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Search Results to Amy Sato

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One or more keywords matched the following items that are connected to Sato, Amy

Item TypeName
Concept Bone Resorption
Concept Bone Density
Concept Bone and Bones
Concept Bone Morphogenetic Proteins
Concept Bone Remodeling
Concept Bone Density Conservation Agents
Academic Article Prevention of glucocorticoid induced-apoptosis of osteoblasts and osteocytes by protecting against endoplasmic reticulum (ER) stress in vitro and in vivo in female mice.
Academic Article Protection From Glucocorticoid-Induced Osteoporosis by Anti-Catabolic Signaling in the Absence of Sost/Sclerostin.
Academic Article Role and mechanism of action of sclerostin in bone.
Academic Article Glucocorticoids Induce Bone and Muscle Atrophy by Tissue-Specific Mechanisms Upstream of E3 Ubiquitin Ligases.
Academic Article PTHrP-Derived Peptides Restore Bone Mass and Strength in Diabetic Mice: Additive Effect of Mechanical Loading.
Academic Article MMP14 is a novel target of PTH signaling in osteocytes that controls resorption by regulating soluble RANKL production.
Academic Article GLUCOCORTICOID EXCESS IN BONE AND MUSCLE.
Academic Article Overexpression of WNT16 Does Not Prevent Cortical Bone Loss Due to Glucocorticoid Treatment in Mice.
Academic Article Glucocorticoid-Induced Bone Fragility Is Prevented in Female Mice by Blocking Pyk2/Anoikis Signaling.
Academic Article Lrp4 Mediates Bone Homeostasis and Mechanotransduction through Interaction with Sclerostin In?Vivo.
Academic Article Raloxifene prevents skeletal fragility in adult female Zucker Diabetic Sprague-Dawley rats.
Academic Article Skeletal Protection and Promotion of Microbiome Diversity by Dietary Boosting of the Endogenous Antioxidant Response.
Academic Article Reversal of the diabetic bone signature with anabolic therapies in mice.
Academic Article Author Correction: Reversal of the diabetic bone signature with anabolic therapies in mice.
Academic Article Author Correction: Reversal of the diabetic bone signature with anabolic therapies in mice.
Academic Article Abaloparatide is more potent than teriparatide in restoring bone mass and strength in type 1 diabetic male mice.
Academic Article Editorial: Pathophysiology of bone and mineral metabolism.

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  • Bone and Bones