Your search keyword '"Navarro MP"' showing total 3 results

1. Effects of model Maillard compounds on bone characteristics and functionality.

Author

Roncero-Ramos I, Delgado-Andrade C, Rufián-Henares JÁ, Carballo J, and Navarro MP

Subjects

Animals, Arginine analogs & derivatives, Arginine chemistry, Arginine metabolism, Biomarkers, Biomechanical Phenomena, Bone Resorption chemically induced, Bone and Bones chemistry, Bone and Bones physiology, Collagen Type I metabolism, Female, Lysine analogs & derivatives, Lysine metabolism, Rats, Rats, Wistar, Bone and Bones drug effects, Glucose chemistry, Glycation End Products, Advanced pharmacology, Lysine chemistry, Maillard Reaction

Abstract

Background: Physical and biomechanical properties of bone can be affected by non-enzymatic crosslinks, which are implicated in bone pathologies such as osteoporosis. The purpose of this study was to analyse the effects of the consumption of model Maillard reaction product (MRP) from glucose-lysine heated for 90 min at 150 °C (GL90) on bone composition and features. Rats were fed either a control diet or a diet containing 30 g kg(-1) GL90 for 88 days. Food consumption and the animals' body weights were monitored. After sacrifice, the femur, pelvic bone and tibia were removed for analysis of their composition and physical and biomechanical properties., Results: The organic matrix of the femur and the density of the pelvic bone decreased after MRP intake, whereas pentosidine content increased greatly with respect to the control group (41.7 ± 9.9 vs 171.4 ± 3.3 mmol mol(-1) collagen). The rising level of C-telopeptide degradation products from type I collagen (β-CTX) suggested a possible situation of increased bone resorption and/or higher turnover., Conclusion: In conjunction, the detrimental effect on the organic matrix, the situation of higher resorption and/or bone turnover indicated by the β-CTX values and the high pentosidine content in bone provoked negative consequences on certain mechanical properties such as the ability to withstand force and absorb energy without failure., (© 2013 Society of Chemical Industry.)

Published

2013

2. Influence of Maillard products from bread crust on magnesium bioavailability in rats.

Author

Roncero-Ramos I, Delgado-Andrade C, Morales FJ, and Navarro MP

Subjects

Animal Feed, Animals, Biological Availability, Diet, Random Allocation, Rats, Bread analysis, Magnesium pharmacokinetics, Maillard Reaction

Abstract

Background: Consumption of Maillard reaction products (MRPs) present in food has been related to deterioration of protein digestibility and changes in mineral bioavailability. We aimed to investigate the effects of MRP intake from bread crust on magnesium balance and tissue distribution, seeking causative factors among its different components., Results: During the final stage of the trial, magnesium digestibility improved by around 15% in rats fed diets containing bread crust or its derivatives compared with the control diet. Despite certain enhancements in magnesium bioavailability in this stage, for the experimental period as a whole, this parameter remained unchanged. However, specific changes in the content and/or concentration in some organs were observed, particularly in the femur, where magnesium levels were higher due to the smaller size of the bones., Conclusions: Consumption of MRPs from bread crust or its different components did not modify the magnesium balance. Nevertheless, the bread crust fractions led to some changes in magnesium tissue distribution which did not match the effects induced by complete bread crust intake, suggesting the importance of designing studies with real-food systems, in order to reinforce the validity of the findings obtained., (© 2012 Society of Chemical Industry.)

Published

2013

3. Does the pelleting process affect the nutritive value of a pre-starter diet for suckling piglets? Ex vivo studies on mineral absorption.

Author

Delgado-Andrade C, Rufián-Henares JA, Nieto R, Aguilera JF, Navarro MP, and Seiquer I

Subjects

Animals, Animals, Suckling, Caco-2 Cells, Calcium analysis, Calcium chemistry, Calcium pharmacokinetics, Cell Membrane Permeability, Color, Digestion, Fluorescence, Furaldehyde analogs & derivatives, Furaldehyde analysis, Hot Temperature adverse effects, Humans, Lysine analogs & derivatives, Lysine analysis, Magnesium analysis, Magnesium chemistry, Magnesium pharmacokinetics, Maillard Reaction, Minerals analysis, Minerals chemistry, Nutritive Value, Solubility, Swine, Zinc analysis, Zinc chemistry, Zinc pharmacokinetics, Animal Feed analysis, Animal Husbandry methods, Intestinal Absorption, Minerals pharmacokinetics

Abstract

Background: The effects of pelleting on the extent of the Maillard reaction (MR) and on calcium, magnesium and zinc solubility and absorption were analysed in a conventional pre-starter diet for suckling piglets. Development was tested measuring colour, absorbance (280/420 nm), fluorescence, residual free lysine, furosine, hydroxymethylfurfural (HMF) and furfural contents before and after pelleting. Fluorescence, absorbance and mineral solubility were also measured after in vitro digestion of diets. The effects on mineral absorption were tested using Caco-2 cells., Results: MR indexes confirmed the development of the reaction during the pelleting of this particular diet compared with the meal diet. The CIE-Lab colour parameters showed a decrease in luminosity (L*) and progress of the colour to the red zone (a*) in the pelleted diet. A 36% decrease in free lysine content was observed. Significant correlations were observed between fluorescence intensity and furosine levels, HMF and furfural. The pelleting process did not modify calcium and magnesium solubility after in vitro digestion, but soluble zinc increased. The efficiency of calcium and zinc transport across Caco-2 cell monolayers was greater in the pelleted diet., Conclusions: Evidence of MR development is shown, resulting in various nutritional consequences. Optimisation of pelleting could result in a better formulation of diets for feedstuffs., ((c) 2010 Society of Chemical Industry.)

Published

2010