Reliability of a quantification imaging system using magnetic resonance images to measure cartilage thickness and volume in human normal and osteoarthritic knees.
about
Multimodal evaluation of tissue-engineered cartilage.Automated classification of articular cartilage surfaces based on surface texture.Quantitative MR imaging using "LiveWire" to measure tibiofemoral articular cartilage thicknessRadiographic assessment of the femorotibial joint of the CCLT rabbit experimental model of osteoarthritis.Acetabular cartilage thickness: accuracy of three-dimensional reconstructions from multidetector CT arthrograms in a cadaver study.Quantification of cartilage loss in local regions of knee joints using semi-automated segmentation software: analysis of longitudinal data from the Osteoarthritis Initiative (OAI)Increased tibiofemoral cartilage contact deformation in patients with anterior cruciate ligament deficiency.Osteochondral allograft transplant to the medial femoral condyle using a medial or lateral femoral condyle allograft: is there a difference in graft sources?Magnetic resonance image segmentation using semi-automated software for quantification of knee articular cartilage---initial evaluation of a technique for paired scans.Bone marrow lesions predict site-specific cartilage defect development and volume loss: a prospective study in older adults.Long term evaluation of disease progression through the quantitative magnetic resonance imaging of symptomatic knee osteoarthritis patients: correlation with clinical symptoms and radiographic changes.Chondroitin sulphate reduces both cartilage volume loss and bone marrow lesions in knee osteoarthritis patients starting as early as 6 months after initiation of therapy: a randomised, double-blind, placebo-controlled pilot study using MRILOGISMOS--layered optimal graph image segmentation of multiple objects and surfaces: cartilage segmentation in the knee joint.Quantitative cartilage imaging in knee osteoarthritis.Therapeutic targets in osteoarthritis: from today to tomorrow with new imaging technologyMeniscal tear and extrusion are strongly associated with progression of symptomatic knee osteoarthritis as assessed by quantitative magnetic resonance imaging.Factors influencing longitudinal change in knee cartilage volume measured from magnetic resonance imaging in healthy menFemorotibial and patellar cartilage loss in patients prior to total knee arthroplasty, heterogeneity, and correlation with alignment of the kneeChange in knee structure and change in tibiofemoral joint space width: a five year longitudinal population-based study.Use magnetic resonance imaging to assess articular cartilage.Measurement and visualisation of focal cartilage thickness change by MRI in a study of knee osteoarthritis using a novel image analysis tool.Risk factors associated with the loss of cartilage volume on weight-bearing areas in knee osteoarthritis patients assessed by quantitative magnetic resonance imaging: a longitudinal studyThe effects of exercise on human articular cartilage.Diurnal variations in articular cartilage thickness and strain in the human knee.Responsiveness and reliability of MRI in knee osteoarthritis: a meta-analysis of published evidence.Chondroitin sulfate efficacy versus celecoxib on knee osteoarthritis structural changes using magnetic resonance imaging: a 2-year multicentre exploratory study.The evolution of articular cartilage imaging and its impact on clinical practice.Effects of diacerein at the molecular level in the osteoarthritis disease process.Correlation Between Changes in Global Knee Structures Assessed by Magnetic Resonance Imaging and Radiographic Osteoarthritis Changes Over Ten Years in a Midlife Cohort.History of knee injury and MRI-assessed knee structures in middle- and older-aged adults: a cross-sectional study.Automatic measurement and visualization of focal femoral cartilage thickness in stress-based regions of interest using three-dimensional knee models.The association between objectively measured physical activity and knee structural change using MRI.A fully automated human knee 3D MRI bone segmentation using the ray casting technique.Quantitative knee cartilage measurement at MR imaging of patients with anterior cruciate ligament tear.An analysis algorithm for accurate determination of articular cartilage thickness of hip joint from MR images.Acetabular cartilage segmentation in CT arthrography based on a bone-normalized probabilistic atlas.
P2860
Q30455418-61E0694C-C2B8-4040-9C3B-088B34707685Q33269704-F99A06A8-CB68-49B2-9402-19E52732020EQ33327883-B84D4167-2197-490C-85B6-E3FE05CC788DQ33525369-FB0A3FA6-8B8B-4444-9EDD-A685B14A2A2FQ33562656-76BCE6AC-F691-4F5A-9A54-0C65D0586935Q33767474-ACE86A2A-9B03-467A-A015-7A3D0FB77FE3Q34038618-40028BC0-1AC9-47CF-A05C-EC56D65C05A3Q34120801-5F20F15D-E3D6-41B3-A514-B79193A1FE3AQ34476334-92FEC952-DBCA-400B-8D85-65F027D34677Q34614059-947B4ADF-B903-473A-B268-F6F25D12AC6DQ34896028-20FA6B1E-827C-4F5F-991C-DCC2C79A65E1Q34906145-5CFD7069-5203-410C-804E-9B2C002CA0D1Q35090406-334C3A6B-B7EF-48AB-8AE4-8816907B02EFQ35430633-89E6BB31-993A-4059-AAEF-3E3F6DEC1E35Q35553526-25FD0911-92AB-4956-ABAE-F3AE5764A12FQ35555395-CE61D541-5998-45DD-82C4-51DE7A87D9DDQ35555762-63403F6F-DF68-48F8-A5E8-5BB1121F3F02Q35636637-A1C8A563-DDC9-419D-BEF2-872529433ABCQ35894315-D51FBFC3-A79B-4902-9249-2C7E0C716652Q36059524-AAB0C627-D602-4801-A94D-0682EA965518Q36324881-0AC9363D-8D68-4643-8F63-D48A50B47383Q36392376-9A70573E-0D2D-45DC-83B7-68F2E4E3FB3EQ36459463-50AFFAE8-7FCD-40DB-B6D9-C5F256B16746Q36553364-FC324612-34B4-48DD-A1B1-8CE97A6B4E66Q36764645-C21413FC-638E-4E0F-97B8-9FF05DAC265EQ37391095-48B5E068-100D-4040-A2AD-5FA0A0FC4E56Q37918970-6556645F-1C78-43DC-B059-D4BDE43CFC39Q38032567-8C4D9002-71F5-4385-ACE0-F36623D29C30Q38629682-13FA49C2-E7CC-4744-820C-2699851A2EBFQ39128293-715D7BC2-69A6-4FBE-8F1C-B2FD08110128Q40715511-A09EA926-555C-4F2A-AD9B-8D5EE8B2FA2FQ44732442-4BB96918-989B-4F24-A49D-043C2938B54BQ45736116-638C09D1-A2B8-4600-B784-25517BD4CA01Q48213889-422F1EEC-7B48-48DC-B1B1-D450B9AA3124Q51564294-A9ACF9C2-92A0-44C3-A336-DE1FE0F6B965Q53059154-3138249C-1B5E-4E66-B512-8AE9C6460EE3
P2860
Reliability of a quantification imaging system using magnetic resonance images to measure cartilage thickness and volume in human normal and osteoarthritic knees.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
2003年學術文章
@zh-hant
name
Reliability of a quantificatio ...... rmal and osteoarthritic knees.
@en
Reliability of a quantificatio ...... rmal and osteoarthritic knees.
@nl
type
label
Reliability of a quantificatio ...... rmal and osteoarthritic knees.
@en
Reliability of a quantificatio ...... rmal and osteoarthritic knees.
@nl
prefLabel
Reliability of a quantificatio ...... rmal and osteoarthritic knees.
@en
Reliability of a quantificatio ...... rmal and osteoarthritic knees.
@nl
P2093
P1476
Reliability of a quantificatio ...... rmal and osteoarthritic knees.
@en
P2093
C Kauffmann
G Beaudoin
J-P Pelletier
J-P Raynauld
M Hochberg
P304
P356
10.1016/S1063-4584(03)00029-3
P577
2003-05-01T00:00:00Z