Abstract
Simple SummaryThe gastrointestinal tract; as an important mediator of nutrients and elements; regulates bone health. In this study, we examined the effect of supplementation with yeast Saccharomyces cerevisiae on bone characteristics in young Japanese quails. We found that yeast probiotics, through their action on the gut-bone axis, have a positive effect on the structure of articular cartilage and microarchitecture of trabecular bone in young female quails. These data could provide useful information for further research into the supplementation with yeast probiotics aimed to reduce the risk bone fractures during the egg-laying periodThe aim of the study was to investigate the changes in bone geometry, histological structure, and selected mechanical characteristics in young male and female Japanese quails supplemented with Saccharomyces cerevisiae. Quails were fed a basal diet containing no yeast or a basal diet supplemented with 1.5% (15 g per 1 kg of diet) of inactive S. cerevisiae, for a period of 42 days. S. cerevisiae inclusion had no effect on bone weight, length, and density, diaphysis geometry (cross-sectional area, wall thickness, moment of inertia) or on the mechanical strength (yield load, ultimate load, stiffness, Young’s modulus, yield stress, ultimate stress). Yeast supplementation improved the morphology of the articular cartilage both in male and female quails, as the total thickness of the articular cartilage was significantly increased. In trabecular bone, an increase in real bone volume and trabecular thickness was observed in females supplemented with S. cerevisiae, while in males the increase in trabecular number was accompanied by a reduction in trabecular thickness. The results of the present study demonstrate that S. cerevisiae, through a sex-dependent action on the gut-bone axis, improved the structure of articular cartilage and microarchitecture of trabecular bone. The positive effects of S. cerevisiae supplementation were more evident in female quails.
Highlights
The gastrointestinal tract, as an important mediator of nutrients and elements, has been known to regulate bone health through the absorption of bone minerals, including the essential macroelements, calcium and phosphorous
There was a significant effect of sex on bone volumetric density (p < 0.001) and bone ash percentage (p < 0.001), both of which were greater in females
Cross-sectional moment of inertia (CSMI) and radius of gyration of bone diaphysis cross-section were dependent on quails’ sex, with greater values observed in females (p < 0.05 in both cases)
Summary
The gastrointestinal tract, as an important mediator of nutrients and elements, has been known to regulate bone health through the absorption of bone minerals, including the essential macroelements, calcium and phosphorous. Recent research performed on both mammals and avian species has suggested the existence of a “gut-bone axis”, which indicates that the digestive tract might have an even more complex role the in the maintenance of bone homeostasis [1]. Several studies have shown positive effects of brewer’s yeast Saccharomyces cerevisiae probiotic on poultry performance, health, and feed efficiency [5,6]. It has been reported that yeast probiotics have a stimulatory effect on bone development [7,8,9] which has been related, among others, to the phytase activity of S. cerevisiae, releasing minerals from phytic acid complex [10,11].
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