Functional Foods. Группа авторов. Читать онлайн. Newlib. NEWLIB.NET

Автор: Группа авторов
Издательство: John Wiley & Sons Limited
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Жанр произведения: Техническая литература
Год издания: 0
isbn: 9781119776321
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pathway. Immunol. Lett., 123, 144–148, 2009.

      151. Shahidi, F. & Zhong, Y., Lipid oxidation and improving the oxidative stability. Chem. Soc. Rev., 39, 4067–4079, 2010.

      152. Bartłomiej, S., Justyna, R. K. & Ewa, N., Bioactive compounds in cereal grains – occurrence, structure, technological significance and nutritional benefits – a review. Food Sci. Technol. Int., 18, 559–568, 2012.

      153. Oomah, B. D., Flaxseed as a functional food source. J. Sci. Food Agric., 81, 889–894, 2001.

      154. Berlung, D. R., Flax: New Uses and Demands, in Trends in New Crops and New Uses, J. Janick & A. Whipkey (Eds.), pp. 358–360, ASHS Press, Alexandria, VA, 2002.

      155. Coşkuner, Y. & Karababa, E., Some physical properties of flaxseed (Linum usitatissimum L.). J. Food Eng., 78, 1067–1073, 2007.

      156. Wang, B., Li, D., Wang, L. J., Huang, Z. G., Zhang, L., Xiao, D. C. & Mao, Z. H., Effect of moisture content on the physical properties of fibered flaxseed. Int. J. Food Eng., 3, 1–11, 2007.

      157. Zhang, Z. S., Wang, L. J., Li, D., Jiao, S. S., Chen, X. D. & Mao, Z. H., Ultrasound-assisted extraction of oil from flaxseed. Sep. Purif. Technol., 62, 192–198, 2008.

      158. Kajla, P., Sharma, A. & Sood, D. R., Flaxseed—a potential functional food source. J. Food Sci. Technol., 52, 1857–1871, 2015.

      159. Oomah, B. D. & Mazza, G., Compositional changes during commercial processing of flaxseed. Ind. Crops Prod., 9, 29–37, 1998.

      160. Singh, K. K., Mridula, D., Rehal, J. & Barnwal, P., Flaxseed: A potential source of food, feed and fiber. Crit. Rev. Food Sci. Nutr., 51, 210–222, 2011.

      161. Singh, K. K., Jhamb, S. A. & Kumar, R., Effect of pretreatments on performance of screw pressing for flaxseed. J. Food Process Eng., 35, 543–556, 2012.

      162. Thompson, L. U. & Cunnane, S. C., Flaxseed in human nutrition, 2nd edition, p. 458, AOCS Press, Toronto, Canada, 2003.

      163. Bloedon, L. T. & Szapary, P. O., Flaxseed and cardiovascular risk. Nutr. Rev., 62, 18–27, 2004.

      164. Green, A. G. & Marshall, D. R., Isolation of induced mutants in linseed (Linum usitatissimum) having reduced linolenic acid content. Euphytica, 33, 321–328, 1984.

      165. Zhang, Z. S., Li, D., Wang, L. J., Ozkan, N., Chen, X. D., Mao, Z. H. & Yang, H. Z., Optimization of ethanol-water extraction of lignans from flaxseed. Sep. Purif. Technol., 57, 17–24, 2007.

      167. Green, A. G. & Marshall, D. R., Variation for oil quantity and quality in linseed (Linum usitatissimum). Aust. J. Agric. Res., 32, 599–607, 1981.

      168. Carter, J. F., Potential of flaxseed and flaxseed oil in baked goods and other products in human nutrition. Cereal Foods World., 38, 753–759, 1993.

      169. Rubilar, M., Gutiérrez, C., Verdugo, M., Shene, C. & Sineiro, J., Flaxseed as a source of functional ingredients. J. Soil Sci. Plant Nutr., 10, 373–377, 2010.

      170. Shim, Y. Y., Gui, B., Arnison, P. G., Wang, Y. & Reaney, M. J. T., Flaxseed (Linum usitatissimum L.) bioactive compounds and peptide nomenclature: A review. Trends Food Sci. Tech., 38, 5–20, 2014.

      171. Matsumoto, T., Shishido, A., Morita, H., Itokawa, H. & Takeya, K., Conformational analysis of cyclolinopeptides A and B. Tetrahedron, 58, 5135–5140, 2002.

      172. Oomah, B. D., Kenaschuk, E. O. & Mazza, G., Phenolic acids in flaxseed. J. Agric. Food Chem., 43, 2016–2019, 1995.

      173. Chen, J., Mark Stavro, P. & Thompson, L. U., Dietary flaxseed inhibits human breast cancer growth and metastasis and downregulates expression of insulin-like growth factor and epidermal growth factor receptor. Nutr. Cancer, 43, 187–192, 2002.

      174. Visentainer, J. V., De Souza, N. E., Makoto, M., Hayashi, C. & Franco, M. R. B., Influence of diets enriched with flaxseed oil on the α-linolenic, eicosapentaenoic and docosahexaenoic fatty acid in Nile tilapia (Oreochromis niloticus). Food Chem., 90, 557–560, 2005.

      175. Cui, S. W., Polysaccharide gums from agricultural products: Processing, structures and products, p. 261, Technomic Publishing Company, Inc., Lancaster, PA, USA, 2001.

      176. Guo, Q., Cui, S. W., Wang, Q., Goff, H. D. & Smith, A., Microstructure and rheological properties of psyllium polysaccharide gel. Food Hydrocoll., 23, 1542–1547, 2009.

      177. Masood, R. & Miraftab, M., Psyllium: Current and future applications, in Medical and Healthcare Textiles, S. C. Anand, J. F. Kennedy, M. Miraftab & S. Rajendran (Eds.), pp. 244–253, Woodhead Publishing, Cambridge, UK, 2010.

      178. Guo, Q., Cui, S. W., Wang, Q. & Christopher Young, J., Fractionation and physicochemical characterization of psyllium gum. Carbohydr. Polym., 73, 35–43, 2008.

      179. Mishra, A. & Bajpai, M., Flocculation behaviour of model textile wastewater treated with a food grade polysaccharide. J. Hazard. Mater., 118, 213–217, 2005.

      181. Singh, B., Psyllium as therapeutic and drug delivery agent. Int. J. Pharm., 334, 1–14, 2007.

      182. Bemiller, J. N. & Whister, R. L., Carbohydrate, in Food Chemistry, O. R. Fennema (Ed.), pp. 157–223, Marcel Dekker, NewYork, 1996.

      183. Fang, C., Dietary psyllium reverses hypercholesterolemic effect of trans fatty acids in rats. Nutr. Res., 20, 695–705, 2000.

      184. Romero, A. L., West, K. L., Zern, T. & Fernandez, M. L., The seeds from Plantago ovata lower plasma lipids by altering hepatic and bile acid metabolism in guinea pigs. J. Nutr., 132, 1194–1198, 2002.

      185. Fischer, M. H., Yu, N., Gray, G. R., Ralph, J., Anderson, L. & Marlett, J. A., The gel-forming polysaccharide of psyllium husk (Plantago ovata Forsk). Carbohydr. Res., 339, 2009–2017, 2004.

      186. Thakur, V. K. & Thakur, M. K., Recent trends in hydrogels based on psyllium polysaccharide: A review. J. Clean. Prod., 82, 1–15, 2014.

      187. Bouchoucha, M., Faye, A., Savarieau, B. & Arsac, M., Effect of an oral bulking agent and a rectal laxative administered alone or in combination for the treatment of constipation. Gastroenterol. Clin. Biol., 28, 438–443, 2004.

      188. Ramkumar, D. & Rao, S. S. C., Efficacy and safety of traditional medical therapies for chronic constipation: Systematic review. Am. J. Gastroenterol., 100(4), 936–971, 2005.

      189. Washington, N., Harris, M., Mussellwhite, A. & Spiller, R. C., Moderation of lactulose-induced diarrhea by psyllium: Effects on motility and fermentation. Am. J. Clin. Nutr., 67, 317–321, 1998.

      190. Fernández-Bañares, F., Hinojosa, J., Sánchez-Lombraña, J. L., Navarro, E., Martínez-Salmerón, J. F., García-Pugés, A., González-Huix, F., Riera, J., González-Lara, V., Domínguez-Abascal, F., Giné, J. J., Moles, J., Gomollón, F. & Gassull, M. A., Randomized clinical trial of Plantago ovata seeds (dietary fiber) as compared with mesalamine in maintaining remission in ulcerative colitis. Am. J. Gastroenterol., 94, 427–433, 1999.

      191. Pittler, M. H. & Ernst, E., Dietary supplements for body-weight reduction: A systematic review. Am. J. Clin. Nutr., 79, 529–536, 2004.

      192.