Local irradiation alters bone morphology and increases bone fragility in a mouse model.
about
Predicting mouse vertebra strength with micro-computed tomography-derived finite element analysis.Sacral Insufficiency Fractures are Common After High-dose Radiation for Sacral Chordomas Treated With or Without Surgery.Suppression of Sclerostin Alleviates Radiation-Induced Bone Loss by Protecting Bone-Forming Cells and Their Progenitors Through Distinct Mechanisms.Dosimetry in Micro-computed Tomography: a Review of the Measurement Methods, Impacts, and Characterization of the Quantum GX Imaging System.PTH1-34 alleviates radiotherapy-induced local bone loss by improving osteoblast and osteocyte survival.Total-body irradiation produces late degenerative joint damage in ratsCORR Insights®: do long term survivors of ewing family of tumors experience low bone mineral density and increased fracture risk?Effect of low-level laser therapy on repair of the bone compromised by radiotherapy.Focal therapeutic irradiation induces an early transient increase in bone glycation.Long-term loss of osteoclasts and unopposed cortical mineral apposition following limited field irradiationThe Effect of OSM on MC3T3-E1 Osteoblastic Cells in Simulated Microgravity with Radiation.Parathyroid hormone attenuates radiation-induced increases in collagen crosslink ratio at periosteal surfaces of mouse tibia.Ionizing Radiation and Bone Loss: Space Exploration and Clinical Therapy ApplicationsSpace Radiation and Bone Loss.Mechanical Loading Attenuates Radiation-Induced Bone Loss in Bone Marrow Transplanted MiceIrradiation alters the differentiation potential of bone marrow mesenchymal stem cells.Is Radiation Necessary for Treatment of Non-Hodgkin's Lymphoma of Bone? Clinical Results With Contemporary Therapy.Parathyroid Hormone (1-34) Transiently Protects Against Radiation-Induced Bone Fragility.PTH prevents the adverse effects of focal radiation on bone architecture in young ratsLoss of Nrf2 accelerates ionizing radiation-induced bone loss by upregulating RANKL.Increased EZH2 and decreased osteoblastogenesis during local irradiation-induced bone loss in ratsRaman spectroscopy demonstrates prolonged alteration of bone chemical composition following extremity localized irradiationDifferences in responses to X-ray exposure between osteoclast and osteoblast cells.Microgravity Stress: Bone and Connective Tissue.Micro-CT Analysis of Radiation-Induced Osteopenia and Bone Hypovascularization in Rat.Elevated incidence of fractures in women with invasive breast cancer.Early-stage pathogenic sequence of jaw osteoradionecrosis in vivo.Longitudinal Effects of Single Hindlimb Radiation Therapy on Bone Strength and Morphology at Local and Contralateral Sites.Effects of extensive circumferential periosteal stripping on the microstructure and mechanical properties of the murine femoral cortex.PTH(1-34) and zoledronic acid have differing longitudinal effects on juvenile mouse femur strength and morphology.The effects of ionizing radiation on the growth plate in rat tibiae.
P2860
Q30385252-7C7F535D-A825-477B-8A0D-A715EC934634Q33275758-9A92C846-7264-483C-AF2C-A692E1F866BFQ33812106-6B48BA78-369D-479B-9B58-C3840F8B311DQ33875852-5C8D3004-D3EC-49E2-80DA-94CF083C7C95Q34132998-6C8BA332-66C3-4016-9182-2449B2E64D42Q34175120-811E2B8E-3BA4-43B3-8B5E-C3274C8FF0A5Q34276959-D378D778-F58F-448F-AC86-755DBF4EF6DDQ35184414-7AFE36BA-6FD6-4BD5-9E1E-CF9E051102DEQ35245623-A495E198-9D4F-4F44-9D8C-853EA4596D83Q35245698-E75E05B4-A6B8-4645-AC17-0DB845D56B2EQ35674722-66F1146C-56CB-40B4-AACB-D64B6E2D9A53Q35951567-1FA5F09A-F538-4579-BCDA-4E83AA7DA93FQ36107070-9F9416DE-162B-438A-8E7F-AC0DCA9A3655Q36107093-9D082F21-029A-4B68-917A-2F56A2F2BDD1Q36218196-D6AFFB20-FF7D-4CB9-B6D8-3586234E5493Q36390318-C684542E-165E-4411-9383-768A57331890Q36558651-A2CD5F2F-8A68-409A-9985-B7BF15E9E8D8Q36881180-82F3FA83-F207-4DAC-8BDC-AC84562D0F41Q36920155-832551EB-3B5E-4EF3-B8C5-3DAEF7CAD3ECQ37146771-FFEE3B7F-C3B4-4AB8-97FC-77508F6DFD14Q37157494-E0882E99-5BBD-4A3A-A788-7A90EAA12604Q37212472-5358801D-7045-4D87-8F2B-C59286AD284CQ38765480-48033E37-9422-44F0-AC0B-5FB574292A04Q38804471-62B023A2-6747-4FFE-9568-276A8EB019F1Q40962493-C8219D3A-4BD1-4840-B4B3-00A632833418Q41464715-742A872B-403E-49F3-AE59-CF336EE96944Q45879117-8CEF8649-6EF3-4B6C-8EF2-90BE900DC845Q47991795-13F3619F-98DE-49AD-B7F2-387A3915B43BQ50511813-113AF25B-A293-40B7-9674-22B849A227FEQ51800119-14507490-E07B-47EF-B116-69D6C227C87BQ52850935-6273E596-513E-4613-872E-D652F28B61AE
P2860
Local irradiation alters bone morphology and increases bone fragility in a mouse model.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
@zh-hant
name
Local irradiation alters bone morphology and increases bone fragility in a mouse model.
@en
Local irradiation alters bone morphology and increases bone fragility in a mouse model.
@nl
type
label
Local irradiation alters bone morphology and increases bone fragility in a mouse model.
@en
Local irradiation alters bone morphology and increases bone fragility in a mouse model.
@nl
prefLabel
Local irradiation alters bone morphology and increases bone fragility in a mouse model.
@en
Local irradiation alters bone morphology and increases bone fragility in a mouse model.
@nl
P2093
P1476
Local irradiation alters bone morphology and increases bone fragility in a mouse model.
@en
P2093
James D Wernle
Matthew J Allen
Timothy A Damron
P304
P356
10.1016/J.JBIOMECH.2010.06.017
P577
2010-07-23T00:00:00Z