Polydextrose Enhances Calcium Absorption and Bone Retention in Ovariectomized Rats

Weisstaub, Adriana R; Abdala, Victoria; Gonzáles Cháves, Macarena; Mandalunis, Patricia Mónica; Zuleta, Angela; Zeni, Susana Noemí

doi:10.1155/2013/450794

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Polydextrose Enhances Calcium Absorption and Bone Retention in Ovariectomized Rats

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Author(s): Adriana R. Weisstaub ¹ ^, ^* , Victoria Abdala ¹ , Macarena Gonzales Chaves ² , Patricia Mandalunis ³ , Ángela Zuleta ¹ , Susana Zeni ²

Publication date (Electronic): 25 May 2013

Journal: International Journal of Food Science

Publisher: Hindawi Publishing Corporation

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Abstract

Purpose. To evaluate the effect of polydextrose (PDX) on Ca bioavailability and prevention of loss of bone mass. Methods. Twenty-four two-month-old ovariectomized rats were fed three isocaloric diets only varied in fiber source and content up to 60 days (FOS group, a commercial mixture of short- and long-chain fructooligosaccharide, OVX group fed AIN 93 diet, and PDX group). A SHAM group was included as control. Apparent Ca absorption percentage (%ABS), changes in total skeleton bone mineral content (tsBMC) and bone mineral density (BMD) and femur BMD, % Bone Volume, Ca and organic femur content, caecal weight, and pH were evaluated. Results. %ABS and caecum weight of PDX and FOS were higher, and caecum pH was lower compared to OVX and SHAM. PDX reached a higher pH and lower caecum weight than FOS possibly because PDX is not completely fermented in the colon. Changes in tsBMC and femur BMD in FOS and PDX were significant lower than SHAM but significantly higher than OVX. % Bone Volume and femur % of Ca in PDX were significantly higher than OVX and FOS but lower than SHAM. Conclusions. PDX increased Ca absorption and prevented bone loss in OVX rats.

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Resistant starch (RS) is starch and products of its small intestinal digestion that enter the large bowel. It occurs for various reasons including chemical structure, cooking of food, chemical modification, and food mastication. Human colonic bacteria ferment RS and nonstarch polysaccharides (NSP; major components of dietary fiber) to short-chain fatty acids (SCFA), mainly acetate, propionate, and butyrate. SCFA stimulate colonic blood flow and fluid and electrolyte uptake. Butyrate is a preferred substrate for colonocytes and appears to promote a normal phenotype in these cells. Fermentation of some RS types favors butyrate production. Measurement of colonic fermentation in humans is difficult, and indirect measures (e.g., fecal samples) or animal models have been used. Of the latter, rodents appear to be of limited value, and pigs or dogs are preferable. RS is less effective than NSP in stool bulking, but epidemiological data suggest that it is more protective against colorectal cancer, possibly via butyrate. RS is a prebiotic, but knowledge of its other interactions with the microflora is limited. The contribution of RS to fermentation and colonic physiology seems to be greater than that of NSP. However, the lack of a generally accepted analytical procedure that accommodates the major influences on RS means this is yet to be established.

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An animal model of postmenopausal bone loss can be defined as a living animal in which spontaneous or induced bone loss due to ovarian hormone deficiency can be studied, and in which the characteristics of the bone loss and its sequalae resemble those found in postmenopausal women in one or more respects. Although in comparison to humans, the skeletal mass of rats remains stable for a protracted period during their lifespan, rats can be ovariectomized to make them sex-hormone deficient, and to stimulate the accelerated loss of bone that occurs in women following menopause. Ovariectomy induced bone loss in the rat and postmenopausal bone loss share many similar characteristics. These include: increased rate of bone turnover with resorption exceeding formation; and initial rapid phase of bone loss followed by a much slower phase; greater loss of cancellous than cortical bone; decreased intestinal absorption of calcium; some protection against bone loss by obesity; and similar skeletal response to therapy with estrogen, tamoxifen, bisphosphonates, parathyroid hormone, calcitonin and exercise. These wide-ranging similarities are strong evidence that the ovariectomized rat bone loss model is suitable for studying problems that are relevant to postmenopausal bone loss.

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Author and article information

Journal

Journal ID (nlm-ta): Int J Food Sci

Journal ID (iso-abbrev): Int J Food Sci

Journal ID (publisher-id): IJFS

Title: International Journal of Food Science

Publisher: Hindawi Publishing Corporation

ISSN (Electronic): 2314-5765

Publication date (Print): 2013

Publication date (Electronic): 25 May 2013

Volume: 2013

Electronic Location Identifier: 450794

Affiliations

¹Food Science and Nutritional Department, School of Pharmacy and Biochemistry, Buenos Aires University (UBA), 1114 Buenos Aires, Argentina

²Metabolic Bone Diseases Laboratory, Clinical Hospital, Immunology, Genetic and Metabolism Institute (INIGEM), National Council for Scientific and Technologic Research (CONICET), UBA, 1114 Buenos Aires, Argentina

³Histologycal and Embryology Department, School of Dentistry, UBA, 1114 Buenos Aires, Argentina

Author notes

*Adriana R. Weisstaub: arweiss@ 123456ffyb.uba.ar

Academic Editor: Elad Tako

Article

DOI: 10.1155/2013/450794

PMC ID: 4745538

PubMed ID: 26904599

SO-VID: 7a9129a9-29bf-4851-a432-85fda333f811

License:

This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.