Your search keyword '"Mary Frances Lynch"' showing total 3 results

1. 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

2. Calcium balance in 1–4-y-old children

Author

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

Subjects

medicine.medical_specialty, Birth weight, Medicine (miscellaneous), chemistry.chemical_element, Calcium, Intestinal absorption, law.invention, Nutrient, Animal science, Randomized controlled trial, Reference Values, law, Internal medicine, medicine, Birth Weight, Humans, Calcium metabolism, Bone growth, Bone Development, Nutrition and Dietetics, Infant, Newborn, Infant, United States, Diet, Bioavailability, Calcium, Dietary, Endocrinology, Intestinal Absorption, chemistry, Child, Preschool

Abstract

Few calcium balance data are available from young children on which to base dietary recommendations.The objective of the study was to evaluate the relation between calcium intake and balance in healthy children aged 1-4 y consuming typical American diets.Subjects were assigned to a diet with nutrient intakes similar to those of their usual diet. Calcium absorption was assessed by using a dual-tracer stable-isotope technique. Endogenous fecal excretion was measured in a subset of children, and net calcium balance was calculated.Mean calcium intake was 551 mg/d (range: 124-983 mg/d), and mean (+/-SEM) calcium retention was 161 +/- 17 mg/d. Both linear and nonlinear modeling of balance data showed that a calcium intake of approximately 470 mg/d led to calcium retention of 140 mg/d, which is the amount that meets expected bone growth needs in children of this age. No evidence was found that calcium intakes of 800 to 900 mg/d reached the threshold intake beyond which no additional increase in calcium retention would occur.Bone growth needs in 1-4-y-old children following American diets are met by a daily calcium intake of approximately 470 mg/d, which suggests that the current Adequate Intake of 500 mg/d is close to the actual Estimated Average Requirement. The benefits and risks of higher calcium intakes consistent with threshold values should be evaluated in a controlled trial before those intakes could be used as a basis for dietary recommendations.

Published

2007

3. Iron absorption is more closely related to iron status than to daily iron intake in 12- to 48-mo-old children

Author

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

Subjects

Male, Reference dose, Iron intake, Meal, Nutrition and Dietetics, Chemistry, Iron absorption, Iron, Medicine (miscellaneous), Administration, Oral, Infant, Absorption (skin), Micronutrient, Ascorbic acid, Iron Isotopes, Intestinal absorption, Hemoglobins, Animal science, Biochemistry, Intestinal Absorption, Child, Preschool, Ferritins, Humans, Female

Abstract

Few studies have evaluated iron absorption in small children after the first year of life. Our objectives were to examine the relations among iron intake, iron absorption, and iron status in a group of healthy children. We studied 28 children, ages 12 to 48 mo, after a 7-d home adaptation to a diet representative of their usual daily mineral intake. A multi-tracer stable isotope study was performed to assess iron absorption both from a meal ((58)Fe) and from a reference iron dose ((57)Fe) given with ascorbic acid without a meal. Iron intake was 6.9 +/- 2.4 mg, approximately the 35th percentile of typical U.S. intakes. Absorption of (58)Fe was related to serum ferritin (r(2) = 0.319, P = 0.0018) and more so to reference dose iron absorption (r(2) = 0.653, P0.0001). Iron absorption was negatively correlated with zinc intake (r(2) = 0.090, P = 0.0049) but was not correlated with iron intake (P = 0.20). However, zinc intake was not correlated with measures of iron status, including reference dose iron absorption and serum ferritin (r(2)0.1, P0.25). Total absorbed iron was similar to needs estimated by the Institute of Medicine. We conclude that iron absorption in young children is more closely related to iron status than to iron intake. Reference dose iron absorption may be superior to serum ferritin as a surrogate measure for iron status in this age group. Although zinc intake may affect iron absorption from a meal, it does not appear to have a detectable effect on overall iron status in otherwise well-nourished children.

Published

2006