Gutierrez, F., Camacho-Hernandez, I. L., Rocha-Guzman, N. E., Gonzalez-Laredo, R. F. (2011). Chemical and physicochemical characterization of winter squash (Cucurbita moschata D.). Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 39 (1), 34–40.10.15835/nbha3915848 Search in Google Scholar

Jardines, A. P., Arjona-Román, J. L., Severiano-Pérez, P., Totosaus-Sánchez, A., Fiszman, S., Escalona-Buendía, H. B. (2020). Agave fructans as fat and sugar replacers in ice cream: Sensory, thermal and texture properties. Food Hydrocolloids, 108, 106032.10.1016/j.foodhyd.2020.106032 Search in Google Scholar

Kaleda, A., Tsanev, R., Klesment, T., Vilu, R., Laos, K. (2018). Ice cream structure modification by ice-binding proteins. Food Chem., 246, 164–171.10.1016/j.foodchem.2017.10.15229291835 Search in Google Scholar

Kampuse, S., Tomsone, L., Klava, D., Ozola, L., Galoburda, R. (2019). The influence of processing and storage conditions on quality parameters of pumpkin puree. 13th Baltic Conference on Food Science and Technology “Food. Nutrition. Well-being”, pp. 137–142. DOI: 10.22616/FoodBalt.2019.013.10.22616/FoodBalt.2019.013 Search in Google Scholar

Kurt, A., Atalar, I. (2018). Effects of quince seed on the rheological, structural and sensory characteristics of ice cream. Food Hydrocolloids, 82, 186–195.10.1016/j.foodhyd.2018.04.011 Search in Google Scholar

Liu, R., Wang, L., Liu, Y., Wu, T., Zhang, M. (2018). Fabricating soy protein hydrolysate/xanthan gum as fat replacer in ice cream by combined enzymatic and heat-shearing treatment. Food Hydrocolloids, 81, 39–47.10.1016/j.foodhyd.2018.01.031 Search in Google Scholar

McGhee, C. E., Jones, J. O., Park, Y. W. (2015). Evaluation of textural and sensory characteristics of three types of low-fat goat milk ice cream. Small Rumin.Res., 123 (2–3), 293–300.10.1016/j.smallrumres.2014.12.002 Search in Google Scholar

Park, Y. W., Haenlein, G. F. W. (2013). Milk and Dairy Products in Human Nutrition: Production, Composition and Health. Wiley Blackwell, UK, 738 pp.10.1002/9781118534168 Search in Google Scholar

Pintor-Jardines, A., Arjona-Román, J. L., Totosaus-Sánchez, A., Severiano-Pérez, P., González-González, L. R., Escalona-Buendia, H. B. (2018). The influence of agave fructans on thermal properties of low-fat, and low-fat and sugar ice cream. LWT - Food Science and Technology, 93, 679–685.10.1016/j.lwt.2018.03.060 Search in Google Scholar

Ptitchkina, N. M., Danilova, I. A., Doxastakis, G., Kasapis, S., Morris, E. R. (1994). Pumpkin pectin: Gel formation at unusually low concentration. Carbohydr. Polymers, 23 (4), 265–273.10.1016/0144-8617(94)90189-9 Search in Google Scholar

Rolon, M. L., Bakke, A. J., Coupland, J. N., Hayes, J. E., Roberts, R. F. (2017). Effect of fat content on the physical properties and consumer acceptability of vanilla ice cream. J. Dairy Sci., 100 (7), 5217–5227.10.3168/jds.2016-1237928456409 Search in Google Scholar

Seleim, M. A. A., Ali, H. M., Hassan, M. A. M. (2015). Comparative study on the β-carotene, α-tocopherol and pectin values from three cultivars of pumpkin (Cucurbita maxima). World J. Dairy Food Sci., 10 (2), 132–140. Search in Google Scholar

Varela, P., Pintor, A., Fiszman, S. (2014). How hydrocolloids affect the temporal oral perception of ice cream. Food Hydrocolloids, 36, 220–228.10.1016/j.foodhyd.2013.10.005 Search in Google Scholar

Walstra, P., Walstra, P., Wouters, J. T. M., Geurts, T. J. (2005). Dairy Science and Technology. CRC Press. 808 pp.10.1201/9781420028010 Search in Google Scholar

WHO. (2010). Global Health Indicator Tables and Footnotes Part 2. World Health Statistics. https://www.who.int/whosis/whostat/EN_WHS10_Part2.pdf (accessed 01.02.2021). Search in Google Scholar

Wildmoser, H., Scheiwiller, J., Windhab, E. J. (2004). Impact of disperse microstructure on rheology and quality aspects of ice cream. LWT - Food Science and Technology, 37 (8), 881–891.10.1016/j.lwt.2004.04.006 Search in Google Scholar

Wille, H. J. E., Viera, J. B., De Kruif, G. G., Floris, T. A. G., Slangen, K. J. (2012). Patent: Ice-structuring peptides of lactic acid. EP1917865. Spain. Search in Google Scholar

Yoo, S. H., Lee, B. H., Lee, H., Lee, S., Bae, I. Y., Lee, H. G., Fishman, M. L., Chau, H. K., Savary, B. J., Hotchkiss, A. T. (2012). Structural characteristics of pumpkin pectin extracted by microwave heating. J. Food Sci., 77 (11), C1169-73.10.1111/j.1750-3841.2012.02960.x23106191 Search in Google Scholar