Top

Published in:

Open Access 01-10-2010 | Research article

Comparison of 3T MR scanners in regional cartilage-thickness analysis in osteoarthritis: a cross-sectional multicenter, multivendor study

Authors: Sharon Balamoody, Tomos G Williams, John C Waterton, Michael Bowes, Richard Hodgson, Chris J Taylor, Charles E Hutchinson

Published in: Arthritis Research & Therapy | Issue 5/2010

Abstract

Introduction

Cartilage thickness from MR images has been identified as a possible biomarker in knee osteoarthritis (OA) research. The ability to acquire MR data at multiple centers by using different vendors' scanners would facilitate patient recruitment and shorten the duration of OA trials. Several vendors manufacture 3T MR scanners, including Siemens, Philips Medical Systems, and GE Healthcare. This study investigates whether quantitative MR assessments of cartilage morphology are comparable between scanners of three different vendors.

Methods

Twelve subjects with symptoms of knee OA and one or more risk factors had their symptomatic knee scanned on each of the three vendor's scanners located in three sites in the UK: Manchester (Philips), York (GE), and Liverpool (Siemens). The NIH OAI study protocol was used for the Siemens scanner, and equivalent protocols were developed for the Philips and GE scanners with vendors' advice. Cartilage was segmented manually from sagittal 3D images. By using recently described techniques for Anatomically Corresponded Regional Analysis of Cartilage (ACRAC), a statistical model was used anatomically to align all the images and to produce detailed maps of mean differences in cartilage-thickness measures between scanners. Measures of cartilage mean thickness were computed in anatomically equivalent regions for each subject and scanner image.

Results

The ranges of mean cartilage-thickness measures for this cohort were similar for all regions and across all scanners. Philips intrascanner root-mean-square coefficients of variation were low in the range from 2.6% to 4.6%. No significant differences were found for thickness measures of the weight-bearing femorotibial regions from the Philips and Siemens images except for the central medial femur compartment (P = 0.04). Compared with the other two scanners, the GE scanner provided consistently lower mean thickness measures in the central femoral regions (mean difference, -0.16 mm) and higher measures in the tibial compartments (mean difference, +0.19 mm).

Conclusions

The OAI knee-imaging protocol, developed on the Siemens platform, can be applied to research and trials by using other vendors' 3T scanners giving comparable morphologic results. Accurate sequence optimization, differences in image postprocessing, and extremity coil type are critical factors for interscanner precision of quantitative analysis of cartilage morphology. It is still recommended that longitudinal observations on individuals should be performed on the same scanner and that assessment of intra- and interscanner precision errors is undertaken before commencement of the main study.

Available only for authorised users

The Osteoarthritis Initiative. [http://www.oai.ucsf.edu/datarelease/]

Eckstein F, Maschek S, Wirth W, Hudelmaier M, Hitzl W, Wyman B, Nevitt M, Hellio Le Graverand MP: 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, 68: 674-679. 10.1136/ard.2008.089904.PubMedCentralCrossRefPubMed

Eckstein F, Stein V, Lengfelder V, Hudelmaier M, Wirth W, Cahue S, Marshall M, Sharma L: Regional cartilage loss in patients with femorotibial osteoarthritis with neutral, valgus and varus knee alignment. Workshop on imaged-based measures of osteoarthritis. 2007, Salzburg, Austria

Wirth W, Hellio Le Graverand MP, Wyman BT, Maschek S, Hudelmaier M, Hitzl W, Nevitt M, Eckstein F: Regional analysis of femorotibial cartilage loss in a subsample from the Osteoarthritis Initiative progression subcohort. Osteoarthritis Cartilage. 2009, 17: 291-297. 10.1016/j.joca.2008.07.008.PubMedCentralCrossRefPubMed

Waterton JC, Solloway S, Foster JE, Keen MC, Gandy S, Middleton BJ, Maciewicz RA, Watt I, Dieppe PA, Taylor CJ: Diurnal variation in the femoral articular cartilage of the knee in young adult humans. Magn Reson Med. 2000, 43: 126-132. 10.1002/(SICI)1522-2594(200001)43:1<126::AID-MRM15>3.0.CO;2-#.CrossRefPubMed

Eckstein F, Reiser M, Englmeier KH, Putz R: In vivo morphometry and functional analysis of human articular cartilage with quantitative magnetic resonance imaging: from image to data, from data to theory. Anat Embryol (Berl). 2001, 203: 147-173. 10.1007/s004290000154.CrossRef

Hellio Le Graverand MP, Wyman B, Buck R, Wirth W, Hudelmaier M, Eckstein F: Twelve month longitudinal change in regional cartilage morphology in a multicenter, multivendor MRI study at 3.0T: the A9001140 Study. Workshop on imaging based biomarkers of osteoarthritis. 2007, Salzburg, Austria

Morgan SR, Waterton JC, Maciewicz RA, Leadbetter JE, Gandy SJ, Moots RJ, Creamer P, Nash AFP: Magnetic resonance imaging measurement of knee cartilage volume in a multicentre study. Rheumatology. 2004, 43: 19-21. 10.1093/rheumatology/keg426.CrossRefPubMed

Kornaat PR, Koo S, Andriacchi TP, Bloem JL, Gold GE: Comparison of quantitative cartilage measurements acquired on two 3.0T MRI systems from different manufacturers. J Magn Reson Imaging. 2006, 23: 770-773. 10.1002/jmri.20561.CrossRefPubMed

10.

Eckstein F, Buck RJ, Burstein D, Charles HC, Crim J, Hudelmaier M, Hunter DJ, Hutchins G, Jackson C, Kraus VB, Lane NE, Link TM, Majumdar LS, Mazzuca S, Prasad PV, Schnitzer TJ, Taljanovic MS, Vaz A, Wyman B, Le Graverand MP: Precision of 3.0 Tesla quantitative magnetic resonance imaging of cartilage morphology in a multicentre clinical trial. Ann Rheum Dis. 2008, 67: 1683-1688. 10.1136/ard.2007.076919.CrossRefPubMed

11.

Coordinating Center UoCSF: The osteoarthritis initiative: protocol for the cohort study. 2006, UoCSF, San Francisco, California

12.

Peterfy CG, Guermazi A, Zaim S, Tirman PF, Miaux Y, White D, Kothari M, Lu Y, Fye K, Zhao S, Genant HK: Whole-organ magnetic resonance imaging score (WORMS) of the knee in osteoarthritis. Osteoarthritis Cartilage. 2004, 12: 177-190. 10.1016/j.joca.2003.11.003.CrossRefPubMed

13.

Mortensen EN, Barret WA: Interactive segmentation with intelligent scissors. Graph Models Image Process. 1998, 60: 349-384. 10.1006/gmip.1998.0480.CrossRef

14.

Williams TG: Regional quantitative analysis of knee cartilage in a population study using {MRI} and model based correspondences. (ISBI) IEEE international symposium on biomedical imaging. 2006, Arlington VA

15.

Petrovic V, Cootes TF: Automatic framework for medical image registration, segmentation and modelling (sic). Medical image understanding and analysis. 2006, Manchester, UK

16.

Eckstein F, Ateshian G, Burgkart R, Burstein D, Cicuttini F, Dardzinski B, Gray M, Link TM, Majumdar S, Mosher T, Peterfy C, Totterman S, Waterton J, Winalski CS, Felson D: Proposal for a nomenclature for magnetic resonance imaging based measures of articular cartilage in osteoarthritis. Osteoarthritis Cartilage. 2006, 14: 974-983. 10.1016/j.joca.2006.03.005.CrossRefPubMed

17.

Tamez-Pena JG, Barbu-McInnis M, Totterman S: Unsupervised definition of the tibia-femoral joint regions of the human knee and its applications tocartilage analysis. Medical Imaging: Image Processing Proc of SPIE. 2006, 6144, 61444K

18.

Wirth E, Roth M: Regional analysis of cartilage morphology in defined anatomical subregions of femorotibial cartilages. OARSI World Congress on Osteoarthritis. 2006, Prague, Czech Republic

19.

Williams TG, Holmes AP, Bowes M, Vincent G, Hutchinson CE, Waterton JC, Maciewicz RA, Taylor CJ: Measurement and visualisation of focal cartilage thickness change from MRI in a study of knee osteoarthritis using a novel image analysis tool. Br J Radiol. 2010, 83: 940-948. 10.1259/bjr/68875123.PubMedCentralCrossRefPubMed

20.

Gandy SJ, Dieppe PA, Keen MC, Maciewicz RA, Watt I, Waterton JC: No loss of cartilage volume over three years in patients with knee osteoarthritis as assessed by magnetic resonance imaging. Osteoarthritis Cartilage. 2002, 10: 929-937. 10.1053/joca.2002.0849.CrossRefPubMed

21.

Bland JM, Altman DG: Statistical methods for assessing agreement between two methods of clinical measurement. Lancet. 1986, 1: 307-310.CrossRefPubMed

22.

Balamoody S: MR imaging at 3.0T in the assessment of knee osteoarthritis. University of Manchester, Imaging Sciences and Biomedical Engineering. 2008, MD Thesis

23.

Eckstein F, Charles HC, Buck RJ, Kraus VB, Remmers AE, Hudelmaier M, Wirth W, Evelhoch JL: Accuracy and precision of quantitative assessment of cartilage morphology by magnetic resonance imaging at 3.0T. Arthritis Rheum. 2005, 52: 3132-3136. 10.1002/art.21348.CrossRefPubMed

24.

Glaser C, Burgkart R, Kutschera A, Englmeier KH, Reiser M, Eckstein F: Femoro-tibial cartilage metrics from coronal MR image data: technique, test-retest reproducibility, and findings in osteoarthritis. Magn Reson Med. 2003, 50: 1229-1236. 10.1002/mrm.10648.CrossRefPubMed

25.

Multi-centre studies: how to reduce inter-centre differences. [http://qmri.org/]

Title: Comparison of 3T MR scanners in regional cartilage-thickness analysis in osteoarthritis: a cross-sectional multicenter, multivendor study
Authors: Sharon Balamoody
Tomos G Williams
John C Waterton
Michael Bowes
Richard Hodgson
Chris J Taylor
Charles E Hutchinson
Publication date: 01-10-2010
Publisher: BioMed Central
Published in: Arthritis Research & Therapy / Issue 5/2010
Electronic ISSN: 1478-6362
DOI: https://doi.org/10.1186/ar3174

ACC 2024 Congress Coverage

Heart Failure Video

At a glance: The ONWARDS insulin icodec trials

Springer Medicine

Comparison of 3T MR scanners in regional cartilage-thickness analysis in osteoarthritis: a cross-sectional multicenter, multivendor study

Abstract

Introduction

Methods

Results

Conclusions

ACC 2024 Congress Coverage

Year in Review: Heart failure and cardiomyopathies

Semaglutide benefits people with type 2 diabetes and obesity-related heart failure

Incentivised to exercise

New intervention for STEMI-related cardiogenic shock

» View more highlights on the ACC 2024 congress hub page

At a glance: The ONWARDS insulin icodec trials

Springer Medicine

Abstract

Introduction

Methods

Results

Conclusions

Please log in to get access to this content

Other articles of this Issue 5/2010

Prediction model for knee osteoarthritis based on genetic and clinical information

Chondroprotective effects and mechanisms of resveratrol in advanced glycation end products-stimulated chondrocytes

Assessment of myocardial abnormalities in rheumatoid arthritis using a comprehensive cardiac magnetic resonance approach: a pilot study

The cytokine language of monocytes and macrophages in systemic sclerosis

Perturbation of adhesion molecule-mediated chondrocyte-matrix interactions by 4-hydroxynonenal binding: implication in osteoarthritis pathogenesis

The association between rheumatoid arthritis and periodontal disease

ACC 2024 Congress Coverage

Year in Review: Heart failure and cardiomyopathies

Semaglutide benefits people with type 2 diabetes and obesity-related heart failure

Incentivised to exercise

New intervention for STEMI-related cardiogenic shock

» View more highlights on the ACC 2024 congress hub page