Mechanical loading: biphasic osteocyte survival and targeting of osteoclasts for bone destruction in rat cortical bone.
about
Apoptotic osteocytes and the control of targeted bone resorptionTransforming growth factor-beta prevents osteoblast apoptosis induced by skeletal unloading via PI3K/Akt, Bcl-2, and phospho-Bad signalingMechanical signals as anabolic agents in bone.The real response of bone to exerciseThe fragile elderly hip: mechanisms associated with age-related loss of strength and toughnessDrilling K-wires, what about the osteocytes? An experimental study in rabbits.Low-magnitude high-frequency mechanical signals accelerate and augment endochondral bone repair: preliminary evidence of efficacy.Time dependence of changes of two cartilage layers in anterior cruciate ligament insertion after resection on chondrocyte apoptosis and decrease in glycosaminoglycanDevelopmental plasticity links local adaptation and evolutionary diversification in foraging morphology.Osteocyte Wnt/beta-catenin signaling is required for normal bone homeostasisActivation of bone remodeling after fatigue: differential response to linear microcracks and diffuse damageOsteocyte expression of caspase-3, COX-2, IL-6 and sclerostin are spatially and temporally associated following stress fracture initiation.Surface microcracks signal osteoblasts to regulate alignment and bone formation.Novel actions of bisphosphonates in bone: preservation of osteoblast and osteocyte viability.CCL7 is a protective factor secreted by mechanically loaded osteocytesLoading and skeletal development and maintenanceBiomechanical forces in the skeleton and their relevance to bone metastasis: biology and engineering considerations.Voluntary wheel running mitigates the stress-induced bone loss in ovariectomized rats.Cell autonomous requirement of connexin 43 for osteocyte survival: consequences for endocortical resorption and periosteal bone formation.The influence of mechanical stimulation on osteocyte apoptosis and bone viability in human trabecular bone.Mechanosensation and Transduction in Osteocytes.Extracellular fluid flow and chloride content modulate H(+) transport by osteoclasts.Effect of raloxifene treatment on osteocyte apoptosis in postmenopausal women.Immunoregulation of bone remodellingMeagre effects of disuse on the human fibula are not explained by bone size or geometry.The past, present, and future of bone morphometry: its contribution to an improved understanding of bone biology.Microcracks in cortical bone: how do they affect bone biology?Regulation of bone mass by mechanical loading: microarchitecture and genetics.Sclerostin Promotes Bone Remodeling in the Process of Tooth Movement.Osteocytes and Skeletal PathophysiologyQuantitative histologic evidence of amifostine-induced cytoprotection in an irradiated murine model of mandibular distraction osteogenesis.The role of osteocytes and bone microstructure in preventing osteoporotic fractures.Osteoimmunology.Crosstalk between caveolin-1/extracellular signal-regulated kinase (ERK) and β-catenin survival pathways in osteocyte mechanotransductionEstrogen receptor α mediates proliferation of osteoblastic cells stimulated by estrogen and mechanical strain, but their acute down-regulation of the Wnt antagonist Sost is mediated by estrogen receptor β.Osteocyte apoptosisThe biology of osteocytes.Quantifying osteoblast and osteocyte apoptosis: challenges and rewards.Connexin 43 channels protect osteocytes against oxidative stress-induced cell death.Mechanical signaling for bone modeling and remodeling
P2860
Q27023670-8C5AABB0-D446-4A91-B8C5-882B1959F93CQ28569490-16C95A76-9A47-4043-9C63-8BA82D3C299DQ28681998-60327297-65F3-416C-9B01-55EE1FD64A2EQ28767542-39AEC7E3-B6ED-4798-85FB-913308178E7AQ30439769-6FA8208B-1BB0-45CB-9A8A-19905A5E6175Q33289182-EEAC5833-1F88-467B-8D4B-48A5D7D8916AQ33396710-4742F66F-51E5-47F6-8635-3AEE20E5669CQ33552664-12835ADF-6AED-40A4-93F5-23EA5B9925A1Q33654446-E1478574-F980-43B4-BF38-2E8641874E1BQ33877602-A4A1E3A9-3027-48F6-A0FE-464729467252Q34126530-4F06DCE9-FA86-472C-9ADE-AD2D10E812D3Q34171846-7E42966B-B9A9-470D-9A3F-A005C99ABF50Q34293675-08283B1C-2E6F-4585-ADDC-A655A1F0B22FQ34367479-AF6A1463-1F31-4F35-9A15-350E4B3506E8Q34418734-96D8B12A-6AD7-47FA-BC06-810182CB26B3Q34442741-B8183FD0-F897-4792-90D1-3E79A96E4510Q34646678-872D5A7E-DD85-4E8C-A3B0-4EFAC96334B2Q35204887-004E5360-7712-4338-AD90-A2F38327294CQ35729489-1031DBCE-0F85-4B4D-A1CB-F883EAE8C646Q35741137-9086BD46-44D6-4B14-821F-8C55439987CEQ35741903-209AA679-350B-41EB-B2CD-23AEFBC14D48Q35745310-09C017B9-88F8-4B0E-A8CB-9FD191F881DBQ36087523-6B12243A-A5D0-4370-BCF0-8875E6F0FA70Q36107934-961C2284-9B44-499A-BD39-A42FE231FCFAQ36162056-3C8E1D8A-D13B-47A0-B58D-03D491E9CDF7Q36177496-F81CFCCB-3845-42EA-9E3D-8DE7E9375187Q36203370-6689F041-517C-404E-9848-5A55A6C7A86FQ36203375-D58B2E61-0994-4EE7-B670-D71F74AAECD2Q36247366-748DC837-04E7-4C1E-9893-48F225A29B38Q36357606-A04A8A6A-A6BF-4DE3-8FCE-762BBFE7E13FQ36438246-1FF53C14-3953-45D9-B9D5-20CA9B8F26BCQ36593298-A86B212C-CF07-4D7A-9A9D-ABBE2359FD51Q36693328-BE35F050-BD77-45FC-8A42-6BCE3A4BB924Q36708516-67A7E7CB-CB59-451E-9BAF-33622C58351BQ36724963-5805AE40-76A9-4C7D-85C5-8781B9B5F117Q36759428-CE878620-4597-412D-8A20-670F6F7126CBQ36830313-2CF7BA3A-F5EE-4BDD-BC77-8B290692ACA9Q36837114-5F78913D-30DB-49C2-9595-1A83F70E09CDQ36944873-9CFBEA5B-A5FB-4886-A26D-2C4E3B6DC4DBQ37094497-B6436645-373C-43FF-AEEE-BF28EAA7F189
P2860
Mechanical loading: biphasic osteocyte survival and targeting of osteoclasts for bone destruction in rat cortical bone.
description
2002 nî lūn-bûn
@nan
2002年の論文
@ja
2002年学术文章
@wuu
2002年学术文章
@zh
2002年学术文章
@zh-cn
2002年学术文章
@zh-hans
2002年学术文章
@zh-my
2002年学术文章
@zh-sg
2002年學術文章
@yue
2002年學術文章
@zh-hant
name
Mechanical loading: biphasic o ...... truction in rat cortical bone.
@en
Mechanical loading: biphasic o ...... truction in rat cortical bone.
@nl
type
label
Mechanical loading: biphasic o ...... truction in rat cortical bone.
@en
Mechanical loading: biphasic o ...... truction in rat cortical bone.
@nl
prefLabel
Mechanical loading: biphasic o ...... truction in rat cortical bone.
@en
Mechanical loading: biphasic o ...... truction in rat cortical bone.
@nl
P2093
P2860
P1476
Mechanical loading: biphasic o ...... struction in rat cortical bone
@en
P2093
Alex Brabbs
Brendon S Noble
Gwendolen C Reilly
Hazel Y Stevens
John R Mosley
Lance E Lanyon
Nicky Peet
P2860
P304
P356
10.1152/AJPCELL.00234.2002
P577
2002-12-11T00:00:00Z