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Controlling the strontium-doping in calcium phosphate microcapsules through yeast-regulated biomimetic mineralization.In vitro evaluation of bioactive strontium-based ceramic with rabbit adipose-derived stem cells for bone tissue regeneration.Intra-clutch and inter-colony variability in element concentrations in eggshells of the black-headed gull, Chroicocephalus ridibundus, in northern PolandMeasurement of the microdistribution of strontium and lead in bone via benchtop monochromatic microbeam X-ray fluorescence with a low power source.Strontium is incorporated in different levels into bones and teeth of rats treated with strontium ranelate.Strontium ranelate: a novel treatment for postmenopausal osteoporosis: a review of safety and efficacyEffects of feed supplementation on mineral composition, mechanical properties and structure in femurs of Iberian red deer hinds (Cervus elaphus hispanicus)Porous allograft bone scaffolds: doping with strontium.Avoiding toxic levels of essential minerals: a forgotten factor in deer diet preferences.Understanding in vivo response and mechanical property variation in MgO, SrO and SiO₂ doped β-TCP.An Akt-dependent increase in canonical Wnt signaling and a decrease in sclerostin protein levels are involved in strontium ranelate-induced osteogenic effects in human osteoblasts.Is the calcium receptor a molecular target for the actions of strontium on bone?The mineralization of bone tissue: a forgotten dimension in osteoporosis research.The content of selected metals in muscles of the red deer (Cervus elaphus) from PolandIn Vitro Effects of Strontium on Proliferation and Osteoinduction of Human PreadipocytesEvaluation of Chlorella as a Decorporation Agent to Enhance the Elimination of Radioactive Strontium from Body.Physicochemical properties and cellular responses of strontium-doped gypsum biomaterials.Sr-substituted bone cements direct mesenchymal stem cells, osteoblasts and osteoclasts fate.Addition of Zn to the ternary Mg-Ca-Sr alloys significantly improves their antibacterial property.Drug insight: Existing and emerging therapies for osteoporosis.A review on strontium ranelate long-term antifracture efficacy in the treatment of postmenopausal osteoporosis.Spatial distribution of the trace elements zinc, strontium and lead in human bone tissueOsteoblasts play key roles in the mechanisms of action of strontium ranelate.Selected toxic and essential heavy metals in impacted teeth and the surrounding mandibular bones of people exposed to heavy metals in the environment.Strontium ranelate reduces cartilage degeneration and subchondral bone remodeling in rat osteoarthritis modelMetallic ions as therapeutic agents in tissue engineering scaffolds: an overview of their biological applications and strategies for new developments.Strontium ranelate: in search for the mechanism of action.A review of the effect of various ions on the properties and the clinical applications of novel bioactive glasses in medicine and dentistry.Substituted hydroxyapatites with antibacterial properties.Measurements of Strontium Levels in Human Bone In Vivo Using Portable X-ray Fluorescence (XRF).The in vitro and in vivo performance of a strontium-containing coating on the low-modulus Ti35Nb2Ta3Zr alloy formed by micro-arc oxidation.Strontium ranelate stimulates the activity of bone-specific alkaline phosphatase: interaction with Zn(2+) and Mg (2+).Strontium ranelate increases the formation of bone-like mineralized nodules in osteoblast cell cultures and leads to Sr incorporation into the intact nodules.Osteoblastic cell response on biphasic fluorhydroxyapatite/strontium-substituted hydroxyapatite coatings.Osteogenic potential of Sr-doped calcium phosphate hollow spheres in vitro and in vivo.Strontium calcium phosphate for the repair of leporine (Oryctolagus cuniculus) ulna segmental defect.Synthesis and characterization of Mg-Ca-Sr alloys for biodegradable orthopedic implant applications.Bone-seeking agents for the treatment of bone disorders.A physiologically based pharmacokinetic model for strontium exposure in rat.Osteopenic bone cell response to strontium-substituted hydroxyapatite.
P2860
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P2860
description
2001 nî lūn-bûn
@nan
2001年の論文
@ja
2001年学术文章
@wuu
2001年学术文章
@zh-cn
2001年学术文章
@zh-hans
2001年学术文章
@zh-my
2001年学术文章
@zh-sg
2001年學術文章
@yue
2001年學術文章
@zh
2001年學術文章
@zh-hant
name
Incorporation and distribution of strontium in bone.
@en
Incorporation and distribution of strontium in bone.
@nl
type
label
Incorporation and distribution of strontium in bone.
@en
Incorporation and distribution of strontium in bone.
@nl
prefLabel
Incorporation and distribution of strontium in bone.
@en
Incorporation and distribution of strontium in bone.
@nl
P2093
P1433
P1476
Incorporation and distribution of strontium in bone.
@en
P2093
Christiansen C
Tsouderos Y
P304
P356
10.1016/S8756-3282(01)00419-7
P577
2001-04-01T00:00:00Z