Bone Abstracts

It has suggested that BGP is inversely related to body fat. BGP appears to regulate energetic metabolism through the insulin receptor signaling pathway in the osteoblast, which affects bone resorption and BGP activity. Fat tissue is an endocrine organ that secretes different hormones and growth factors; several of them affect bone remodeling and insulin secretion. The present report comparatively studied total BGP levels, glucose homeostasis and body fat mass in spontaneous ob...

A mixture of Galacto-oligosaccharides (GOS) and Fructooligosaccharides (FOS) are added to commercial infant formula to promote an intestinal microbiota similar to that prevalent in breast-fed infants to improve Ca bioavailability and general health, but their mechanisms are under debate.Our objective was to evaluate the beneficial effects of the mixture of GOS/FOS added to infant formulae, on the absorption of Ca, Mg and P of a low Ca diet. Changes in in...

During early life undernutrition impairs normal weight and height gain that affects bone health. During recovering it is required an extra-amount of Ca to ensure the high demands of bone mineralization. A mixture of galactooligosaccharides (GOS) and fructooligosaccharides (FOS) would be a useful tool to increase mineral intestinal absorption to enhancing the amount of Ca to be retained into bone. Our objective was to evaluate, in an experimental model of protein restriction (P...

Objectives: The skeleton is not a single functional unit but consists of different, well-organized and mineralized compartments with specific functions, developmental aspects and regulations. Differences in the regulation of spinal and long bone elongation are mirrored clinically by the age course in body proportions. Whereas growth plates (GPs) in long bones can easily be discriminated, vertebral GPs are part of the cartilaginous endplate, which typically shows important spec...

Objectives: To estimate the status of 25-hydroxyvitamin D in healthy Mexican children and to describe factors related to vitamin D deficiency.Methods: A cross-sectional study was conducted in children 2–14 years old in Mexico City and Toluca Edo de Mexico. Trained interviewers applied a questionnaire including all relevant demographics, medical history, sun exposure, sunblock use and skin phototype. Morning fasting blood was collected in all subject...

Introduction: Hypophosphatasia is a rare genetic disease caused by a mutation in the tissue-nonspecific alkaline phosphatase gene. TNSALP gene is located on the short arm of chromosome 1 (1p36.1-34). Over 200 point mutations have been described for this gene so far. Hypophosphatasia is inherited in an autosomal recessive or dominant way, which is related to the severity of symptoms. Pathophysiology of this disease is associated with the impaired function of osteoblasts that do...

Introduction: Most chronic inflammatory bone diseases are characterized by loss of bone density due to an increase of osteoclastic activity without equally increased osteoblast activity which in turn is leading to an imbalance in bone repair and remodelling. Several studies have reported that green tea rich in polyphenols especially catechins could improve bone mass and structure and eventually increase bone formation. Data on black tea, also rich in polyphenols especially the...

Introduction: Recent studies have found anti-inflammatory, antioxidant and bone forming properties of green (GTP) and black tea (BTP) polyphenols. However most of these studies are focussed on specific genes or pathways. We wanted to know if GTP and BTP could help to reduce symptoms of chronic inflammation especially bone loss and what are the possible genes and pathways involved. We were especially interested in unexplored pathways which may play a role in regaining bone heal...

Objectives: Dysregulation of systemic phosphate homeostasis is often associated with impairment of musculoskeletal tissue function. Many factors such as calcium levels and dysegulated endocrine mechanisms are thought to contribute. Inorganic phosphate and FGF23 have been shown to act via similar signaling pathways in several cell types but we are not aware of any detailed investigations into their effect on the differentiation and viability of skeletal muscle cells. W...

Background: Disturbance of systemic phosphate homeostasis is often associated with musculoskeletal dysfunction. Multiple factors related to the underlying condition such as calcium levels and endocrine mechanisms are thought to contribute. Distinct effects of inorganic phosphate itself as well as its main regulator FGF23 by activation of similar pathways have been shown in several cell types. We are not aware of any detailed investigations into their effect on the differentiat...