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Query: UMLS:C0020438 (
hypercalciuria
)
2,502
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Bone health, characterized by its mass, density, and micro-architectural qualities, is maintained by a balanced system of remodeling. The lack of these qualities, caused by an uncoupling of the remodeling process, leads to bone fragility and an increased risk for fracture. The prime regulator of bone remodeling is the RANK/RANKL/
OPG
system. The common origin of both bone and immune stem cells is the key to understanding this system and its relationship to the transcription factor nuclear factor kappaB in bone loss and inflammation. Via this coupled osteo-immune relationship, a catabolic environment from heightened proinflammatory cytokine expression and/or a chronic antigen-induced activation of the immune system can initiate a switch-like diversion of osteoprogenitor-cell differentiation away from monocyte-macrophage and osteoblast cell formation and toward osteoclast and adipocyte formation. This disruption in bone homeostasis leads to increased fragility. Dietary and specific nutrient interventions can reduce inflammation and limit this diversion. Common laboratory biomarkers can be used to assess changes in body metabolism that affect bone health. This literature review offers practical information for applying effective strategic nutrition to fracture-risk individuals while monitoring metabolic change through serial testing of biomarkers. As examples, the clinician may recommend vitamin K and potassium to reduce
hypercalciuria
, _-lipoic acid and N-acetylcysteine to reduce the bone resorption marker N-telopeptide (N-Tx), and dehydroepiandrosterone (DHEA), whey, and milk basic protein (the basic protein fraction of whey) to increase insulin-like growth factor-1 (IGF-1) and create a more anabolic profile.
...
PMID:Osteoporosis: integrating biomarkers and other diagnostic correlates into the management of bone fragility. 1760 58
The present study aimed to investigate bone microarchitecture of the proximal tibia in glucocorticoid-induced osteoporosis (GIOP) mice, and the underlying molecular mechanisms of curcumin in DXM-induced osteoporosis were performed. DXM-treated facilitated to induce
hypercalciuria
in mice, and curcumin-treated showed a decrease in urine calcium. Curcumin reversed DXM-induced bone resorption, including an increase in serum OCN and a decrease in bone resorption markers CTX and TRAP-5b. H&E staining showed the increased disconnections and separation in trabecular bone network as well as the reduction of trabecular thickness throughout the proximal metaphysis of tibia in GIOP group. Importantly, curcumin reversed DXM-induced trabecular deleterious effects and stimulated bone remodeling. The further evidence showed that curcumin supplement significantly decreased the TRAP-positive stained area and inhibited the activity of
OPG
/RANKL/RANK signaling in the GIOP mice. Moreover, bioinformatics analysis suggested that miR-365 was a regulator of MMP9. The levels of miR-365 were markedly suppressed; however, curcumin treatment could reverse the downregulation of miR-365 in the tibia of GIOP mice. Simultaneously, the results demonstrated that the mRNA and protein expression of MMP-9 were significantly increased in GIOP mice compared with that of the control group. Curcumin treatment could suppress the expression of MMP-9 in the tibia of GIOP mice. The present study demonstrated the protective effects of curcumin against bone deteriorations in the experimentally DIOP mice, and the underlying mechanism was mediated, at least partially, through the activation of microRNA-365 via suppressing MMP9.
...
PMID:Curcumin improves bone microarchitecture in glucocorticoid-induced secondary osteoporosis mice through the activation of microRNA-365 via regulating MMP-9. 2688 38
