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The Effects of Microencapsulated Chitooligosaccharide on Physical and Sensory Properties of the Milk
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 Title & Authors
The Effects of Microencapsulated Chitooligosaccharide on Physical and Sensory Properties of the Milk
Choi, H.J.; Ahn, J.; Kim, N.C.; Kwak, H.S.;
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 Abstract
Effects of microencapsulated chitooligosaccharide addition in milk were evaluated by determination of the efficiency of microencapsulation, cholesterol removal, color, viscosity and sensory properties. Coating material was polyglycerol monostearate (PGMS) and the efficiency of microencapsulation was 88.08% at a 10:1 ratio of coating to core materials (w/w). When 0.5% of microencapsulated chitooligosaccharide was added into milk, the color values (L, a, and b) and viscosity were significantly different from those of noncapsulated chitooligosaccharide-added groups (p<0.05). The release of chitooligosaccharide from microcapsules was 7.6% in milk at for 15-day storage. In both 0.5 and 1.5% microencapsulation addition, the scores of all sensory characteristics except for off-flavor were significantly different between encapsulated chitooligosaccharide and noncapsulated chitooligosaccharide-added groups during all periods of storage. The present study indicated that chitooligosaccharide microcapsules could be applicable into commercial milk with little adverse effects on physical and sensory properties.
 Keywords
Chitooligosaccharide;Microencapsulation;Milk;
 Language
English
 Cited by
 References
1.
Adams, M. L., D. M. Sullivan, R. L. Smith and E. F. Richer. 1986. Evaluation of direct saponification method in determination of cholesterol in meats. J. Assoc. Anal. Chem. 69:844-846

2.
Ahn, J. and H. S. Kwak. 1999. Optimizing cholesterol removal in cream using $\beta$-cyclodextrin and response surface methodology. J. Food Sci. 64:629-632 crossref(new window)

3.
Braun, S. D. and N. F. Olson. 1986. Encapsulation of proteins and peptides in milk fat. Encapsulated efficiency and temperature and freezing stability. J. Micoencapsulation 3:115-126 crossref(new window)

4.
Grundy, S. M., D. Brheimer, H. Blackburn, W. V. Brown, P. O. Kwiterovich, F. Mattson, G. Schonfeld and W. H. Weidman. 1982. Rational of the diet-heart statement of the American Heart Association Report of the Nutrition Committee. Circulation 65:839A-854A

5.
Gurr, M. I. 1992. Dietary lipids and coronary disease: old evidence, new perspectives and progress. Lipid Res. 31:195-243 crossref(new window)

6.
Jackson, L. S. and K. Lee. 1991. Microencapsulated iron food fortification. J. Food Sci. 56:1047-1050 crossref(new window)

7.
Knorr, D. 1984. Use of chitinous polymers in food. Food Technol. Jan:85-97

8.
Kobayashi, T., C. Otsuka and Y. Yugai. 1979. Effect of chitosan on serum and liver cholesterol levels in cholesterol-fed rats. Nutr. Rep. Int. 19:327-334

9.
Kwak, H. S., M. R. Ihm and J. Ahn. 2001. Microencapsulation of $\beta$-galactosidase with fatty acid esters. J. Dairy Sci. 84:1576-1582

10.
Hwang, J. H., S. J. Lee and J. S. Kwak. 2005. Properties and cholesterol lowering effect of cholesterol-reduced milk supplemented with evening primrose oil. Asian-Aust. J. Anim. Sci. 18:1041-1047

11.
Kwak, H. S., K. M. Yang and J. Ahn. 2003. Microencapsulated iron for milk fortification. J. Agric. Food Chem. 51:7770-7774 crossref(new window)

12.
Lee, D. K., J. Ahn and H. S. Kwak. 1999. Cholesterol removal from homogenized milk with $\beta$-cyclodextrin. J. Dairy Sci. 82:2327-2330

13.
Lee, J. B., J. Ahn, J. Lee and H. S. Kwak. 2003. The microencapsulated ascorbic acid release in vitro and its effect on iron bioavailability. Arch. Pharm. Res. 26:874-879 crossref(new window)

14.
Lee, J. B., J. Ahn, J. Lee and H. S. Kwak. 2004. L-ascorbic acid microencapsulated with polyacylglycerol monostearate for milk fortification. Biosci. Biotechnol. Biochem. 68:495-500 crossref(new window)

15.
Maezaki, Y., K. Tsuji, Y. Nakagawa, Y. Kawai, M. Akimoto, T. Tsugita, W. Takekawa, A. Terada, H. Hara and T. Mitsuoka. 1993. Hypocholesterolemic effect of chitosan in adult males. Biosci. Biotechnol. Biochem. 57:1439-1444

16.
Makoto, K., O. Akio and S. Reijiro. 1992. Inventors; Honnen LTD., assignee. Cholesterol removal from animal with cyclodextrin by inclusion. Japan patent 4, 168, 198

17.
Magee, E. L. Jr. and N. F. Olson. 1981. Microencapsulation of cheese ripening system: Formation of microcapsules. J. Dairy Sci. 64:600-610

18.
Nagamoto, S. 1985. Cyclodextrin-expanding the development of their functions and applications. Chem. Econ. Eng. Rev. 17:28-34

19.
Nagyvary, J. J., J. D. Falk, M. L. Hill, M. L. Schmidt, A. K. Wilkins and E. L. Brodbury. 1979. The hypocholesterolemic activity of chitosan and other polysaccharides in rats. Nutr. Rep. Int. 20:677-684

20.
Oakenfull, D. G. and G. S. Sihdu. 1991. Inventors; Commonwealth scientific and industrial research organization, assignee. Cholesterol reduction. International patent 91/11114

21.
OTA. 1982. Genetic Technology: A new frontier office of technology assessment. Boulder: Westview Press

22.
$SAS^{\circledR}$ Users Guide. 1985. Statistics, Version 5 Edition. SAS Inst., Inc., Cary

23.
Shim, S. Y., J. Ahn and H. S. Kwak. 2004. Functional properties of cholesterol-removed compound whipping cream by palm oil. Asian-Aust. J. Anim. Sci. 17:857-862

24.
Sugano, M., T. Fujikawa, Y. Hiratsuji, K. Nakashima, N. Fukuda and Y. Hasegawa. 1978. A novel use of chitosan as a hypocholesterolemic agent in rats. Am. J. Clin. Nutr. 33:787-793

25.
Vandenberg, G. W., C. Drolet, S. L. Scott and J. Noue. 2001. Factors affecting protein release from alginate-chitosan coacervate microcapsules during production and gastric/intestinal simulation. J. Controlled Release. 77:297-307 crossref(new window)

26.
Zacour, A. C., M. E. Silva, P. R. Cecon, E. A. Bambirra and E. C. Vieira. 1992. Effect of dietary chitin on cholesterol absorption and metabolism in rats. J. Nutr. Sci. Vitaminol. 38:609-613