Info

Demigné, C., Rémésy, C., Rayssiguier, Y., Effect of fermentable carbohydrates on volatile fatty acids, ammonia and mineral absorption in the caecum, Reprod. Nutr. Develop., 20, 1351-1359, 1980.

Andrieux, C., Sacquet, E., Effect of microflora and lactose on the absorption of calcium, phosphorus, and magnesium in the hindgut of rats, Reprod. Nutr. Develop., 23, 258-271, 1983.

Lutz, T., Scharrer, E., Effect of short-chain fatty acids on calcium absorption by the rat colon, Exp. Physiol, 76, 615-618, 1991.

Schulz, A. G., Van Amelsvoort, J. M., Beynen, A. C., Dietary native resistant starch but not retrograded resistant starch raises magnesium and calcium absorption in rats, J. Nutr, 123, 1724-1731, 1993.

Rémésy, C., Levrat, M-A., Gamet, L., Demigné, C. Cecal fermentations in rats fed oligosaccharides (inulin) are modulated by dietary calcium level, Am. J. Physiol., 264, G855-G862, 1993.

Ohta, A., Ohtuki, M., Takizawa, T., Inaba, H., Adachi, T., Kimura, S., Effects of fructooligosaccharides on the absorption of magnesium and calcium by cecectomized rats, Int. J. Vitaminol. Nutr. Res, 64, 316-323, 1994.

Ohta, A., Osakabe, N., Yamada, K., Saito, Y., Hidaka, H., Effects of fructooligosaccharides on Ca, Mg, and P absorption in rats, Jpn. Soc. Nutr. Food Sci, 46, 123-129, 1993.

Ohta, A., Baba, S., Ohtsuki, M., Taguchi, A., Adachi, T., Hara, H., Prevention of coprophagy modifies magnesium absorption in rats fed with fructo-oligosaccharides, Br. J. Nutr, 75, 775-784, 1996.

Ohta, A., Baba, S., Takizawa, T., Adachi, T., Effects of fructooligosaccharides on the absorption of magnesium in the magnesium-deficient rat model, J. Nutr. Sci. Vitaminol, 40,171-180, 1994.

Delzenne, N., Aertssens, J., Verplaetse, H., Roccaro, M., Roberfroid, M., Effect of fermentable fructo-oligosaccharides on mineral, nitrogen, and energy digestive balance in the rat, Life Sci., 57, 1579-87, 1995.

Lopez, H. W., Coudray, C., Levrat-Verny, M., Feillet-Coudray, C., Demigné, C., Rémésy, C., Fructooligosaccharides enhance mineral apparent absorption and counteract the deleterious effects of phytic acid on mineral homeostasis in rats, J. Nutr. Biochem, 11, 500-508, 2000.

Younes, H., Coudray, C., Bellanger, J., Demigné, C., Rayssiguier, Y., Rémésy, C., Effects of two fermentable carbohydrates (inulin and resistant starch) and their combination on calcium and magnesium balance in rats, Br. J. Nutr, 86, 1-8, 2001. Beynen, A. C., Baas, J. C., Hoekemeijer, P. E., Kappert, H. J., Bakker, M. H., Koopman, J. P., Lemmens, A. G., Faecal bacterial profile, nitrogen excretion and mineral absorption in healthy dogs fed supplemental oligofructose, J. Anim. Physiol. Anim. Nutr, 86, 298-305, 2002.

Ohta, A., Ohtsuki, M., Baba, S., Takizawa, T., Adachi, T., Kimura, S. Effects of fructooligosaccharides on the absorption of iron, calcium, and magnesium in iron-deficient anaemic rats, J. Nutr. Sci. Vitaminol., 41, 281-291, 1995. Pallarés, I., Lisbona, F., Alaga, I. L., Barrionuevo, M., Alfrez, M. J. M., Campos, M. S., Effect of iron deficiency on digestive utilization of iron, phosphorus, calcium, and magnesium in rats, Br. J. Nutr, 70, 609-620, 1993.

Kimmel, D. B., Animal models for in vivo experimentation in osteoporosis research, in Osteoporosis, Marcus, R., Feldman, D., Eds., Academic Press, San Diego, pp. 671-690, 1996.

119. Scholz-Ahrens, K. E., Açil, Y., Schrezenmeir, J., Effect of inulin, oligofructose and dietary calcium on repeated calcium and phosphorus balances, bone mineralization, and trabecular structure in ovariectomized rats, Br. J. Nutr, 88, 365-377, 2002.

120. Zafar, T., Weaver, C., Zhao, D., Martin, B., Wastney, M., Inulin and calcium metabolism in ovariectomized (OVX) rats, Experimental Biology Meetings, San Diego, CA, Poster, 2003.

121. Ellegard, L., Andersson, H., Bosaeus, I., Inulin and oligofructose do not influence the absorption of cholesterol, or the excretion of cholesterol, Ca, Mg, Zn, Fe, or bile acids but increases energy excretion in ileostomy subjects, Eur. J. Clin. Nutr, 51, 1-5, 1997.

122. Coudray, C., Bellanger, J., Castiglia-Delavaud, C., Vermorel, V., Rayssiguier, Y. Effect of soluble or partly soluble dietary fibres supplementation on absorption and balance of calcium, magnesium, iron, and zinc in healthy young men, Eur. J. Clin. Nutr, 51, 375-380, 1997.

123. Coudray, C., Fairweather-Tait, S. J., Do oligosaccharides affect the intestinal absorption of calcium in humans? Am. J. Clin. Nutr-., 70, 921-922, 1999.

124. Matkovic, V., Heaney, R. P., Calcium balance during human growth: evidence for threshold behavior, Am. J. Clin. Nutr, 55, 992-996, 1992.

125. Griffin, I. J., Davila, P. M., Abrams, S. A., Non-digestible oligosaccharides and calcium absorption in girls with adequate calcium intakes, Br. J. Nutr, 87 (suppl. 2), S187-S191,. 2002.

126. Yamada, S., 45Ca kinetics and balance study. A useful method for analysing the effects of drugs on calcium metabolism, in Pharmacological Approach to Study the Formation and the Resorption Mechanism of Hard Tissues, Ogura H, Ed., EuroAmerica Publishers, Tokyo, pp. 75-92, 1994.

127. Griffin, I. J., Hicks, P. M. D., Heaney, R. P., Abrams, S. A., Enriched chicory inulin increases calcium absorption in girls with lower calcium absorption, Nutr. Res, 23, 901-909, 2003.

128. Tahiri, M., Tressol, J. C., Arnaud, J., Bornet, F. R. J., Bouteloup-Demange, C., Feillet-Coudray, C., Brandolini, M., Ducros, V., Pépin, D., Brouns, F., Roussel, A. M., Rayssiguier, Y., Coudray, C., Effect of short-chain fructooligosaccharides on intestinal calcium absorption and calcium status in postmenopausal women: a stable-isotope study, Am. J. Clin. Nutr, 77, 449-457, 2003.

129. Holloway, L., Moyniham, S., Friedlander, A. L., Effects of RAFTILOSE synergy 1 on mineral absorption and markers of bone turnover in postmenopausal women. Submitted for publication, 2004.

130. Ohta, A., Motohashi, Y., Sakai, K., Hirayama, M., Adachi, T., Sakuma, K., Dietary fructooligosaccharides increase calcium absorption and levels of mucosal calbindin-D9k in the large intestine of gastrectomized rats, Scand. J. Gastroenterol., 33, 1062-1068, 1998.

131. Tahiri, M., Tressol, J. C., Arnaud, J., Bornet, F. R. J., Bouteloup-Demange, C., Feillet-Coudray, C., Ducros, V., Pépin, D., Brouns, F., Roussel, A. M., Rayssiguier, Y., Coudray, C., Five-week intake of short-chain fructooligosaccharides increase intestinal absorption and status of magnesium in postmenopausal women, J. Bone Miner. Res., 16, 2152-2160, 2001.

132. Takahara, S., Morohashi, T., Sano, T., Ohta, A., Yamada, S., Sasa, R., Fructooligosac-charide consumption enhances femoral bone volume and mineral concentrations in rats, J. Nutr, 130, 1792-1795, 2000.

133. Hein, A., Der Einfluss unterschiedlicher Diäten auf die Struktur der Spongiosa von wachsenden und ovariektomierten Ratten, Ph.D. Thesis, University of Kiel, Kiel Germany 1997.

134. Roberfroid, M. B., Cumps, J., Devogelaer, J. P., Dietary chicory inulin increases whole-body mineral density in growing rats, J. Nur., 132, 3599-3602, 2003.

135. Ohta, A., Ohtsuki, M., Hosono, A., Adachi, T., Hara, H., Sakata, T., Dietary fructoo-ligosaccharides prevent osteopenia after gastrectomy in rats, J. Nutr., 128, 106-110, 1998.

136. Richardson, J. E., Verghese, M., Walker, I. A., Bonsi, I. A., Howard, C., Shackelford, L., Chawan, C. B., Effects of prebiotics on bone mineralization in Fisher 344 male weanling rats, Institute of Food Technology, Annual Meeting, Annaheim, CA, Poster, 2002.

137. Ohta, A., Ohtsuki, M., Uehara, M., Hosono, A., Hirayama, M., Adachi, T., Hara, H., Dietary fructooligosaccharides prevent postgastrectomy anemia and osteopenia in rats, J. Nutr., 128, 485-490, 1998b.

138. Baynes, R. D., Bothwell, T. H., Iron deficiency, Annu. Rev. Nutr., 10, 133-148, 1990.

139. Charlton, R. W., Bothwell, T. H., Iron absorption, Annu. Rev. Med., 34, 55-68, 1983.

140. Gudiel-Urbano, M., Goni, I., Effect of fructooligosaccharide on nutritional parameters and mineral bioavailability in rats, J. Sci. Food Agric., 82, 913-917, 2002.

141. Sakai, K., Ohta, A., Takaski, M., Tokunaga, T., The effect of short chain fructooli-gosaccharides in promoting recovery from post-gastrectomy anemia is stronger than that of inulin, Nutr. Res., 20, 403-412, 2000.

142. Wolf, B. W., Firkins, J. L., Zhang, X., Varying dietary concentrations of fructooli-gosaccharides affect apparent absorption and balance of minerals in growing rats, Nutr. Res, 18, 1791-1806, 1998.

143. Baba, S., Ohta, A., Absorptivity of magnesium in coca and rice bran, and effects of fructooligosaccharides on magnesium absorption in cocoa and rice bran, Jpn. J. Sci. Magnes. Res, 14, 167-177, 1995.

144. Hillman, L. S., Tack, E., Covell, D. G., Vieira, N. E., Yergey, A. L.,. Measurement of true calcium absorption in premature infants using intravenous 46Ca and oral 44Ca, Pediatr. Res, 23, 589-594, 1988.

145. Jackman, L. A., Millane, S. S., Martin, B. R., Wood, O. B., McCabe, G. P., Peacock, M., Weaver, C. M., Calcium retention in relation to calcium intake and postmenarcheal age in adolescent females, Am. J. Clin. Nutr, 66, 327-333, 1997.

146. Yergey, A. L., Vieira, N. E., Hansen, J. W., Isotope ratio measurements of urinary calcium with a thermal ionization probe in a quadrupole mass spectrometer, Anal. Chem., 52, 1811-1814, 1980.

147. Coudray, C., Tressol, J. C., Gueux, E., Rayssiguier, Y., Effects of inulin-type fructans of different chain length and type of branching on intestinal absorption of calcium and magnesium in rats, Eur. J. Nutr, 42, 91-98, 2003.

148. Moshfegh, A. J., Friday, J. E., Goldman, J. P., Chug-Ahuja, J. K., Presence of inulin and oligofructose in the diets of Americans, J. Nutr., 129, 1407S-1411S, 1999.

149. Briet, F., Achour, L., Flourie, B., Beaugerie, L., Pellier, P., Franchisseur, C., Bornet, F., Rambaud, J. C., Symptomatic response to varying levels of fructo-oligosaccharides consumed occasionally or regularly, Eur. J. Clin. Nutr, 49, 501-507, 1995.

150. Ames, S. K., Ellis, K. J., Gunn, S. K., Copeland, K. C., Abrams, S. A., Vitamin D receptor gene Fok1 polymorphism predicts calcium absorption and bone mineral density in children, J. Bone Miner. Res., 14, 740-746, 1999.

Zerwekh, J. E., Sakhaee, K., Pak, C. Y. C., Utility and limitation of calciuric response to oral calcium load as a measure of intestinal calcium absorption: comparison with isotopic calcium fractional absorption, Invest. Urol., 19,161-164, 1981. Bell, N. H., Yergey, A. L., Vieira, N. E., Oexinan, M. J., Shary, J. R., Demonstration of a difference in urinary calcium, nor calcium absorption in black and white adolescents, J. Bone Miner. Res, 8, 1111-1115, 1993.

O'Brien, K. O., Abrams, S. A., Stuff, J. E., Liang, I. K., Welch, T. R., Variables related to urinary calcium excretion in young girls, J. Paediatr. Gastroenterol. Nutr., 23, 8-12, 1996.

Bronner, F., Pansu, D., Stein, W. D., An analysis of intestinal calcium transport across the rat intestine, Am. J. Physiol., 250, 561G-569G, 1986.

Nellans, H. N., Goldsmith, R. S., Transepithelial calcium transport by rat caecum: high efficiency absorptive site, Am. J. Physiol., 240, G424-G531, 1981. Trinidad, T. P., Wolever, T. M., Thompson, L. U., Effect of acetate and propionate on calcium absorption from the rectum and distal colon of humans, Am. J. Nutr, 63, 574-578, 1996.

Lupton, J. R., Kurtz, P. P., Relationship of colonic luminal short-chain fatty acids and pH to in vivo cell proliferation in rats, J. Nutr., 123,1522-1530, 1993. Anita, C. M., Anthony, W. N., Effects of sodium butyrate on 1,25 dihydroxyvitamin D3 receptor activity in primary chick kidney cells, Mol. Cellul. Endocrinol., 84, 99-107, 1992.

Fukushima, A., Motohashi, Y., Sakuma, K., Transcriptional regulation of rat calbindin expression during development determined by bacterially expressed protein, J. Nutr. Sci. Vitaminol., 44, 137-149, 1998.

Staun, M., Jarnum, S., Single-step purification of polypeptides expressed in Escherichia coli as fusions with glutathion S-transferase, Gene, 67, 31-40, 1988. Taylor, A. N., Wasserman, R. H., Correlations between the vitamin D-induced calcium binding protein and intestinal absorption of calcium, Fed. Proc. 28, 1834-1838, 1969. Schroder, B., Schlumbohm-Ckaune, R., Breves, G., Role of calbindin D9k in buffering cytosolic free Ca+2 ions in pig duodenal enterocytes, J. Physiol., 492, 715-722, 1996.

Petith, M. M., Wilson, H. D., Shedl, H. P., Vitamin D dependence of in vivo calcium transport and mucosal calcium binding protein in rat large intestine, Gastroenterology, 76, 99-104, 1979.

Wilson, H. D., Petith, M. M., Shedl, H. P., Effect of diabetes calcium-binding protein in cecum and colon of the rat, Digestion, 22, 159-164, 1981. Ohta, A., Motohashi, Y., Ohtsuki, M., Hirayama, M., Adachi, T., Sakuma, K., Dietary fructooligosaccharides change the intestinal mucosal concentration of calbindin-D9k differently in the mucosa of the small and large intestine of rats, J. Nutr., 128, 934-939, 1998c.

Straub, B. W., Kicherer, M., Schilcher, S. M., Hammes, W. P., The formation of biogenic amines by fermentation organisms, Zeitschr. Lebensmitt.-Untersuch. Forsch., 201, 79-82, 1995.

Buts, J. P., de Keyser, N., Kolanowski, J., Sokal, E., van Hoof, F., Maturation of villus and crypt cell functions in rats small intestine: role of dietary polyamines, Digest. Dis. Sci, 38, 1091-1098, 1993.

Löser, C., Eisel, A., Harms, D., Fölsch, U. R., Dietary polyamines are essential luminal growth factors for small intestinal and colonic mucosal growth and development, Gut, 44, 12-16, 1999.

169. Bardocz, S., Grant, G., Brown, D. S., Ralph, A., Pusztai, A., Polyamines in food-implications for growth and health, J. Nutr. Biochem., 4, 66-71, 1993.

170. Delzenne, N. M., Kok, N., Deloyer, P., Dandrifosse, G., Dietary fructans modulate polyamine concentration in the cecum of rats, J. Nutr, 130, 2456-2460, 2000.

171. Roberfroid, M. B., Concepts in functional foods: the case of inulin and oligofructose, J. Nutr., 129 1398S-401S, 1999.

Was this article helpful?

0 0
10 Ways To Fight Off Cancer

10 Ways To Fight Off Cancer

Learning About 10 Ways Fight Off Cancer Can Have Amazing Benefits For Your Life The Best Tips On How To Keep This Killer At Bay Discovering that you or a loved one has cancer can be utterly terrifying. All the same, once you comprehend the causes of cancer and learn how to reverse those causes, you or your loved one may have more than a fighting chance of beating out cancer.

Get My Free Ebook


Post a comment