Pages that link to "Q35948130"

The following pages link to Periosteum: biology, regulation, and response to osteoporosis therapies. (Q35948130):

Displaying 50 items.

• Teriparatide for osteoporosis: importance of the full course (Q26768410) (← links)
• Concise review: the periosteum: tapping into a reservoir of clinically useful progenitor cells (Q26859064) (← links)
• Potential mechanisms of a periosteum patch as an effective and favourable approach to enhance tendon-bone healing in the human body (Q26866508) (← links)
• Current insights on the regenerative potential of the periosteum: molecular, cellular, and endogenous engineering approaches (Q27025995) (← links)
• Anchoring structure of the calvarial periosteum revealed by focused ion beam/scanning electron microscope tomography (Q27304706) (← links)
• Surgical membranes as directional delivery devices to generate tissue: testing in an ovine critical sized defect model (Q28741600) (← links)
• Bmp2 in osteoblasts of periosteum and trabecular bone links bone formation to vascularization and mesenchymal stem cells. (Q30544691) (← links)
• Biomimetic strategies for fracture repair: Engineering the cell microenvironment for directed tissue formation (Q33606524) (← links)
• A phenotypically restricted set of primary afferent nerve fibers innervate the bone versus skin: therapeutic opportunity for treating skeletal pain. (Q33779598) (← links)
• Are we taking full advantage of the growing number of pharmacological treatment options for osteoporosis? (Q33811677) (← links)
• Periosteal PTHrP regulates cortical bone modeling during linear growth in mice (Q33814335) (← links)
• Does bone resorption stimulate periosteal expansion? A cross-sectional analysis of β-C-telopeptides of type I collagen (CTX), genetic markers of the RANKL pathway, and periosteal circumference as measured by pQCT. (Q34069530) (← links)
• Activation of the Hh pathway in periosteum-derived mesenchymal stem cells induces bone formation in vivo: implication for postnatal bone repair (Q34358225) (← links)
• Estrogens and Androgens in Skeletal Physiology and Pathophysiology (Q34543980) (← links)
• Cell replication in craniofacial periosteum: appositional vs. resorptive sites (Q34678508) (← links)
• The effect of aging on the density of the sensory nerve fiber innervation of bone and acute skeletal pain (Q35040554) (← links)
• Imaging and quantifying solute transport across periosteum: implications for muscle-bone crosstalk (Q35188081) (← links)
• Bone vs. fat: embryonic origin of progenitors determines response to androgen in adipocytes and osteoblasts (Q35196475) (← links)
• Frontiers in the bioarchaeology of stress and disease: cross-disciplinary perspectives from pathophysiology, human biology, and epidemiology (Q35216868) (← links)
• Dimensional change of the healed periosteum on surgically created defects. (Q35219604) (← links)
• Anti-DKK1 antibody promotes bone fracture healing through activation of β-catenin signaling (Q35224081) (← links)
• PTH receptor signaling in osteocytes governs periosteal bone formation and intracortical remodeling. (Q35229920) (← links)
• Emulating native periosteum cell population and subsequent paracrine factor production to promote tissue engineered periosteum-mediated allograft healing (Q35232478) (← links)
• Human periosteum is a source of cells for orthopaedic tissue engineering: a pilot study (Q35242784) (← links)
• Systemic transplantation of human adipose-derived stem cells stimulates bone repair by promoting osteoblast and osteoclast function (Q35377298) (← links)
• Novel Lesions of Bones and Joints Associated with Chikungunya Virus Infection in Two Mouse Models of Disease: New Insights into Disease Pathogenesis (Q36018504) (← links)
• A computational assessment of the independent contribution of changes in canine trabecular bone volume fraction and microarchitecture to increased bone strength with suppression of bone turnover (Q36177169) (← links)
• Electrospun hydroxyapatite-containing chitosan nanofibers crosslinked with genipin for bone tissue engineering (Q36369163) (← links)
• A single administration of combination therapy inhibits breast tumour progression in bone and modifies both osteoblasts and osteoclasts. (Q36491378) (← links)
• Osteogenic Potential of Mouse Periosteum-Derived Cells Sorted for CD90 In Vitro and In Vivo (Q36510086) (← links)
• PTHrP regulates the modeling of cortical bone surfaces at fibrous insertion sites during growth (Q36614891) (← links)
• 32 wk old C3H/HeJ mice actively respond to mechanical loading (Q36628758) (← links)
• Craniofacial tissue engineering by stem cells (Q36633835) (← links)
• Elucidating multiscale periosteal mechanobiology: a key to unlocking the smart properties and regenerative capacity of the periosteum? (Q36661236) (← links)
• The periosteum. Part 1: Anatomy, histology and molecular biology (Q36949304) (← links)
• In vivo delivery of fluoresceinated dextrans to the murine growth plate: imaging of three vascular routes by multiphoton microscopy (Q36950887) (← links)
• Multiscale mechanobiology of de novo bone generation, remodeling and adaptation of autograft in a common ovine femur model (Q37092342) (← links)
• Role of muscle-derived growth factors in bone formation (Q37121913) (← links)
• Intermittent PTH stimulates periosteal bone formation by actions on post-mitotic preosteoblasts (Q37127210) (← links)
• COX-2 from the injury milieu is critical for the initiation of periosteal progenitor cell mediated bone healing (Q37172205) (← links)
• Tamoxifen-inducible CreER-mediated gene targeting in periosteum via bone-graft transplantation. (Q37172210) (← links)
• A perspective: engineering periosteum for structural bone graft healing. (Q37176129) (← links)
• Reconciling the roles of FAK in osteoblast differentiation, osteoclast remodeling, and bone regeneration (Q37234953) (← links)
• Moving toward a prevention strategy for osteoporosis by giving a voice to a silent disease (Q37279948) (← links)
• Tissue engineering: state of the art in oral rehabilitation (Q37396526) (← links)
• Capsaicin-sensitive sensory nerve fibers contribute to the generation and maintenance of skeletal fracture pain (Q37398720) (← links)
• Preventing painful age-related bone fractures: Anti-sclerostin therapy builds cortical bone and increases the proliferation of osteogenic cells in the periosteum of the geriatric mouse femur (Q37426026) (← links)
• Periosteum: biology and applications in craniofacial bone regeneration (Q37491972) (← links)
• The amount of periosteal apposition required to maintain bone strength during aging depends on adult bone morphology and tissue-modulus degradation rate (Q37626885) (← links)
• Dynamic fluid flow stimulation on cortical bone and alterations of the gene expressions of osteogenic growth factors and transcription factors in a rat functional disuse model (Q37682709) (← links)