Comparison insight bone measurements by histomorphometry and microCT.
about
The use of nano-computed tomography to enhance musculoskeletal researchComparative assessment of bone mass and structure using texture-based and histomorphometric analysesPostcranial skeletal pneumaticity: a case study in the use of quantitative microCT to assess vertebral structure in birdsRadiographic trabecular 2D and 3D parameters of proximal femoral bone cores correlate with each other and with yield stressThree dimensional cancellous bone structure in hypoparathyroidismComparison of alveolar ridge preservation methods using three-dimensional micro-computed tomographic analysis and two-dimensional histometric evaluationNew laboratory tools in the assessment of bone quality.Three-dimensional characterization of the vascular bed in bone metastasis of the rat by microcomputed tomography (MicroCT).Assessment of trabecular and cortical architecture and mechanical competence of bone by high-resolution peripheral computed tomography: comparison with transiliac bone biopsyBone mass and bone quality are altered by hypoactivity in the chickenHigh resolution 3D imaging of ex-vivo biological samples by micro CT.Effects of low-intensity pulsed ultrasound on new trabecular bone during bone-tendon junction healing in a rabbit model: a synchrotron radiation micro-CT study.Quantification of the roles of trabecular microarchitecture and trabecular type in determining the elastic modulus of human trabecular boneQuantification of osseointegration of plasma-polymer coated titanium alloyed implants by means of microcomputed tomography versus histomorphometry.Connexin43 deficiency reduces the sensitivity of cortical bone to the effects of muscle paralysisMicroCT morphometry analysis of mouse cancellous bone: intra- and inter-system reproducibilityStructure Model Index Does Not Measure Rods and Plates in Trabecular Bone.Bisphosphonates improve trabecular bone mass and normalize cortical thickness in ovariectomized, osteoblast connexin43 deficient mice.Establishment of a murine model for radiation-induced bone loss using micro-computed tomography in adult C3H/HeN mice.Effects of Parathyroid Hormone Administration on Bone Strength in HypoparathyroidismBone micro-architectural analysis of mandible and tibia in ovariectomised rats: A quantitative structural comparison between undecalcified histological sections and micro-CTBeam hardening artifacts in micro-computed tomography scanning can be reduced by X-ray beam filtration and the resulting images can be used to accurately measure BMD.Microarchitectural adaptations in aging and osteoarthrotic subchondral bone issues.Implants in bone: part II. Research on implant osseointegration: material testing, mechanical testing, imaging and histoanalytical methods.Osteointegration of porous absorbable bone substitutes: A systematic review of the literature.Technical note: early post-mortem changes of human bone in taphonomy with μCT.Sensitivity and specificity of radiographic methods for predicting insertion torque of dental implants.MicroCT assessment of bone microarchitecture in implant sites reconstructed with autogenous and xenogenous grafts: a pilot study.Validation of x-ray microfocus computed tomography as an imaging tool for porous structures.A comparative evaluation of cone beam CT and micro-CT on trabecular bone structures in the human mandible.Validating cone-beam computed tomography for peri-implant bone morphometric analysis.3D Porous Architecture of Stacks of β-TCP Granules Compared with That of Trabecular Bone: A microCT, Vector Analysis, and Compression Study.Spatial and temporal patterns of bone formation in ectopically pre-fabricated, autologous cell-based engineered bone flaps in rabbits.The effect of scan parameters on cone beam CT trabecular bone microstructural measurements of the human mandible.Hypoxic adipocytes pattern early heterotopic bone formation.Is micro-computed tomography reliable to determine the microstructure of the maxillary alveolar bone?Osteoarthritic versus osteoporotic bone and intra-skeletal variations in normal bone: evaluation with µCT and bone histomorphometry.Agreement between Histomorphometry and Microcomputed Tomography to Assess Bone Microarchitecture of Dental Implant Sites.Histological and radiographic study of human edentulous and dentulous maxilla.Microradiography and microcomputed tomography comparative analysis in human bone cores harvested after maxillary sinus augmentation: a pilot study.
P2860
Q28604230-A0B9E40A-72FB-43F3-BAD9-2E1C8FD5C750Q28688580-FC609571-958B-45F4-BAF2-A4C3D6AD0446Q28754631-3A71FF2B-6585-4A65-AD8B-8F22ECA84F3EQ33421819-2670E893-E46F-456C-BBDB-AC25339502C0Q33636654-4C5E86B6-9863-4B2A-9CE0-E27162852324Q33770006-466675E5-69D3-40CC-9685-CD3C936C5514Q33828962-FE7AF06D-C4AF-4FD5-BEE3-8E88392C66BDQ33862570-D54935C5-4BD5-47AA-A21B-605C073A15F4Q34012643-842FB041-3241-4E1F-B703-47EA9723A5B1Q35032243-392FED93-5800-4479-B12E-861E0EBD7EF4Q35391589-ECE835EB-7C18-405D-9D15-C95E4FA3D368Q35432471-5BC7D941-D050-4B39-988B-DA0E701AB0BFQ35575608-3544EB79-0C6A-4703-BA35-37D60C41F859Q35603400-F86E5CC3-201B-466D-940F-32EFC130804CQ35835319-31B6C03F-C1C6-4C1B-84FF-08A55128734EQ36080787-F2718AC0-BEA3-401C-8BD7-BD13D9B68EB8Q36149699-56BF990C-AC8F-406F-8703-96080BDFAA8DQ36205222-85B6E498-C3FC-48E7-97D4-0A6C65089AB4Q36739356-448DB8D7-890D-4E41-BAF9-66872C633F31Q36889099-52E365B5-8611-4A98-A4AE-0C15AE61AED1Q37117647-ECDD0DD8-E3A4-4021-A0E9-1FEE69FDD379Q37437846-D93D6B3C-DB17-4EDD-87F5-1F6410EEA081Q37812618-E3C2CF2D-1F71-4221-8C10-1DF78C0C6502Q38083558-16079CF9-9501-468F-BAAE-6F385630860FQ38632238-D6B90620-B79A-4057-9D49-D5EF463E09A0Q39051480-280DD861-186D-498C-981D-546DC6E7E138Q39056620-0D81EEB3-2CD9-4FCB-8128-100BDD9855A3Q39955749-7D7D30A3-A759-4889-97A1-72141C0BA144Q40127288-E2EDF7B8-F13A-403C-B869-768731055C35Q41950148-D597B59E-B4B3-4391-A1BD-7B61F0E8BE85Q42273413-4EE51C72-317A-49D9-A9DE-277FDF83C09CQ42589632-6BD86B07-A94C-41C7-A226-C443E75E4210Q42789778-D25A0DDE-2400-4C6B-9CF6-BF6F9C217D24Q42840746-EBBC4F86-B424-41A1-BD2E-EF2FC6C16BEAQ42853387-1C9A745D-E776-4CE4-872E-F3DE0BE48482Q43501611-66679B1F-7D8E-4CD1-9308-B5945AF2666FQ43603196-694AC51C-4D06-4DC3-86F9-444C995B81DEQ44298734-304F475C-64CF-4CEA-BCB9-9B472B66C1A6Q45065454-DA8611E9-D0D4-4312-9F1F-6B6F446EABEBQ45248112-42DEAAAC-9684-4543-8822-32416109F432
P2860
Comparison insight bone measurements by histomorphometry and microCT.
description
2005 nî lūn-bûn
@nan
2005 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Comparison insight bone measurements by histomorphometry and microCT.
@ast
Comparison insight bone measurements by histomorphometry and microCT.
@en
type
label
Comparison insight bone measurements by histomorphometry and microCT.
@ast
Comparison insight bone measurements by histomorphometry and microCT.
@en
prefLabel
Comparison insight bone measurements by histomorphometry and microCT.
@ast
Comparison insight bone measurements by histomorphometry and microCT.
@en
P2093
P356
P1476
Comparison insight bone measurements by histomorphometry and microCT.
@en
P2093
Daniel Chappard
Erick Legrand
Maurice Audran
Michel Félix Baslé
Nadine Retailleau-Gaborit
P304
P356
10.1359/JBMR.050205
P577
2005-02-14T00:00:00Z