Effect of a mixture of GOS/FOS® on calcium absorption and retention during recovery from protein malnutrition: experimental model in growing rats

Gabriel Bryk; Magalí Zeni Coronel; Carlos Lugones; Patricia Mandalunis; María Esther Rio; Ariel Felix Gualtieri; María Luz Pita Martín de Portela; Susana Noemí Zeni

doi:10.1007/s00394-015-1052-5

Effect of a mixture of GOS/FOS^® on calcium absorption and retention during recovery from protein malnutrition: experimental model in growing rats

Eur J Nutr. 2016 Dec;55(8):2445-2458. doi: 10.1007/s00394-015-1052-5. Epub 2015 Sep 26.

Authors

Gabriel Bryk^{1

2}, Magalí Zeni Coronel², Carlos Lugones², Patricia Mandalunis³, María Esther Rio⁴, Ariel Felix Gualtieri⁵, María Luz Pita Martín de Portela⁶, Susana Noemí Zeni^{7

8}

Affiliations

¹ General and Oral Biochemistry Department, School of Dentistry, Buenos Aires University (UBA), Av. Córdoba 2351-8vo. Piso (1120), Buenos Aires, Argentina.
² Metabolic Bone Diseases Laboratory, Clinical Hospital, Immunology, Genetic and Metabolism Institute (INIGEM), National Council for Scientific and Technologic Research (CONICET), Buenos Aires University (UBA), Buenos Aires, Argentina.
³ Histology and Embryology Department, School of Dentistry, Buenos Aires University (UBA), Buenos Aires, Argentina.
⁴ National Council for Scientific and Technologic Research (CONICET), Buenos Aires, Argentina.
⁵ Biophysics Department, School of Dentistry, Buenos Aires University (UBA), Buenos Aires, Argentina.
⁶ Food Science and Nutrition Department, School of Pharmacy and Biochemistry, Buenos Aires University (UBA), Buenos Aires, Argentina.
⁷ General and Oral Biochemistry Department, School of Dentistry, Buenos Aires University (UBA), Av. Córdoba 2351-8vo. Piso (1120), Buenos Aires, Argentina. snzeni@hotmail.com.
⁸ Metabolic Bone Diseases Laboratory, Clinical Hospital, Immunology, Genetic and Metabolism Institute (INIGEM), National Council for Scientific and Technologic Research (CONICET), Buenos Aires University (UBA), Buenos Aires, Argentina. snzeni@hotmail.com.

PMID: 26410393
DOI: 10.1007/s00394-015-1052-5

Abstract

Introduction: During growth, protein deprivation impairs epiphyseal growth plate (EGP) height, bone volume (BV) and endochondral ossification. During catch-up growth, Ca availability becomes essential to ensure the extra amount needed to achieve optimal peak bone mass and strength. GOS and FOS improve mineral absorption in the colon.

Purpose: The effect of a mixture of GOS/FOS^® 9:1 added to a 0.5 %Ca (NCa) and a 0.3 %Ca (LCa) diets on Ca, P and Mg absorptions and bone mineralization, density and structure using an experimental model of growing rats recovering from early protein malnutrition was investigated.

Methods: To induce protein malnutrition, rats were fed a low protein diet: 4 % (LPD) during 1 week and then were randomly assigned to recovery groups (R) until day 50 (T = 50) as follows: R0.5 %: NCa; RP0.5 %: NCa + 5.3 % GOS/FOS^®; R0.3 %: LCa and RP0.3 %: LCa + 5.3 % GOS/FOS^®. Control groups received the 0.5 %Ca or 0.3 %Ca diet from weaning until day 40 or 50.

Results: Body weight and length increased in C groups throughout the study; both were arrested in all R during LPD consumption and increased immediately after re-feeding. Independently of dietary Ca content, LS counts, β-glucosidase and Ca, P and Mg absorption increased, whereas cecum pH, β-glucuronidase, urease and tryptophanase decreased in RP0.5 %: and RP0.3 %: as compared to the other studied groups (p < 0.01). Prebiotic consumption decreased CTX levels and increased femur Ca, Mg and P contents, total skeleton bone mineral content, proximal tibia and spine BMD, BV, EGP height and hypertrophic zone thickness, stiffness and elastic modulus as compared to recovery groups fed the prebiotic-free diets.

Conclusion: Under the present experimental conditions, GOS/FOS^® mixture induced colonic positive effects, which increased Ca, P and Mg absorption. Thus, consuming the prebiotic-containing diet resulted in an extra amount of minerals that improved bone development in growing rats recovering from protein malnutrition.

Keywords: Calcium absorption; Calcium retention; Catch-up growth; Fructo-oligosaccharides; Galacto-oligosaccharides; Undernourished rats.

MeSH terms

Animals
Biological Availability
Body Weight
Bone Density / drug effects
Bone Development / drug effects
Calcification, Physiologic / drug effects
Calcium, Dietary / administration & dosage
Calcium, Dietary / blood
Calcium, Dietary / pharmacokinetics*
Cecum / drug effects
Cecum / metabolism
Diet
Feces / chemistry
Femur / drug effects
Femur / physiology
Glucuronidase / metabolism
Growth Plate / drug effects
Growth Plate / physiology
Intestinal Absorption
Magnesium / administration & dosage
Magnesium / blood
Magnesium / pharmacokinetics
Male
Oligosaccharides / administration & dosage*
Oligosaccharides / blood
Oligosaccharides / pharmacokinetics
Phosphorus, Dietary / administration & dosage
Phosphorus, Dietary / blood
Phosphorus, Dietary / pharmacokinetics
Prebiotics / administration & dosage
Protein-Energy Malnutrition / blood
Protein-Energy Malnutrition / drug therapy*
Rats
Rats, Wistar
Trisaccharides / administration & dosage*
Trisaccharides / blood
Trisaccharides / pharmacokinetics
Tryptophanase / metabolism
Urease / metabolism

Substances

Calcium, Dietary
Oligosaccharides
Phosphorus, Dietary
Prebiotics
Trisaccharides
fructooligosaccharide
4'-galactooligosaccharide
Glucuronidase
Urease
Tryptophanase
Magnesium