Magnetic resonance image segmentation using semi-automated software for quantification of knee articular cartilage—initial evaluation of a technique for paired scans
Purpose Software-based image analysis is important for studies of cartilage changes in knee osteoarthritis (OA). This study describes an evaluation of a semi-automated cartilage segmentation software tool capable of quantifying paired images for potential use in longitudinal studies of knee OA. We d...
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| Published in | Skeletal radiology Vol. 38; no. 5; pp. 505 - 511 |
|---|---|
| Main Authors | , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin/Heidelberg
Springer-Verlag
01.05.2009
Springer Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0364-2348 1432-2161 |
| DOI | 10.1007/s00256-009-0658-1 |
Cover
| Abstract | Purpose
Software-based image analysis is important for studies of cartilage changes in knee osteoarthritis (OA). This study describes an evaluation of a semi-automated cartilage segmentation software tool capable of quantifying paired images for potential use in longitudinal studies of knee OA. We describe the methodology behind the analysis and demonstrate its use by determination of test–retest analysis precision of duplicate knee magnetic resonance imaging (MRI) data sets.
Methods
Test–retest knee MR images of 12 subjects with a range of knee health were evaluated from the Osteoarthritis Initiative (OAI) pilot MR study. Each subject was removed from the magnet between the two scans. The 3D DESS (sagittal, 0.456 mm × 0.365 mm, 0.7 mm slice thickness, TR 16.5 ms, TE 4.7 ms) images were obtained on a 3-T Siemens Trio MR system with a USA Instruments quadrature transmit–receive extremity coil. Segmentation of one 3D-image series was first performed and then the corresponding retest series was segmented by viewing both image series concurrently in two adjacent windows. After manual registration of the series, the first segmentation cartilage outline served as an initial estimate for the second segmentation. We evaluated morphometric measures of the bone and cartilage surface area (tAB and AC), cartilage volume (VC), and mean thickness (ThC.me) for medial/lateral tibia (MT/LT), total femur (F) and patella (P). Test–retest reproducibility was assessed using the root-mean square coefficient of variation (RMS CV%).
Results
For the paired analyses, RMS CV % ranged from 0.9% to 1.2% for VC, from 0.3% to 0.7% for AC, from 0.6% to 2.7% for tAB and 0.8% to 1.5% for ThC.me.
Conclusion
Paired image analysis improved the measurement precision of cartilage segmentation. Our results are in agreement with other publications supporting the use of paired analysis for longitudinal studies of knee OA. |
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| AbstractList | Software-based image analysis is important for studies of cartilage changes in knee osteoarthritis (OA). This study describes an evaluation of a semi-automated cartilage segmentation software tool capable of quantifying paired images for potential use in longitudinal studies of knee OA. We describe the methodology behind the analysis and demonstrate its use by determination of test-retest analysis precision of duplicate knee magnetic resonance imaging (MRI) data sets. Test-retest knee MR images of 12 subjects with a range of knee health were evaluated from the Osteoarthritis Initiative (OAI) pilot MR study. Each subject was removed from the magnet between the two scans. The 3D DESS (sagittal, 0.456 mm×0.365 mm, 0.7 mm slice thickness, TR 16.5 ms, TE 4.7 ms) images were obtained on a 3-T Siemens Trio MR system with a USA Instruments quadrature transmit-receive extremity coil. Segmentation of one 3D-image series was first performed and then the corresponding retest series was segmented by viewing both image series concurrently in two adjacent windows. After manual registration of the series, the first segmentation cartilage outline served as an initial estimate for the second segmentation. We evaluated morphometric measures of the bone and cartilage surface area (tAB and AC), cartilage volume (VC), and mean thickness (ThC.me) for medial/lateral tibia (MT/LT), total femur (F) and patella (P). Test-retest reproducibility was assessed using the root-mean square coefficient of variation (RMS CV%). For the paired analyses, RMS CV % ranged from 0.9% to 1.2% for VC, from 0.3% to 0.7% for AC, from 0.6% to 2.7% for tAB and 0.8% to 1.5% for ThC.me. Paired image analysis improved the measurement precision of cartilage segmentation. Our results are in agreement with other publications supporting the use of paired analysis for longitudinal studies of knee OA. Purpose: Software-based image analysis is important for studies of cartilage changes in knee osteoarthritis (OA). This study describes an evaluation of a semi-automated cartilage segmentation software tool capable of quantifying paired images for potential use in longitudinal studies of knee OA. We describe the methodology behind the analysis and demonstrate its use by determination of test-retest analysis precision of duplicate knee magnetic resonance imaging (MRI) data sets. Methods: Test-retest knee MR images of 12 subjects with a range of knee health were evaluated from the Osteoarthritis Initiative (OAI) pilot MR study. Each subject was removed from the magnet between the two scans. The 3D DESS (sagittal, 0.456mm0.365mm, 0.7mm slice thickness, TR 16.5ms, TE 4.7ms) images were obtained on a 3-T Siemens Trio MR system with a USA Instruments quadrature transmit-receive extremity coil. Segmentation of one 3D-image series was first performed and then the corresponding retest series was segmented by viewing both image series concurrently in two adjacent windows. After manual registration of the series, the first segmentation cartilage outline served as an initial estimate for the second segmentation. We evaluated morphometric measures of the bone and cartilage surface area (tAB and AC), cartilage volume (VC), and mean thickness (ThC.me) for medial/lateral tibia (MT/LT), total femur (F) and patella (P). Test-retest reproducibility was assessed using the root-mean square coefficient of variation (RMS CV%). Results: For the paired analyses, RMS CV % ranged from 0.9% to 1.2% for VC, from 0.3% to 0.7% for AC, from 0.6% to 2.7% for tAB and 0.8% to 1.5% for ThC.me. Conclusion: Paired image analysis improved the measurement precision of cartilage segmentation. Our results are in agreement with other publications supporting the use of paired analysis for longitudinal studies of knee OA. Purpose Software-based image analysis is important for studies of cartilage changes in knee osteoarthritis (OA). This study describes an evaluation of a semi-automated cartilage segmentation software tool capable of quantifying paired images for potential use in longitudinal studies of knee OA. We describe the methodology behind the analysis and demonstrate its use by determination of test–retest analysis precision of duplicate knee magnetic resonance imaging (MRI) data sets. Methods Test–retest knee MR images of 12 subjects with a range of knee health were evaluated from the Osteoarthritis Initiative (OAI) pilot MR study. Each subject was removed from the magnet between the two scans. The 3D DESS (sagittal, 0.456 mm × 0.365 mm, 0.7 mm slice thickness, TR 16.5 ms, TE 4.7 ms) images were obtained on a 3-T Siemens Trio MR system with a USA Instruments quadrature transmit–receive extremity coil. Segmentation of one 3D-image series was first performed and then the corresponding retest series was segmented by viewing both image series concurrently in two adjacent windows. After manual registration of the series, the first segmentation cartilage outline served as an initial estimate for the second segmentation. We evaluated morphometric measures of the bone and cartilage surface area (tAB and AC), cartilage volume (VC), and mean thickness (ThC.me) for medial/lateral tibia (MT/LT), total femur (F) and patella (P). Test–retest reproducibility was assessed using the root-mean square coefficient of variation (RMS CV%). Results For the paired analyses, RMS CV % ranged from 0.9% to 1.2% for VC, from 0.3% to 0.7% for AC, from 0.6% to 2.7% for tAB and 0.8% to 1.5% for ThC.me. Conclusion Paired image analysis improved the measurement precision of cartilage segmentation. Our results are in agreement with other publications supporting the use of paired analysis for longitudinal studies of knee OA. Software-based image analysis is important for studies of cartilage changes in knee osteoarthritis (OA). This study describes an evaluation of a semi-automated cartilage segmentation software tool capable of quantifying paired images for potential use in longitudinal studies of knee OA. We describe the methodology behind the analysis and demonstrate its use by determination of test-retest analysis precision of duplicate knee magnetic resonance imaging (MRI) data sets.PURPOSESoftware-based image analysis is important for studies of cartilage changes in knee osteoarthritis (OA). This study describes an evaluation of a semi-automated cartilage segmentation software tool capable of quantifying paired images for potential use in longitudinal studies of knee OA. We describe the methodology behind the analysis and demonstrate its use by determination of test-retest analysis precision of duplicate knee magnetic resonance imaging (MRI) data sets.Test-retest knee MR images of 12 subjects with a range of knee health were evaluated from the Osteoarthritis Initiative (OAI) pilot MR study. Each subject was removed from the magnet between the two scans. The 3D DESS (sagittal, 0.456 mm x 0.365 mm, 0.7 mm slice thickness, TR 16.5 ms, TE 4.7 ms) images were obtained on a 3-T Siemens Trio MR system with a USA Instruments quadrature transmit-receive extremity coil. Segmentation of one 3D-image series was first performed and then the corresponding retest series was segmented by viewing both image series concurrently in two adjacent windows. After manual registration of the series, the first segmentation cartilage outline served as an initial estimate for the second segmentation. We evaluated morphometric measures of the bone and cartilage surface area (tAB and AC), cartilage volume (VC), and mean thickness (ThC.me) for medial/lateral tibia (MT/LT), total femur (F) and patella (P). Test-retest reproducibility was assessed using the root-mean square coefficient of variation (RMS CV%).METHODSTest-retest knee MR images of 12 subjects with a range of knee health were evaluated from the Osteoarthritis Initiative (OAI) pilot MR study. Each subject was removed from the magnet between the two scans. The 3D DESS (sagittal, 0.456 mm x 0.365 mm, 0.7 mm slice thickness, TR 16.5 ms, TE 4.7 ms) images were obtained on a 3-T Siemens Trio MR system with a USA Instruments quadrature transmit-receive extremity coil. Segmentation of one 3D-image series was first performed and then the corresponding retest series was segmented by viewing both image series concurrently in two adjacent windows. After manual registration of the series, the first segmentation cartilage outline served as an initial estimate for the second segmentation. We evaluated morphometric measures of the bone and cartilage surface area (tAB and AC), cartilage volume (VC), and mean thickness (ThC.me) for medial/lateral tibia (MT/LT), total femur (F) and patella (P). Test-retest reproducibility was assessed using the root-mean square coefficient of variation (RMS CV%).For the paired analyses, RMS CV % ranged from 0.9% to 1.2% for VC, from 0.3% to 0.7% for AC, from 0.6% to 2.7% for tAB and 0.8% to 1.5% for ThC.me.RESULTSFor the paired analyses, RMS CV % ranged from 0.9% to 1.2% for VC, from 0.3% to 0.7% for AC, from 0.6% to 2.7% for tAB and 0.8% to 1.5% for ThC.me.Paired image analysis improved the measurement precision of cartilage segmentation. Our results are in agreement with other publications supporting the use of paired analysis for longitudinal studies of knee OA.CONCLUSIONPaired image analysis improved the measurement precision of cartilage segmentation. Our results are in agreement with other publications supporting the use of paired analysis for longitudinal studies of knee OA. Software-based image analysis is important for studies of cartilage changes in knee osteoarthritis (OA). This study describes an evaluation of a semi-automated cartilage segmentation software tool capable of quantifying paired images for potential use in longitudinal studies of knee OA. We describe the methodology behind the analysis and demonstrate its use by determination of test-retest analysis precision of duplicate knee magnetic resonance imaging (MRI) data sets. Test-retest knee MR images of 12 subjects with a range of knee health were evaluated from the Osteoarthritis Initiative (OAI) pilot MR study. Each subject was removed from the magnet between the two scans. The 3D DESS (sagittal, 0.456 mm x 0.365 mm, 0.7 mm slice thickness, TR 16.5 ms, TE 4.7 ms) images were obtained on a 3-T Siemens Trio MR system with a USA Instruments quadrature transmit-receive extremity coil. Segmentation of one 3D-image series was first performed and then the corresponding retest series was segmented by viewing both image series concurrently in two adjacent windows. After manual registration of the series, the first segmentation cartilage outline served as an initial estimate for the second segmentation. We evaluated morphometric measures of the bone and cartilage surface area (tAB and AC), cartilage volume (VC), and mean thickness (ThC.me) for medial/lateral tibia (MT/LT), total femur (F) and patella (P). Test-retest reproducibility was assessed using the root-mean square coefficient of variation (RMS CV%). For the paired analyses, RMS CV % ranged from 0.9% to 1.2% for VC, from 0.3% to 0.7% for AC, from 0.6% to 2.7% for tAB and 0.8% to 1.5% for ThC.me. Paired image analysis improved the measurement precision of cartilage segmentation. Our results are in agreement with other publications supporting the use of paired analysis for longitudinal studies of knee OA. |
| Author | Lang, P. K. Schneider, E. Yu, J. Pappas, G. Brem, M. H. Eaton, C. B. Yoshioka, H. Duryea, J. Schlechtweg, P. M. Hennig, F. F. Neumann, G. Jackson, R. |
| Author_xml | – sequence: 1 givenname: M. H. surname: Brem fullname: Brem, M. H. organization: Department of Radiology, Brigham and Women’s Hospital, Division of Orthopaedic and Trauma Surgery, Department of Surgery, Friedrich-Alexander-University Erlangen Nuremberg – sequence: 2 givenname: P. K. surname: Lang fullname: Lang, P. K. organization: Department of Radiology, Brigham and Women’s Hospital – sequence: 3 givenname: G. surname: Neumann fullname: Neumann, G. organization: Department of Radiology, Brigham and Women’s Hospital – sequence: 4 givenname: P. M. surname: Schlechtweg fullname: Schlechtweg, P. M. organization: Department of Radiology, Brigham and Women’s Hospital – sequence: 5 givenname: E. surname: Schneider fullname: Schneider, E. organization: SciTrials, LLC, The Cleveland Clinic, Imaging Institute – sequence: 6 givenname: R. surname: Jackson fullname: Jackson, R. organization: Diabetes and Metabolism and Radiology, Department of Endocrinology, The Ohio State University – sequence: 7 givenname: J. surname: Yu fullname: Yu, J. organization: Diabetes and Metabolism and Radiology, Department of Endocrinology, The Ohio State University – sequence: 8 givenname: C. B. surname: Eaton fullname: Eaton, C. B. organization: Memorial Hospital of Rhode Island, Center for Primary Care and Prevention and the Warren Alpert Medical School of Brown University – sequence: 9 givenname: F. F. surname: Hennig fullname: Hennig, F. F. organization: Division of Orthopaedic and Trauma Surgery, Department of Surgery, Friedrich-Alexander-University Erlangen Nuremberg – sequence: 10 givenname: H. surname: Yoshioka fullname: Yoshioka, H. organization: Department of Radiology, Brigham and Women’s Hospital – sequence: 11 givenname: G. surname: Pappas fullname: Pappas, G. organization: Department of Radiology, Brigham and Women’s Hospital – sequence: 12 givenname: J. surname: Duryea fullname: Duryea, J. email: jduryea@bwh.harvard.edu organization: Department of Radiology, Brigham and Women’s Hospital |
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| Keywords | Knee Cartilage Segmentation MRI Osteoarthritis Nuclear medicine Diseases of the osteoarticular system Nuclear magnetic resonance imaging Articular cartilage Orthopedics Arthropathy Medical imagery Degenerative disease Technique |
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| PublicationDate | 2009-05-01 |
| PublicationDateYYYYMMDD | 2009-05-01 |
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| PublicationSubtitle | Journal of the International Skeletal Society A Journal of Radiology, Pathology and Orthopedics |
| PublicationTitle | Skeletal radiology |
| PublicationTitleAbbrev | Skeletal Radiol |
| PublicationTitleAlternate | Skeletal Radiol |
| PublicationYear | 2009 |
| Publisher | Springer-Verlag Springer Springer Nature B.V |
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| References | FrippJCrozierSWarfieldSKOurselinSAutomatic segmentation of the bone and extraction of the bone-cartilage interface from magnetic resonance images of the kneePhys Med Biol2007526161716311732765210.1088/0031-9155/52/6/005 PientkaLArthrose als VolkskrankheitKlin Forsch20006Suppl 223 NeogiTNevittMNiuJLaValleyMPHunterDJTerkeltaubRLack of association between chondrocalcinosis and increased risk of cartilage loss in knees with osteoarthritis: results of two prospective longitudinal magnetic resonance imaging studiesArthritis Rheum2006546182218281672927510.1002/art.219031:STN:280:DC%2BD28zmsFyitw%3D%3D KothariMGuermaziAvon IngerslebenGMiauxYSieffertMBlockJEFixed-flexion radiography of the knee provides reproducible joint space width measurements in osteoarthritisEur Radiol2004149156815731515066610.1007/s00330-004-2312-6 GluerCCBlakeGLuYBluntBAJergasMGenantHKAccurate assessment of precision errors: how to measure the reproducibility of bone densitometry techniquesOsteoporos Int199554262270749286510.1007/BF017740161:STN:280:BymD2MzhtVI%3D Wirth W, Hellio Le Graverand MP, Wyman BT, Maschek S, Hudelmaier M, Hitzl W, et al. Regional analysis of femorotibial cartilage loss in a subsample from the Osteoarthritis Initiative progression subcohort. Osteoarthr Cartil 2008 Sep 11 (in press). BiswalSHastieTAndriacchiTPBergmanGADillinghamMFLangPRisk factors for progressive cartilage loss in the knee: a longitudinal magnetic resonance imaging study in forty-three patientsArthritis Rheum20024611288428921242822810.1002/art.10573 PeterfyCGvan DijkeCFJanzenDLGluerCCNambaRMajumdarSQuantification of articular cartilage in the knee with pulsed saturation transfer subtraction and fat-suppressed MR imaging: optimization and validationRadiology1994192248549180294201:STN:280:ByuA3c3isVU%3D NeogiTBoothSLZhangYQJacquesPFTerkeltaubRAliabadiPLow vitamin K status is associated with osteoarthritis in the hand and kneeArthritis Rheum2006544125512611657246010.1002/art.217351:CAS:528:DC%2BD28XksVyhtb8%3D KooSGoldGEAndriacchiTPConsideration in measuring cartilage thickness using MRI: factors including reproducibility and accuracyOsteoarthr Cartil2005137827891596132810.1016/j.joca.2005.04.0131:STN:280:DC%2BD2MvosVGgug%3D%3D BremMHPauserJYoshiokaHBrenningAStratmannJHennigFFLongitudinal in vivo reproducibility of cartilage volume and surface in osteoarthritis of the kneeSkeletal Radiol.20073643153201721923110.1007/s00256-006-0208-z1:STN:280:DC%2BD2szmslynsw%3D%3D HunterDJZhangYQNiuJBFelsonDTKwohKNewmanAPatella malalignment, pain and patellofemoral progression: the Health ABC StudyOsteoarthritis Cartilage20071510112011271750215810.1016/j.joca.2007.03.0201:STN:280:DC%2BD2srjvFGhtg%3D%3D KassMWitkinATerzopoulosDSnakes: active contour modelsInt J Comput Vis19871432133110.1007/BF00133570 GlaserCBurgkartRKutscheraAEnglmeierKHReiserMEcksteinFFemoro-tibial cartilage metrics from coronal MR image data: technique, test-retest reproducibility, and findings in osteoarthritisMagn Reson Med2003506122912361464857110.1002/mrm.10648 Eckstein F, Maschek S, Wirth W, Hudelmaier M, Hitzl W, Wyman B, et al. One year change of knee cartilage morphology in the first release of participants from the Osteoarthritis Initiative Progression Subcohort—association with sex, Body Mass Index, symptoms, and radiographic OA status. Ann Rheum Dis. 2008 Jul 7 (in press). RaynauldJPKauffmannCBeaudoinGBerthiaumeMJde GuiseJABlochDAReliability of a quantification imaging system using magnetic resonance images to measure cartilage thickness and volume in human normal and osteoarthritic kneesOsteoarthr Cartil20031153513601274494110.1016/S1063-4584(03)00029-3 StammbergerTEcksteinFMichaelisMEnglmeierKHReiserMInterobserver reproducibility of quantitative cartilage measurements: comparison of B-spline snakes and manual segmentationMagn Reson Imaging1999177103310421046365410.1016/S0730-725X(99)00040-51:STN:280:DyaK1MzptFaqtw%3D%3D HunterDJLoGHGaleDGraingerAJGuermaziAConaghanPGThe reliability of a new scoring system for knee osteoarthritis MRI and the validity of bone marrow lesion assessment: BLOKS (Boston Leeds Osteoarthritis Knee Score)Ann Rheum Dis20086722062111747299510.1136/ard.2006.0661831:STN:280:DC%2BD1c%2FisVOntA%3D%3D McWalterEJWirthWSiebertMvon Eisenhart-RotheRMHudelmaierMWilsonDRUse of novel interactive input devices for segmentation of articular cartilage from magnetic resonance imagesOsteoarthr Cartil200513148531563963710.1016/j.joca.2004.09.0081:STN:280:DC%2BD2M%2FhsVGjsQ%3D%3D EcksteinFKunzMHudelmaierMJacksonRYuJEatonCBImpact of coil design on the contrast-to-noise ratio, precision, and consistency of quantitative cartilage morphometry at 3 Tesla: a pilot study for the osteoarthritis initiativeMagn Reson Med20075724484541726036310.1002/mrm.21146 Eckstein FCF, Raynauld JP, Waterton JC, Peterfy CG, eds. Magnetic resonance imaging (MRI) of articular cartilage in knee osteoarthritis (OA): Morphological assessment; 2006. Osteoarthr Cartil. SollowaySHutchinsonCEWatertonJCTaylorCJThe use of active shape models for making thickness measurements of articular cartilage from MR imagesMagn Reson Med1997376943952917824710.1002/mrm.19103706201:STN:280:ByiA387ltlM%3D http://www.oai.ucsf.edu/datarelease/. KshirsagarAAWatsonPJTylerJAHallLDMeasurement of localized cartilage volume and thickness of human knee joints by computer analysis of three-dimensional magnetic resonance imagesInvest Radiol1998335289299960948810.1097/00004424-199805000-000061:STN:280:DyaK1c3ntVKmsw%3D%3D DuryeaJNeumannGBremMHKohWNoorbakhshFJacksonRDNovel fast semi-automated software to segment cartilage for knee MR acquisitionsOsteoarthritis Cartilage20071554874921718852510.1016/j.joca.2006.11.0021:STN:280:DC%2BD2s3ntVKruw%3D%3D BakerJAKornguthPJLoJYWillifordMEFloydCEJrBreast cancer: prediction with artificial neural network based on BI-RADS standardized lexiconRadiology1995196381782276446491:STN:280:ByqA2s3ltlM%3D EcksteinFHeudorferLFaberSCBurgkartREnglmeierKHReiserMLong-term and resegmentation precision of quantitative cartilage MR imaging (qMRI)Osteoarthr Cartil200210129229281246455210.1053/joca.2002.08441:STN:280:DC%2BD38jgtleksA%3D%3D LinkTMSteinbachLSGhoshSRiesMLuYLaneNOsteoarthritis: MR imaging findings in different stages of disease and correlation with clinical findingsRadiology200322623733811256312810.1148/radiol.2262012190 YoshiokaHStevensKGenoveseMDillinghamMFLangPArticular cartilage of knee: normal patterns at MR imaging that mimic disease in healthy subjects and patients with osteoarthritisRadiology2004231131381506893810.1148/radiol.2311020453 EcksteinFBuckRJBursteinDCharlesHCCrimJHudelmaierMPrecision of 3.0 Tesla quantitative magnetic resonance imaging of cartilage morphology in a multicentre clinical trialAnn Rheum Dis20086712168316881828305410.1136/ard.2007.0769191:STN:280:DC%2BD1cjjs1KltQ%3D%3D EcksteinFAteshianGBurgkartRBursteinDCicuttiniFDardzinskiBProposal for a nomenclature for magnetic resonance imaging based measures of articular cartilage in osteoarthritisOsteoarthr Cartil200614109749831673046210.1016/j.joca.2006.03.0051:STN:280:DC%2BD28rjvVyitQ%3D%3D EcksteinFCharlesHCBuckRJKrausVBRemmersAEHudelmaierMAccuracy and precision of quantitative assessment of cartilage morphology by magnetic resonance imaging at 3.0TArthritis Rheum20055210313231361620059210.1002/art.21348 Cisternas M, Yelin E, Trupin L, Murphy L, Helmick CG. Direct and indirect costs of arthritis and other rheumatic conditions - United States, 1997. Report. Atlanta: Centers for Disease Control and Prevention; 2003 November 21, 2003 Contract No.: Document Number. KornaatPRBloemJLCeulemansRYRiyaziNRosendaalFRNelissenRGOsteoarthritis of the knee: association between clinical features and MR imaging findingsRadiology200623938118171671446310.1148/radiol.2393050253 PeterfyCGGuermaziAZaimSTirmanPFMiauxYWhiteDWhole-Organ Magnetic Resonance Imaging Score (WORMS) of the knee in osteoarthritisOsteoarthr Cartil20041231771901497233510.1016/j.joca.2003.11.0031:STN:280:DC%2BD2c%2Fotl2isQ%3D%3D S Solloway (658_CR12) 1997; 37 TM Link (658_CR3) 2003; 226 J Duryea (658_CR15) 2007; 15 658_CR23 M Kass (658_CR27) 1987; 1 M Kothari (658_CR26) 2004; 14 C Glaser (658_CR31) 2003; 50 AA Kshirsagar (658_CR13) 1998; 33 658_CR25 F Eckstein (658_CR35) 2008; 67 PR Kornaat (658_CR4) 2006; 239 S Koo (658_CR34) 2005; 13 JP Raynauld (658_CR16) 2003; 11 H Yoshioka (658_CR7) 2004; 231 L Pientka (658_CR2) 2000; 6 F Eckstein (658_CR30) 2005; 52 S Biswal (658_CR6) 2002; 46 T Neogi (658_CR21) 2006; 54 MH Brem (658_CR32) 2007; 36 J Fripp (658_CR17) 2007; 52 658_CR33 JA Baker (658_CR10) 1995; 196 F Eckstein (658_CR24) 2007; 57 CG Peterfy (658_CR8) 2004; 12 CG Peterfy (658_CR5) 1994; 192 DJ Hunter (658_CR20) 2007; 15 658_CR19 DJ Hunter (658_CR9) 2008; 67 T Stammberger (658_CR11) 1999; 17 T Neogi (658_CR22) 2006; 54 EJ McWalter (658_CR14) 2005; 13 F Eckstein (658_CR29) 2002; 10 F Eckstein (658_CR18) 2006; 14 CC Gluer (658_CR28) 1995; 5 658_CR1 |
| References_xml | – reference: RaynauldJPKauffmannCBeaudoinGBerthiaumeMJde GuiseJABlochDAReliability of a quantification imaging system using magnetic resonance images to measure cartilage thickness and volume in human normal and osteoarthritic kneesOsteoarthr Cartil20031153513601274494110.1016/S1063-4584(03)00029-3 – reference: http://www.oai.ucsf.edu/datarelease/. – reference: Eckstein FCF, Raynauld JP, Waterton JC, Peterfy CG, eds. Magnetic resonance imaging (MRI) of articular cartilage in knee osteoarthritis (OA): Morphological assessment; 2006. Osteoarthr Cartil. – reference: PientkaLArthrose als VolkskrankheitKlin Forsch20006Suppl 223 – reference: YoshiokaHStevensKGenoveseMDillinghamMFLangPArticular cartilage of knee: normal patterns at MR imaging that mimic disease in healthy subjects and patients with osteoarthritisRadiology2004231131381506893810.1148/radiol.2311020453 – reference: KothariMGuermaziAvon IngerslebenGMiauxYSieffertMBlockJEFixed-flexion radiography of the knee provides reproducible joint space width measurements in osteoarthritisEur Radiol2004149156815731515066610.1007/s00330-004-2312-6 – reference: GlaserCBurgkartRKutscheraAEnglmeierKHReiserMEcksteinFFemoro-tibial cartilage metrics from coronal MR image data: technique, test-retest reproducibility, and findings in osteoarthritisMagn Reson Med2003506122912361464857110.1002/mrm.10648 – reference: PeterfyCGGuermaziAZaimSTirmanPFMiauxYWhiteDWhole-Organ Magnetic Resonance Imaging Score (WORMS) of the knee in osteoarthritisOsteoarthr Cartil20041231771901497233510.1016/j.joca.2003.11.0031:STN:280:DC%2BD2c%2Fotl2isQ%3D%3D – reference: BiswalSHastieTAndriacchiTPBergmanGADillinghamMFLangPRisk factors for progressive cartilage loss in the knee: a longitudinal magnetic resonance imaging study in forty-three patientsArthritis Rheum20024611288428921242822810.1002/art.10573 – reference: StammbergerTEcksteinFMichaelisMEnglmeierKHReiserMInterobserver reproducibility of quantitative cartilage measurements: comparison of B-spline snakes and manual segmentationMagn Reson Imaging1999177103310421046365410.1016/S0730-725X(99)00040-51:STN:280:DyaK1MzptFaqtw%3D%3D – reference: Wirth W, Hellio Le Graverand MP, Wyman BT, Maschek S, Hudelmaier M, Hitzl W, et al. Regional analysis of femorotibial cartilage loss in a subsample from the Osteoarthritis Initiative progression subcohort. Osteoarthr Cartil 2008 Sep 11 (in press). – reference: Cisternas M, Yelin E, Trupin L, Murphy L, Helmick CG. Direct and indirect costs of arthritis and other rheumatic conditions - United States, 1997. Report. Atlanta: Centers for Disease Control and Prevention; 2003 November 21, 2003 Contract No.: Document Number. – reference: BremMHPauserJYoshiokaHBrenningAStratmannJHennigFFLongitudinal in vivo reproducibility of cartilage volume and surface in osteoarthritis of the kneeSkeletal Radiol.20073643153201721923110.1007/s00256-006-0208-z1:STN:280:DC%2BD2szmslynsw%3D%3D – reference: BakerJAKornguthPJLoJYWillifordMEFloydCEJrBreast cancer: prediction with artificial neural network based on BI-RADS standardized lexiconRadiology1995196381782276446491:STN:280:ByqA2s3ltlM%3D – reference: EcksteinFKunzMHudelmaierMJacksonRYuJEatonCBImpact of coil design on the contrast-to-noise ratio, precision, and consistency of quantitative cartilage morphometry at 3 Tesla: a pilot study for the osteoarthritis initiativeMagn Reson Med20075724484541726036310.1002/mrm.21146 – reference: KornaatPRBloemJLCeulemansRYRiyaziNRosendaalFRNelissenRGOsteoarthritis of the knee: association between clinical features and MR imaging findingsRadiology200623938118171671446310.1148/radiol.2393050253 – reference: PeterfyCGvan DijkeCFJanzenDLGluerCCNambaRMajumdarSQuantification of articular cartilage in the knee with pulsed saturation transfer subtraction and fat-suppressed MR imaging: optimization and validationRadiology1994192248549180294201:STN:280:ByuA3c3isVU%3D – reference: GluerCCBlakeGLuYBluntBAJergasMGenantHKAccurate assessment of precision errors: how to measure the reproducibility of bone densitometry techniquesOsteoporos Int199554262270749286510.1007/BF017740161:STN:280:BymD2MzhtVI%3D – reference: DuryeaJNeumannGBremMHKohWNoorbakhshFJacksonRDNovel fast semi-automated software to segment cartilage for knee MR acquisitionsOsteoarthritis Cartilage20071554874921718852510.1016/j.joca.2006.11.0021:STN:280:DC%2BD2s3ntVKruw%3D%3D – reference: KooSGoldGEAndriacchiTPConsideration in measuring cartilage thickness using MRI: factors including reproducibility and accuracyOsteoarthr Cartil2005137827891596132810.1016/j.joca.2005.04.0131:STN:280:DC%2BD2MvosVGgug%3D%3D – reference: NeogiTBoothSLZhangYQJacquesPFTerkeltaubRAliabadiPLow vitamin K status is associated with osteoarthritis in the hand and kneeArthritis Rheum2006544125512611657246010.1002/art.217351:CAS:528:DC%2BD28XksVyhtb8%3D – reference: EcksteinFAteshianGBurgkartRBursteinDCicuttiniFDardzinskiBProposal for a nomenclature for magnetic resonance imaging based measures of articular cartilage in osteoarthritisOsteoarthr Cartil200614109749831673046210.1016/j.joca.2006.03.0051:STN:280:DC%2BD28rjvVyitQ%3D%3D – reference: HunterDJZhangYQNiuJBFelsonDTKwohKNewmanAPatella malalignment, pain and patellofemoral progression: the Health ABC StudyOsteoarthritis Cartilage20071510112011271750215810.1016/j.joca.2007.03.0201:STN:280:DC%2BD2srjvFGhtg%3D%3D – reference: HunterDJLoGHGaleDGraingerAJGuermaziAConaghanPGThe reliability of a new scoring system for knee osteoarthritis MRI and the validity of bone marrow lesion assessment: BLOKS (Boston Leeds Osteoarthritis Knee Score)Ann Rheum Dis20086722062111747299510.1136/ard.2006.0661831:STN:280:DC%2BD1c%2FisVOntA%3D%3D – reference: SollowaySHutchinsonCEWatertonJCTaylorCJThe use of active shape models for making thickness measurements of articular cartilage from MR imagesMagn Reson Med1997376943952917824710.1002/mrm.19103706201:STN:280:ByiA387ltlM%3D – reference: McWalterEJWirthWSiebertMvon Eisenhart-RotheRMHudelmaierMWilsonDRUse of novel interactive input devices for segmentation of articular cartilage from magnetic resonance imagesOsteoarthr Cartil200513148531563963710.1016/j.joca.2004.09.0081:STN:280:DC%2BD2M%2FhsVGjsQ%3D%3D – reference: FrippJCrozierSWarfieldSKOurselinSAutomatic segmentation of the bone and extraction of the bone-cartilage interface from magnetic resonance images of the kneePhys Med Biol2007526161716311732765210.1088/0031-9155/52/6/005 – reference: EcksteinFHeudorferLFaberSCBurgkartREnglmeierKHReiserMLong-term and resegmentation precision of quantitative cartilage MR imaging (qMRI)Osteoarthr Cartil200210129229281246455210.1053/joca.2002.08441:STN:280:DC%2BD38jgtleksA%3D%3D – reference: Eckstein F, Maschek S, Wirth W, Hudelmaier M, Hitzl W, Wyman B, et al. One year change of knee cartilage morphology in the first release of participants from the Osteoarthritis Initiative Progression Subcohort—association with sex, Body Mass Index, symptoms, and radiographic OA status. Ann Rheum Dis. 2008 Jul 7 (in press). – reference: KassMWitkinATerzopoulosDSnakes: active contour modelsInt J Comput Vis19871432133110.1007/BF00133570 – reference: KshirsagarAAWatsonPJTylerJAHallLDMeasurement of localized cartilage volume and thickness of human knee joints by computer analysis of three-dimensional magnetic resonance imagesInvest Radiol1998335289299960948810.1097/00004424-199805000-000061:STN:280:DyaK1c3ntVKmsw%3D%3D – reference: NeogiTNevittMNiuJLaValleyMPHunterDJTerkeltaubRLack of association between chondrocalcinosis and increased risk of cartilage loss in knees with osteoarthritis: results of two prospective longitudinal magnetic resonance imaging studiesArthritis Rheum2006546182218281672927510.1002/art.219031:STN:280:DC%2BD28zmsFyitw%3D%3D – reference: LinkTMSteinbachLSGhoshSRiesMLuYLaneNOsteoarthritis: MR imaging findings in different stages of disease and correlation with clinical findingsRadiology200322623733811256312810.1148/radiol.2262012190 – reference: 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| Snippet | Purpose
Software-based image analysis is important for studies of cartilage changes in knee osteoarthritis (OA). This study describes an evaluation of a... Software-based image analysis is important for studies of cartilage changes in knee osteoarthritis (OA). This study describes an evaluation of a semi-automated... Purpose: Software-based image analysis is important for studies of cartilage changes in knee osteoarthritis (OA). This study describes an evaluation of a... |
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| SubjectTerms | Adult Aged Algorithms Biological and medical sciences Cartilage, Articular - pathology Diseases of the osteoarticular system Female Humans Image Interpretation, Computer-Assisted Imaging Investigative techniques, diagnostic techniques (general aspects) Magnetic Resonance Imaging - methods Male Medical sciences Medicine Medicine & Public Health Middle Aged Miscellaneous. Osteoarticular involvement in other diseases Nuclear Medicine Orthopedics Osteoarthritis Osteoarthritis, Knee - diagnosis Osteoarticular system. Muscles Pathology Pilot Projects Radiodiagnosis. Nmr imagery. Nmr spectrometry Radiology Reproducibility of Results Scientific Article Software |
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| Title | Magnetic resonance image segmentation using semi-automated software for quantification of knee articular cartilage—initial evaluation of a technique for paired scans |
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