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2002 | 05 | 2 |

Tytuł artykułu

Sorption of bile acids and cholesterol by dietary fiber of carrots, cabbage and apples

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Adsorption of common bile acids namely lithocholic (LCA), dexycholic (DCA) and cholic (CA) acids and cholesterol by fiber of carrots, cabbage and apples raw and after heat treatment, respectively, was estimated. It was shown that degree of bile acids adsorption depends on kind of the raw material, type of heat treatment and type of bile acids. Fiber carrots had higher sorption than cabbage and apples. Fiber of baked vegetable and apples had significantly higher sorption capacity in compare with boiled and steamed plants material. Lithocholic acid was adsorbed in higher degree than DCA and CA. The cholesterol was bound in the highest degree by fiber cabbage on compared to fiber carrots and apples. Heat treatment of plants material, especially baking, increased the sorption of cholesterol by fiber cabbage as well as carrots and apples.

Wydawca

-

Rocznik

Tom

05

Numer

2

Opis fizyczny

http://www.ejpau.media.pl

Twórcy

autor
  • August Cieszkowski Agricultural University of Poznan, Wojska Polskiego 31, 60-624 Poznan, Poland
autor
autor

Bibliografia

  • Anderson J., Jones A. E., Riddel-Mason S., 1994. Ten different dietary fibres have significantly different effects on serum and liver lipids of cholesterol – fed rats. J. Nutr., 124, 1, 78-83.
  • Camire M. E., Zhao J., Violette D. A., 1993. In vitro binding of bile acids by extruded potato peels. J. Agric. Food Chem., 41, 12, 2391-2394.
  • Dongowski G., 1997. Effect of pH on the in vitro interactions between bile acids and pectins. Lebensm. Unters. Forsch., 205, 5, 185-192.
  • Górecka D., Sperra L., Janitz W., 1996. Wpływ obróbki cieplnej na właściwości funkcjonalne błonnika pokarmowego w warunkach zbliżonych do środowiska przewodu pokarmowego [Influence of heat treatment on functional properties of dietary fiber in conditions similar to alimentary canal]. Rocz. AR Pozn., 282, 20, 35-42 [in Polish].
  • Grimes D. S., Goddard J., 1977. Gastric emptying of whole meal and white bread. Gut, 18, 725.
  • Hellendoorn E. W., Noordhoff M. G., Slagman J., 1975. Enzymatic determination of the indigestible residue (dietary fiber) content of human food. J. Sci. Food Agric., 26, 1461.
  • Huang C. M., Dural N. H., 1995. Adsorption of bile acids on cereal type food fibres. J. Food Proc., 18, 243-266.
  • Johnson I. T., 1990. The biological effects of dietary fibre in the small intestine. In Dietary fiber: chemistry and biological aspects. D.A.T. Southgate (ed). Royal Society of Chemistry, Cambridge.
  • Kirwan W. O., Smith A. A., McConnell A., Mitchell W. D., Eastwood M. A., 1974. Action of different bran preparations on colonic function. Brit. Med. J., 2, 187.
  • Kmita-Głażewska H., Kostyra H., 1999. Adsorpcja cholesterolu przez nierozpuszczalne frakcje błonnika pokarmowego kapust [Adsorption of cholesterol by insoluble fractions of dietary fiber of cabbage]. Ses. Nauk. KTiChŻ PAN, Kraków, I-146 [in Polish].
  • Korczak J., Górecka D., Janitz W., Bornikowska A., Fabrycka A., 1995. Właściwości fizyko-chemiczne błonnika pokarmowego w symulowanych warunkach przewodu pokarmowego [Physical and chemical properties of dietary fiber in simulated conditions of alimentary tract]. Rocz. AR Pozn., 270, 19, 2, 51-59 [in Polish].
  • Kritchevsky D., 1997. Cereal fiber and lipidemia. Cereal Foods World, 42, 2, 81-85.
  • McCleary B. V., 1999. Enzyme purity and activity in fiber determinations. Cereal Foods World, 44, 8, 590-596.
  • McConnell A. A., Eastwood M. A., Mitchel W. D., 1974. Physical characteristics of vegetable foodstuffs that could influence bowel function. J. Sci. Food Agric. 25, 31, 1457-1464.
  • Mongeau R., Brassard R., 1982. Determination of neutral detergent fiber in breakfast cereals: pentose, hemicellulose, cellulose and lignin content. J. Food Sci., 47, 2, 550-555.
  • Nair P. P., 1988. Role of bile acids and neutral sterols in carcinogenesis. Am. J. Clin. Nutr., 48, 768.
  • Owen R. W., Henly P. J., Thompson M. H., Hill M. J., 1986. Steroids and cancer: Faecal bile acid screening for early detection of cancer risk. J. Steroid Biochem., 23, 391.
  • Ragot F. I. J., Russell G. F., Schneeman B. O., 1992. Effect of Maillard reaction product on bile acid binding, plasma and hepatic lipids and weight gastrointestinal tract. J. Agric. Food Chem., 40, 9, 1634-1640.
  • Rasper V. F., 1979 a. Chemical and physical characteristics of dietary cereal fiber. In Dietary fiber: chemistry and nutrition. G.E. Inglett and S.I. Falkehag (eds.). Academic Press, New York.
  • Rasper V. F., 1979 b. Chemical and physical properties of dietary cereal fiber. Food Tech., 33, 1, 40-44.
  • Schaller D., 1977. Analysis of dietary fiber. Food Prod. Dev., 11, 9, 70.
  • Story J. A., Kritchevsky D., 1976. Comparison of the binding of various bile acids and bile salts in vitro by several types of fiber. J. Nutr., 106, 9, 1291-1294.
  • Thebaudin j. Y., Lafabvre A. C., Harrington M., Bourgeois C. M., 1997. Dietary fibres: Nutritional and technological interest. Trends Food Sc. Techn., 8, 2, 41-48.
  • Vollendorf N. W., Marlet J. A., 1991. Dietary fiber methodology and composition of oat grain, bran and hulls. Cereal Foods World, 36, 565-568.

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Bibliografia

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