Jill Mackenzie scite author profile

Jill Mackenzie

4Publications

43Citation Statements Received

34Citation Statements Given

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Eastern Illinois University, Nestlé (Switzerland), Novem (Netherlands)

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Dietary Fiber in Weaning Cereals: A Study of the Effect on Stool Characteristics and Absorption of Energy, Nitrogen, and Minerals in Healthy Infants

Davidsson

Mackenzie

Kastenmayer

et al. 1996

Journal of Pediatric Gastroenterology & Nutrition

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We evaluated the effect of increased dietary fiber (DF) content in weaning cereals based on wheat/soy (8.0 and 1.8% DF) and wheat/milk (5.3 and 2.0% DF) in healthy, formula-fed infants 7-17 weeks old. The study had a cross-over design, each infant acting as his or her own control. Stool characteristics and anthropometry were monitored over 4-week periods in groups of 34 (wheat/soy) and 23 (wheat/milk) infants. Absorption of zinc (Zn) and calcium (Ca) was studied by measuring the fecal excretion of stable isotopes during 72 h (70Zn and 42Ca) in a subgroup of the infants consuming wheat/soy cereals. Iron (Fe) bioavailability was evaluated by analysis of the incorporation of 58Fe into erythrocytes 14 days after administration. Fractional absorption (X +/- SD: 8.0 versus 1.8% DF) was 45.3 +/- 27.5 versus 41.2 +/- 19.4% of 70Zn and 63.4 +/- 15.8 versus 64.4 +/- 10.6% of 42Ca. Bioavailability of 58Fe varied between 1.0% and 5.4% (8.0% DF) and from <0.9% to 9.1% (1.8% DF). No significant difference in energy (95.3 +/- 2.0% versus 95.7 +/- 1.2%) or nitrogen (92.6 +/- 2.3% versus 93.0 +/- 1.6%) apparent absorption from the total diet was found during consumption of cereal with 8.0 and 1.8% DF. The intake of cereal decreased with higher DF content in the wheat/soy product: 34 +/- 23 g/d (8.0% DF) versus 42 +/- 23 g/d (1.8% DF), p < 0.01. While consuming the 8.0% DF product, 11 infants were reported to have "gritty stools"; no other differences were observed between different groups in stool characteristics or anthropometry. These results demonstrate no negative effect on the absorption of energy and nutrients with higher dietary fiber intake in primarily formula-fed infants. The impact of increased dietary fiber levels remains unknown in less well-nourished infants.

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Zinc and calcium apparent absorption from an infant cereal: a stable isotope study in healthy infants

et al. 1996

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Zinc and calcium apparent absorption from an infant cereal: A stable isotope study in healthy infants

Davidsson¹,

Mackenzie²,

Kastenmayer³

et al. 1996

br j nutr

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Fractional apparent absorption of Zn and Ca from a wheat-milk-based infant cereal was studied in six healthy infants (18-30 weeks old). Mineral absorption was measured by a stable-isotope technique based on faecal excretion of the isotopes. Each test meal (40 g cereal) was extrinsically labelled with 70Zn and 42Ca before intake. All faecal material passed during the 21 d following intake of the labelled test meal was collected on trace-element-free nappies. Individual stool samples were analysed for their content of ' OZn and 42Ca by thermal ionization mass spectrometry. Apparent absorption was calculated as intake minus total faecal excretion of the isotopes over 68-92 h after administration. The fractional apparent absorption values for Zn and Ca were 33.9 (SD 164) YO (range 19.2-639 YO) and 53.5 (SD 12.6) % (range 36.7-71.7 %) respectively. Re-excretion of absorbed 70Zn (> 68-92 h to 21 d after intake of the labelled meal) was 044 (SD 038) % of administered dose while only one infant re-excreted detectable amounts of "Ca (1.74% of administered dose). The analysis of individual stool samples confirmed that 72 h is a sufficient time period for complete collections of non-absorbed isotopes in faecal material from infants during the weaning period and that re-excretion of initially absorbed ' OZn and "Ca (> 68-92 h to 21 d after intake of the labelled meal) is negligible.Zinc: Calcium: Weaning cereal: Stable isotopeThe estimation of mineral and trace element requirements of infants, and the ability to establish dietary recommendations for these nutrients during early life, is limited by the lack of information from studies with infants. Nutrient bioavailability, which includes absorption and retention of the nutrients, is a necessary component in these estimates since only the absorbed and retained fraction of a nutrient can be utilized by the body. The bioavailability of trace elements and minerals varies over a wide range, depending on the amount of the mineral in the diet, the presence of enhancers and inhibitors as well as on the chemical form of the mineral in the diet (Turnlund, 1991). Information on the total content of minerals in the diet is thus only of limited value when evaluating the nutritional impact of different diets.The stable-isotope technique is an excellent tool for studies of absorption and retention of trace elements and minerals, which does not introduce any risk to the subjects Turnlund, 1991 ;Davidsson, 1994). The 'faecal monitoring' method is the most commonly used for studies in infants. Previous studies of Zn and Ca absorption from infant foods by infants, using the stable-isotope technique, have measured absorption by analysing the non-absorbed isotope in faeces . In some studies two isotopes of different elements were added simultaneously to

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Do Pre-Meal To-Go Boxes Affect the Amount of Food Consumed in a Restaurant Setting?

Schuster

Carlson

Mackenzie

et al. 2014

Journal of the Academy of Nutrition and Dietetics

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Jill Mackenzie

Dietary Fiber in Weaning Cereals: A Study of the Effect on Stool Characteristics and Absorption of Energy, Nitrogen, and Minerals in Healthy Infants

Zinc and calcium apparent absorption from an infant cereal: a stable isotope study in healthy infants

Zinc and calcium apparent absorption from an infant cereal: A stable isotope study in healthy infants

Do Pre-Meal To-Go Boxes Affect the Amount of Food Consumed in a Restaurant Setting?

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