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Title | Published in | Access level | OA Policy | Year | Views | Downloads | |
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Primary mouse osteoblast and osteoclast culturing and analysis | STAR protocols | 2021 | 382 | 200 | |||
RANKL‐Induced Increase in Cathepsin K Levels Restricts Cortical Expansion in a Periostin‐Dependent Fashion: A Potential New Mechanism of Bone Fragility | Journal of Bone and Mineral Research | 2021 | 259 | 1 | |||
Warmth prevents bone loss through the gut microbiota | Cell Metabolism | 2020 | 347 | 7 | |||
RANKL inhibition improves muscle strength and insulin sensitivity and restores bone mass | Journal of Clinical Investigation | 2019 | 423 | 348 | |||
β-Klotho deficiency shifts the gut-liver bile acid axis and induces hepatic alterations in mice | American Journal of Physiology. Endocrinology and Metabolism | 2018 | 397 | 4 | |||
Interaction between LRP5 and periostin gene polymorphisms on serum periostin levels and cortical bone microstructure | Osteoporosis International | 2018 | 587 | 1 | |||
Lack of Adipocytes Alters Hematopoiesis in Lipodystrophic Mice | Frontiers in Immunology | 2018 | 405 | 170 | |||
The C-Terminal Intact Forms of Periostin (iPTN) Are Surrogate Markers for Osteolytic Lesions in Experimental Breast Cancer Bone Metastasis | Calcified Tissue International | 2018 | 374 | 0 | |||
Serum Levels of a Cathepsin-K Generated Periostin Fragment Predict Incident Low-Trauma Fractures in Postmenopausal Women Independently of BMD and FRAX | Journal of Bone and Mineral Research | 2017 | 512 | 0 | |||
Development of a New Immunoassay for Human Cathepsin K-Generated Periostin Fragments as a Serum Biomarker for Cortical Bone | Calcified Tissue International | 2017 | 507 | 1 | |||
Cortical and Trabecular Bone Microstructure Did Not Recover at Weight-Bearing Skeletal Sites and Progressively Deteriorated at Non-Weight-Bearing Sites During the Year Following International Space Station Missions | Journal of Bone and Mineral Research | 2017 | 448 | 0 | |||
Cathepsin K Controls Cortical Bone Formation by Degrading Periostin | Journal of Bone and Mineral Research | 2017 | 458 | 1 | |||
Bone Regulates Browning and Energy Metabolism Through Mature Osteoblast/Osteocyte PPARγ Expression | Diabetes | 2017 | 550 | 1 | |||
Bone-Derived Factors: A New Gateway to Regulate Glycemia | Calcified tissue international | 2017 | 478 | 0 | |||
Within and across-sex inheritance of bone microarchitecture | The Journal of clinical endocrinology and metabolism | 2017 | 1,505 | 10 | |||
Influence of Fatigue Loading and Bone Turnover on Bone Strength and Pattern of Experimental Fractures of the Tibia in Mice | Calcified tissue international | 2016 | 567 | 3 | |||
Periostin action in bone | Molecular and cellular endocrinology | 2016 | 410 | 0 | |||
Periostin a bone matrix protein involved in bone anabolism, implication in bone health from basic to clinical research | 2015 | 506 | 8 | ||||
Periostin expression contributes to cortical bone loss during unloading | Bone | 2015 | 541 | 1 | |||
Preclinical mouse models for assessing axial compression of long bones during exercise | BoneKEy reports | 2015 | 518 | 0 | |||
Additive Genetic Effects on Circulating Periostin Contribute to the Heritability of Bone Microstructure | The Journal of clinical endocrinology and metabolism | 2015 | 599 | 0 | |||
Cutting edge discoveries in muscle biology, disease and therapeutics (ASBMR 2013) | IBMS boneKEy | 2014 | 548 | 0 | |||
Diet and gene interactions influence the skeletal response to polyunsaturated fatty acids | Bone | 2014 | 571 | 0 | |||
Periostin: mechanical load bone response and inflammation | Osteoporosis international | 2014 | 559 | 5 | |||
Novel Genetic Models of Osteoporosis by Overexpression of Human RANKL in Transgenic Mice | Journal of bone and mineral research | 2014 | 608 | 0 | |||
Impaired Musculoskeletal Response to Age and Exercise in PPARβ −/− Diabetic Mice | Endocrinology | 2014 | 519 | 420 | |||
Comparative Inhibition of the GH/IGF-I Axis Obtained With Either the Targeted Secretion Inhibitor SXN101959 or the Somatostatin Analog Octreotide in Growing Male Rats | Endocrinology | 2013 | 620 | 0 | |||
Zoledronate Effects on Systemic and Jaw Osteopenias in Ovariectomized Periostin-Deficient Mice | PloS one | 2013 | 653 | 318 | |||
Periostin Deficiency Increases Bone Damage and Impairs Injury Response to Fatigue Loading in Adult Mice | PloS one | 2013 | 594 | 304 | |||
A botulinum toxin-derived targeted secretion inhibitor downregulates the GH/IGF1 axis | The Journal of clinical investigation | 2012 | 762 | 0 | |||
Deletion of β-adrenergic receptor 1, 2, or both leads to different bone phenotypes and response to mechanical stimulation | Journal of bone and mineral research | 2012 | 540 | 0 | |||
Regulation of beta catenin signaling and parathyroid hormone anabolic effects in bone by the matricellular protein periostin | Proceedings of the National Academy of Sciences of the United States of America | 2012 | 636 | 0 | |||
Bisphosphonates in periodontitis: Friend or foe? | IBMS boneKEy | 2011 | 711 | 0 | |||
Effects of long-term supplementation with omega-3 fatty acids on longitudinal changes in bone mass and microstructure in mice | The Journal of nutritional biochemistry | 2011 | 555 | 1 | |||
Combined effects of zoledronate and mechanical stimulation on bone adaptation in an axially loaded mouse tibia | Clinical biomechanics | 2011 | 571 | 0 | |||
Exercise and the skeleton: How it works and what it really does | IBMS boneKEy | 2010 | 914 | 1,433 | |||
Are osteoclasts needed for the bone anabolic response to parathyroid hormone? A study of intermittent parathyroid hormone with denosumab or alendronate in knock-in mice expressing humanized RANKL | The Journal of biological chemistry | 2010 | 762 | 0 | |||
Development of a new ELISA for serum periostin: evaluation of growth-related changes and bisphosphonate treatment in mice | Calcified tissue international | 2010 | 623 | 0 | |||
The matricellular protein periostin is required for sost inhibition and the anabolic response to mechanical loading and physical activity | The Journal of biological chemistry | 2009 | 615 | 1 | |||
Adrenergic control of bone remodeling and its implications for the treatment of osteoporosis | Journal of Musculoskeletal and Neuronal Interactions | 2008 | 539 | 0 |