Prolonging disuse in aged mice amplifies cortical but not trabecular bones’ response to mechanical loading
暂无分享,去创建一个
[1] Matthew J. Silva,et al. Activation of Wnt Signaling by Mechanical Loading Is Impaired in the Bone of Old Mice , 2016, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.
[2] Georg N Duda,et al. Aging Leads to a Dysregulation in Mechanically Driven Bone Formation and Resorption , 2015, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.
[3] J. Price,et al. Disuse rescues the age-impaired adaptive response to external loading in mice , 2015, Osteoporosis International.
[4] Georg N Duda,et al. The influence of age on adaptive bone formation and bone resorption. , 2014, Biomaterials.
[5] Matthew J Silva,et al. Aging diminishes lamellar and woven bone formation induced by tibial compression in adult C57BL/6. , 2014, Bone.
[6] L. Lanyon,et al. Age-Related Impairment of Bones' Adaptive Response to Loading in Mice Is Associated With Sex-Related Deficiencies in Osteoblasts but No Change in Osteocytes , 2014, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.
[7] J. Reeve,et al. The fragile elderly hip: Mechanisms associated with age-related loss of strength and toughness☆ , 2014, Bone.
[8] G. Beaupré. Bone loss in chronic hemiplegia: a longitudinal cohort study. , 2014, Journal of clinical densitometry : the official journal of the International Society for Clinical Densitometry.
[9] Georg N Duda,et al. Diminished response to in vivo mechanical loading in trabecular and not cortical bone in adulthood of female C57Bl/6 mice coincides with a reduction in deformation to load. , 2013, Bone.
[10] T. Shimada,et al. Tetrandrine prevents bone loss in sciatic-neurectomized mice and inhibits receptor activator of nuclear factor κB ligand-induced osteoclast differentiation. , 2012, Biological & pharmaceutical bulletin.
[11] Scott M Smith,et al. Benefits for bone from resistance exercise and nutrition in long‐duration spaceflight: Evidence from biochemistry and densitometry , 2012, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.
[12] Gerhard Hawa,et al. Increased sclerostin serum levels associated with bone formation and resorption markers in patients with immobilization-induced bone loss. , 2010, The Journal of clinical endocrinology and metabolism.
[13] L. Lanyon,et al. Sympathetic Nervous System Does Not Mediate the Load‐Induced Cortical New Bone Formation , 2005, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.
[14] Felix Eckstein,et al. Non-invasive axial loading of mouse tibiae increases cortical bone formation and modifies trabecular organization: a new model to study cortical and cancellous compartments in a single loaded element. , 2005, Bone.
[15] G. Thomas,et al. Hypothalamic Y2 receptors regulate bone formation. , 2002, The Journal of clinical investigation.
[16] P. Delmas,et al. Dramatic decrease of innervation density in bone after ovariectomy. , 2005, Endocrinology.
[17] G. Rodan,et al. Osteopenia in the immobilized rat hind limb is associated with increased bone resorption and decreased bone formation. , 1989, Bone.