Your search keyword '"Zinc absorption"' showing total 22 results

1. Mode of oral iron administration and the amount of iron habitually consumed do not affect iron absorption, systemic iron utilisation or zinc absorption in iron-sufficient infants: a randomised trial.

Author

Szymlek-Gay, Ewa A., Domellöf, Magnus, Hernell, Olle, Hurrell, Richard F., Lind, Torbjörn, Lönnerdal, Bo, Zeder, Christophe, and Egli, Ines M.

Subjects

ENRICHED foods, FERRITIN, HEMOGLOBINS, HUMAN growth, INFANT formulas, INFECTION, IRON compounds, ORAL drug administration, PROBABILITY theory, SOLUTION (Chemistry), TRANSFERRIN, ZINC, RANDOMIZED controlled trials, ABSORPTION, CHILDREN

Abstract

Different metabolic pathways of supplemental and fortification Fe, or inhibition of Zn absorption by Fe, may explain adverse effects of supplemental Fe in Fe-sufficient infants. We determined whether the mode of oral Fe administration or the amount habitually consumed affects Fe absorption and systemic Fe utilisation in infants, and assessed the effects of these interventions on Zn absorption, Fe and Zn status, and growth. Fe-sufficient 6-month-old infants (n 72) were randomly assigned to receive 6·6 mg Fe/d from a high-Fe formula, 1·3 mg Fe/d from a low-Fe formula or 6·6 mg Fe/d from Fe drops and a formula with no added Fe for 45 d. Fractional Fe absorption, Fe utilisation and fractional Zn absorption were measured with oral (57Fe and 67Zn) and intravenous (58Fe and 70Zn) isotopes. Fe and Zn status, infection and growth were measured. At 45 d, Hb was 6·3 g/l higher in the high-Fe formula group compared with the Fe drops group, whereas serum ferritin was 34 and 35 % higher, respectively, and serum transferrin 0·1 g/l lower in the high-Fe formula and Fe drops groups compared with the low-Fe formula group (all P<0·05). No intervention effects were observed on Fe absorption, Fe utilisation, Zn absorption, other Fe status indices, plasma Zn or growth. We concluded that neither supplemental or fortification Fe nor the amount of Fe habitually consumed altered Fe absorption, Fe utilisation, Zn absorption, Zn status or growth in Fe-sufficient infants. Consumption of low-Fe formula as the only source of Fe was insufficient to maintain Fe stores. [ABSTRACT FROM PUBLISHER]

Published

2016

2. Mutation in porcine Zip4-like zinc transporter is associated with pancreatic zinc concentration and apparent zinc absorption.

Author

Siebert, Felicitas, Lühken, Gesine, Pallauf, Josef, and Erhardt, Georg

Subjects

DNA analysis, ZINC analysis, ANIMAL experimentation, GENES, GENETIC techniques, INTESTINES, ION pumps, LIVER, GENETIC mutation, PANCREAS, POLYMERASE chain reaction, SPERMATOZOA, SWINE, ZINC, PHENOMENOLOGICAL biology, ABSORPTION, DATA analysis software, STATISTICAL models, SEQUENCE analysis

Abstract

The aim of the present study was to analyse the sequence variability of the porcine Zip4-like Zn transporter gene and the association of identified sequence variants with average daily gain, apparent Zn absorption, plasma Zn concentration and Zn concentration in the liver and pancreas. For the purpose of the study, two different sample sets were used. Set one, which was used for sequencing and association analysis, included mRNA from intestinal tissue from thirty-five piglets of a feeding trial. Sample set two consisted of forty-six samples of genomic DNA from sperm or tissue of wild boars and several pig breeds and was used to genotype animals of different breeds. The sequence analysis of porcine Zip4-like complementary DNA in sample set one revealed the presence of seven nucleotide substitutions. Of these, six were synonymous, whereas a substitution of A with C in exon IX (XM_001925360 c.1430A>C) causes an amino acid exchange from glutamic acid to alanine (p.Glu477Ala). The association analysis revealed no influence of the six synonymous substitutions on Zn values, but the non-synonymous nucleotide exchange significantly increased Zn concentration in the pancreas and apparent Zn absorption of the piglets in week 2 of the feeding trial. The parentage of the piglets and the genotyping results in sample set two suggest a breed-specific presence of the A allele in Piétrain for this amino acid substitution. These results indicate that genotype influences the Zn absorption abilities of individual animals, which should be taken into consideration in animal breeding as well as for the selection of experimental animals. [ABSTRACT FROM PUBLISHER]

Published

2013

3. Mathematical model of zinc absorption: effects of dietary calcium, protein and iron on zinc absorption.

Author

Miller, Leland V., Krebs, Nancy F., and Hambidge, K. Michael

Subjects

IRON metabolism, PROTEIN metabolism, ZINC metabolism, BIOLOGICAL transport, DIETARY calcium, DIET, INTESTINAL absorption, MATHEMATICAL models, MINERALS, NUTRITIONAL requirements, PHYTIC acid, REGRESSION analysis, RESEARCH funding, THEORY, ABSORPTION, STATISTICAL models

Abstract

A previously described mathematical model of Zn absorption as a function of total daily dietary Zn and phytate was fitted to data from studies in which dietary Ca, Fe and protein were also measured. An analysis of regression residuals indicated statistically significant positive relationships between the residuals and Ca, Fe and protein, suggesting that the presence of any of these dietary components enhances Zn absorption. Based on the hypotheses that (1) Ca and Fe both promote Zn absorption by binding with phytate and thereby making it unavailable for binding Zn and (2) protein enhances the availability of Zn for transporter binding, the model was modified to incorporate these effects. The new model of Zn absorption as a function of dietary Zn, phytate, Ca, Fe and protein was then fitted to the data. The proportion of variation in absorbed Zn explained by the new model was 0·88, an increase from 0·82 with the original model. A reduced version of the model without Fe produced an equally good fit to the data and an improved value for the model selection criterion, demonstrating that when dietary Ca and protein are controlled for, there is no evidence that dietary Fe influences Zn absorption. Regression residuals and testing with additional data supported the validity of the new model. It was concluded that dietary Ca and protein modestly enhanced Zn absorption and Fe had no statistically discernable effect. Furthermore, the model provides a meaningful foundation for efforts to model nutrient interactions in mineral absorption. [ABSTRACT FROM PUBLISHER]

Published

2013

4. Zinc homeostasis in 1???4 year olds consuming diets typical of US children.

Author

Griffin, Ian J., Lynch, Mary Frances, Hawthorne, Keli M., Chen, Zhensheng, Hamzo, Maria G., and Abrams, Steven A.

Abstract

Few data have evaluated Zn balance in young children after the first year of life. The objective of the present study was to study the relationships among Zn intake, absorption, endogenous faecal excretion, and retention in a group of healthy children. Thirty children, aged 15???48 months, were studied on a diet representative of their usual daily mineral intake. Zn absorption was assessed using a dual-tracer stable-isotope technique. Endogenous Zn faecal excretion and Cu absorption were determined in a subset of children. We found that Zn intake from the in-patient weighed dietary record (5??0 (sd 2??1) mg/d) was significantly greater than the current estimated average requirement (EAR; 2??5??mg/d; P??0??4, for all). Absolute Zn absorption was significantly related to Zn intake (r2 0??696; P??

Published

2007

5. Ingestion of insoluble dietary fibre increased zinc and iron absorption and restored growth rate and zinc absorption suppressed by dietary phytate in rats.

Author

Hayashi, Kumiko, Hara, Hiroshi, Asvarujanon, Patchana, Aoyama, Yoritaka, and Luangpituksa, Pairojana

Abstract

We examined the effects of ingestion of five types of insoluble fibre on growth and Zn absorption in rats fed a marginally Zn-deficient diet (6??75 mg (0??103 mmol) Zn/kg diet) with or without added sodium phytate (12??6 mmol/kg diet). The types of insoluble fibre tested were corn husks, watermelon skin, yam-bean root (Pachyrhizus erosus) and pineapple core, and cellulose was used as a control (100 g/kg diet). Body-weight gain in the cellulose groups was suppressed by 57 % by feeding phytate. Body-weight gain in phytate-fed rats was 80 % greater in the watermelon skin fibre and yam-bean root fibre group than that in the cellulose group. Zn absorption ratio in the cellulose groups was lowered by 46 and 70 % in the first (days 7???10) and second (days 16???19) measurement periods with feeding phytate. In the rats fed the phytate-containing diets, Zn absorption ratio in the watermelon skin, yam-bean root and pineapple core fibre groups was 140, 80 and 54 % higher respectively than that in the cellulose group, in the second period. Fe absorption was not suppressed by phytate, however, feeding of these three types of fibre promoted Fe absorption in rats fed phytate-free diets. The concentration of soluble Zn in the caecal contents in the watermelon skin fibre or yam-bean root fibre groups was identical to that in the control group in spite of a higher short-chain fatty acid concentration and lower pH in the caecum. These findings indicate that ingestion of these types of insoluble fibre recovered the growth and Zn absorption suppressed by feeding a high level of phytate, and factors other than caecal fermentation may also be involved in this effect of insoluble fibre. [ABSTRACT FROM PUBLISHER]

Published

2001

6. Profiles of faecal output of rare earth elements and stable isotopic tracers of iron and zinc after oral administration.

Author

Ulusoy, Ulvi and Whitley, John E.

Abstract

The objectives of this study were to confirm the non-absorbability and the reproducibility of faecal excretion kinetics of orally administered rare earth elements, and to investigate the excretion profiles of rare earth elements and stable isotopic tracers of Fe and Zn to establish the extent to which rare earth element markers duplicate the behaviour of isotopic tracers. Two investigations were performed: (1) six healthy subjects consumed a solution containing five rare earth elements in amounts varying from 1 to 10 mg; (2) seven healthy subjects were given a standard solution labelled with Sm marker and 57Fe tracer, and a meal labelled with Yb marker and 58Fe and 70Zn tracers. Individual faecal samples were collected and analysed to determine recoveries of rare earth elements and unabsorbed isotopic tracers. The mean values for recoveries were 94·1 (SD 4·5) % FOR THE FIVE RARE EARTH ELEMENTS, AND 103 (sd 3·0) % and 99·8 (sd 2·8) % for Sm and Yb respectively. For Fe consumed with the solution, excretion kinetics of the rare earth element marker and unabsorbed tracers with cumulative collections of the first two and three faecal samples were identical, but endogenous excretion of Fe was significant (P<0·05) in stools collected after the third. For Fe and Zn consumed with the meal, the excretion kinetics for the first two individual faecal samples and composites of sequential outputs were identical. Rare earth elements can be used as markers in studies of measurement of absorption. The dose of tracer required for the measurement of absorption would be reduced proportionally to the reduction of the period of faecal sampling, so that studies with stable isotopes would be more economical, thus enabling epidemiological investigations. [ABSTRACT FROM PUBLISHER]

Published

2000

7. Effect of dietary phytic acid on zinc absorption in the healthy elderly, as assessed by serum concentration curve tests.

Author

Couzy, François, Mansourian, Robert, Labate, Arielle, Guinchard, Sylvie, Montagne, Dirk H., and Dirren, Henri

Abstract

Zn absorption was investigated in healthy elderly subjects aged 71–78 years and in young subjects aged 23–43 years using serum concentration curve (SCC) tests. Both groups had similar Zn and protein status. The increase in serum Zn was monitored for 180 min after ingestion of 200ml of soya milk enriched with 50mg of Zn. Three levels of phytic acid were used: 0g/200ml (totally dephytinized soya milk), 0.13 g/200ml (half dephytinized), and 0.26 g/200ml (natural phytic acid content). In a first study the effect of 0 v. 0.26 g/200 ml phytic acid was compared in 10 elderly and 10 young subjects, each subject receiving both treatments. In a second study soya milks with 0 and 0.13 g/200ml were tested in nine elderly and ten young subjects, again receiving both treatments. Mean areas under the curve of the SCC tests conducted with the 0 g/200 ml soya milk were found to be the same in both studies. Phytic acid strongly depressed Zn absorption in both studies (P ≤ 0.05), but to a greater extent at the 0.26 g/200ml level. No difference was found between the groups of young and elderly subjects. Therefore, no significant effect of aging on Zn absorption, as evaluated by the SCC test, or on the inhibitory effect of phytic acid was detected. [ABSTRACT FROM PUBLISHER]

Published

1998

8. Mathematical model of zinc absorption: effects of dietary calcium, protein and iron on zinc absorption

Author

Leland V Miller, Nancy F. Krebs, and K. Michael Hambidge

Subjects

Absorption (pharmacology), Phytic Acid, Nutritional Sciences, Iron, Inorganic chemistry, Medicine (miscellaneous), chemistry.chemical_element, Zinc absorption, Zinc, Calcium, Article, Intestinal absorption, Absorption, chemistry.chemical_compound, Nutrient, Humans, Mineral absorption, Minerals, Phytic acid, Nutrition and Dietetics, Proteins, Biological Transport, Models, Theoretical, Healthy Volunteers, Diet, Calcium, Dietary, Intestinal Absorption, chemistry, Regression Analysis

Abstract

A previously described mathematical model of Zn absorption as a function of total daily dietary Zn and phytate was fitted to data from studies in which dietary Ca, Fe and protein were also measured. An analysis of regression residuals indicated statistically significant positive relationships between the residuals and Ca, Fe and protein, suggesting that the presence of any of these dietary components enhances Zn absorption. Based on the hypotheses that (1) Ca and Fe both promote Zn absorption by binding with phytate and thereby making it unavailable for binding Zn and (2) protein enhances the availability of Zn for transporter binding, the model was modified to incorporate these effects. The new model of Zn absorption as a function of dietary Zn, phytate, Ca, Fe and protein was then fitted to the data. The proportion of variation in absorbed Zn explained by the new model was 0·88, an increase from 0·82 with the original model. A reduced version of the model without Fe produced an equally good fit to the data and an improved value for the model selection criterion, demonstrating that when dietary Ca and protein are controlled for, there is no evidence that dietary Fe influences Zn absorption. Regression residuals and testing with additional data supported the validity of the new model. It was concluded that dietary Ca and protein modestly enhanced Zn absorption and Fe had no statistically discernable effect. Furthermore, the model provides a meaningful foundation for efforts to model nutrient interactions in mineral absorption.

Published

2012

9. Zinc homeostasis in 1–4 year olds consuming diets typical of US children

Author

Ian J. Griffin, Mary Frances Lynch, Keli M. Hawthorne, Maria G. Hamzo, Zhensheng Chen, and Steven A. Abrams

Subjects

Male, Medicine (miscellaneous), chemistry.chemical_element, Zinc, Zinc absorption, Absorption, Excretion, Feces, Child Development, Animal science, Nutrient, Homeostasis, Humans, Nutrition and Dietetics, Mineral homeostasis, Nutritional Requirements, Infant, Nutrition Surveys, Texas, Mineral intake, Diet, Zinc homeostasis, chemistry, Biochemistry, Dietary Reference Intake, Child, Preschool, Female, Copper

Abstract

Few data have evaluated Zn balance in young children after the first year of life. The objective of the present study was to study the relationships among Zn intake, absorption, endogenous faecal excretion, and retention in a group of healthy children. Thirty children, aged 15–48 months, were studied on a diet representative of their usual daily mineral intake. Zn absorption was assessed using a dual-tracer stable-isotope technique. Endogenous Zn faecal excretion and Cu absorption were determined in a subset of children. We found that Zn intake from the in-patient weighed dietary record (5·0 (sd 2·1) mg/d) was significantly greater than the current estimated average requirement (EAR; 2·5 mg/d; P r2 P>0·4, for all). Absolute Zn absorption was significantly related to Zn intake (r2 0·696; P r2 0·506; P sd 10·8) %) despite the high Zn intake. The EAR for Zn based on this dataset would appear to be between 4·2 and 4·7 mg/d to allow for a net average retention of 120 μg/d consistent with growth needs. We concluded that at relatively high Zn intakes there was little evidence of down regulation of absorption or up regulation of urinary or endogenous faecal Zn excretion across the intake range studied. Zn retention was positively correlated with intake. A Zn intake between 4·2 and 4·7 mg/d should meet the requirement for normal growth for this age group.

Published

2007

10. Profiles of faecal output of rare earth elements and stable isotopic tracers of iron and zinc after oral administration

Author

Ulvi Ulusoy, John E. Whitley, and Cumhuriyet Univ, Dept Chem, TR-58140 Sivas, Turkey -- Scottish Univ Res & Reactor Ctr, E Kilbride G75 0QF, Lanark, Scotland

Subjects

Lanthanide, Nutrition and Dietetics, Isotope, Period (periodic table), Chemistry, Stable isotope ratio, Rare-earth element, iron absorption, Radiochemistry, rare earth element markers, stable isotopes, Medicine (miscellaneous), chemistry.chemical_element, Mineralogy, Zinc, Excretion, TRACER, zinc absorption

Abstract

WOS: 000165553000004, PubMed ID: 11177173, The objectives of this study were to confirm the non-absorbability and the reproducibility of faecal excretion kinetics of orally administered rare earth elements, and to investigate the excretion profiles of rare earth elements and stable isotopic tracers of Fe and Zn to establish the extent to which rare earth element markers duplicate the behaviour of isotopic tracers. Two investigations were performed: (1) six healthy subjects consumed a solution containing five rare earth elements in amounts varying from 1 to 10 mg; (2) seven healthy subjects were given a standard solution labelled with Sm marker and Fe-57 tracer, and a meal labelled with Yb marker and Fe-58 and Zn-70 tracers. Individual faecal samples were collected and analysed to determine recoveries of rare earth elements and unabsorbed isotopic tracers. The mean values for recoveries were 94.1 (sd 4.5) % for the five rare earth elements, and 103 (sd 3.0) % and 99.8 (sd 2.8) % for Sm and Yb respectively. For Fe consumed with the solution, excretion kinetics of the rare earth element marker and unabsorbed tracers with cumulative collections of the first two and three faecal samples were identical, but endogenous excretion of Fe was significant (P

Published

2000

11. Effect of dietary phytic acid on zinc absorption in the healthy elderly, as assessed by serum concentration curve tests

Author

H. Dirren, S. Guinchard, Dirk H. Montagne, Robert Mansourian, François Couzy, and Arielle Labate

Subjects

Phytic acid, Nutrition and Dietetics, food and beverages, Medicine (miscellaneous), chemistry.chemical_element, Zinc, Zinc absorption, Absorption (skin), Healthy elderly, Serum concentration, Intestinal absorption, chemistry.chemical_compound, Animal science, chemistry, Biochemistry, Ingestion

Abstract

Zn absorption was investigated in healthy elderly subjects aged 71–78 years and in young subjects aged 23–43 years using serum concentration curve (SCC) tests. Both groups had similar Zn and protein status. The increase in serum Zn was monitored for 180 min after ingestion of 200ml of soya milk enriched with 50mg of Zn. Three levels of phytic acid were used: 0g/200ml (totally dephytinized soya milk), 0.13 g/200ml (half dephytinized), and 0.26 g/200ml (natural phytic acid content). In a first study the effect of 0v.0.26 g/200 ml phytic acid was compared in 10 elderly and 10 young subjects, each subject receiving both treatments. In a second study soya milks with 0 and 0.13 g/200ml were tested in nine elderly and ten young subjects, again receiving both treatments. Mean areas under the curve of the SCC tests conducted with the 0 g/200 ml soya milk were found to be the same in both studies. Phytic acid strongly depressed Zn absorption in both studies (P≤ 0.05), but to a greater extent at the 0.26 g/200ml level. No difference was found between the groups of young and elderly subjects. Therefore, no significant effect of aging on Zn absorption, as evaluated by the SCC test, or on the inhibitory effect of phytic acid was detected.

Published

1998

12. Zinc absorption in adult humans: the effect of iron fortification

Author

Annette Almgren, Lena Davidsson, Brittmarie Sandström, and Richard F. Hurrell

Subjects

Adult, Male, Nutrition and Dietetics, Chemistry, Iron, Fortification, Wheat flour, Medicine (miscellaneous), chemistry.chemical_element, Iron fortification, Zinc absorption, Zinc, Intestinal Absorption, Infant formula, Isotope Labeling, Food, Fortified, Humans, Weaning, Female, Food science, Fortified Food

Abstract

The effect of Fe fortification on the absorption of Zn was studied by radioisotopic labelling of single meals, followed by measurements of whole-body retention of 65Zn at 14 d after intake. Healthy adult volunteers participated in the study. Weaning cereal, wheat bread and infant formula, foods that are all frequently Fe-fortified, were evaluated in the study. The amounts of Fe added as FeSO4 were similar to the levels in commercial products in Europe and the USA, and were 200 or 500 mg Fe/kg (weaning cereal), 65 mg Fe/kg (white wheat flour) and 12 mg Fe/1 (infant formula). For comparison, Zn absorption was measured in the same subjects, from identical test meals containing no added Fe. No statistically significant differences were found when Zn absorption from the Fe-fortified test meals was compared with that from non-Fe-fortified test meals. Fractional Zn-absorption values from Fe-fortified v. non-fortified meals were 31·1 (sd 1·19) v. 30·7 (SD 7·0)% (weaning cereal; 200 mg Fe/kg), 37·7 (SD 16·6) v. 30·2 (SD 9·9)% (weaning cereal; 500 mg Fe/kg), 36·5 (SD 14·4) v. 38·2 (SD 18·1)% (bread; 65 mg Fe/kg flour) and 41·6 (SD 8·1) v. 38·9 (SD 14·5)% (infant formula; 12 mg Fe/1). The addition of Fe to foods at the currently used fortification levels was thus not associated with impaired absorption of Zn and the consumption of these Fe-fortified foods would not be expected to have a negative effect on Zn nutrition.

Published

1995

13. Letters to the Editors

Author

G. O. Latunde-Dada, Susan J. Fairweather-Tait, Anthony J. A. Wright, and Colette Short

Subjects

Nutrition and Dietetics, Bran, biology, Chemistry, Medicine (miscellaneous), Sugar beet, Zinc absorption, Food science, biology.organism_classification

Published

1991

14. The effect of moderately increased intakes of complex carbohydrates (cereals, vegetables and fruit) for 12 weeks on iron and zinc metabolism

Author

Patricia A. Judd, John Eagles, Margret J. Minski, Susan J. Fairweather-Tait, and Pamela M. Mason

Subjects

Adult, Nutrition and Dietetics, Adolescent, Iron, Biological Availability, Medicine (miscellaneous), chemistry.chemical_element, Zinc absorption, Zinc, Metabolism, Carbohydrate, Biology, Absorption, Diet, Adult women, Feces, Animal science, chemistry, Botany, Dietary Carbohydrates, Humans, Female, Bowel function, Legume

Abstract

Fifteen adult women were given diets in which the intake of complex carbohydrates was increased from 20 to 30 g over a 12 week period. Metabolic balances were carried out, iron and zinc absorption tests performed using stable isotopes, and Fe and Zn status monitored. Although effects on bowel function were observed, the changed diet had no influence on any of the previously described variables. It was concluded that a moderate increase in cereals, fruit and vegetables did not have an adverse effect on Fe or Zn nutrition.

Published

1990

15. Zinc absorption in adult men from a chicken sandwich made with whiteor wholemeal bread, measured by a double-label stable-isotope technique

Author

Fox, Thomas E., Fairweather-Tait, Susan J., Wharf, S. Gabrielle, Eagles, John, and Kennedy, Hugh

Published

1992

16. Effect of caffeine on zinc absorption and Zn concentration in rat tissue

Author

Nakamoto, Tetsuo and Rossowska, Magdalena J.

Published

1990

17. The effects of sugar-beet fibre and wheat bran on iron and zinc absorption in rats

Author

Fairweather-Tait, Susan J. and Wright, A. J. A.

Published

1990

18. The effect of three types of saponin on iron and zinc absorption from a single meal in the rat

Author

Southon, Susan, Fairweather-Tait, S. J., Wright, A. J. A., Fenwick, G. R., and Price, K. R.

Published

1988

19. The effect of vegetables and beet fibre on the absorption of zinc inhumans from composite meals

Author

Sandstrom, Brittmarie, Davidsson, Lena, Hasselblad, Claes, Kivisto, Barbro, and Cederblad, Ake

Published

1987

20. Reduction of the phytate content of bran by leavening in bread and its effect on zinc absorption in man

Author

Sandstrom, Brittmarie, Cederblad, Ake, and Navert, Barbro

Published

1985

21. Zinc absorption in the rat

Author

Jones, D. A., Jackson, M. J., and Edwards, R. H. T.

Published

1981

22. Reduction of the phytate content of bran by leavening in bread and its effect on zinc absorption in man

Author

B Nävert, Å. Cederblad, and B Sandström

Subjects

Adult, Dietary Fiber, Male, Time Factors, Phytic Acid, Biological Availability, Medicine (miscellaneous), chemistry.chemical_element, Zinc, Zinc absorption, Absorption, chemistry.chemical_compound, Humans, Food science, Leavening agent, Meal, Phytic acid, Nutrition and Dietetics, Bran, digestive, oral, and skin physiology, food and beverages, Bread, Middle Aged, chemistry, Fermentation, Calcium, Female, Dietary fiber

Abstract

1. The effect of leavening of bread containing bran on the phytic acid content and on zinc absorption in man was studied.2. Twenty breads with leavening times varying from 0 to 120 h were prepared. The breads contained 250 g wheat bran/kg flour. The phytic acid content was determined after baking.3. The phytic acid content of bread containing bran was reduced to about 40% after 2 h of leavening and to 15 % after 2 d. No further decrease was observed.4. Zn absorption from single meals was determined using a radioisotope technique. Forty-two students volunteered for these studies. They were served a breakfast of milk, butter, bread and 10, 16 or 30 g bran served either raw or baked into the bread with fermentation times of 15 min, 45 min, 3 h or 16 h. One meal contained no bran, but phytate and Zn were added in amounts equivalent to the content of 10 g bran.5. The amount and percentage of Zn absorbed increased at each bran level as fermentation was prolonged. The percentage of Zn absorbed was reduced by increased bran content in the meal.6. It is concluded that the fermentation of bread containing bran reduces the phytic acid content and increases Zn absorption from such bread. This may be of importance to people subjected to diets with a high cereal content, especially in combination with a low animal-protein intake.

Published

1985