Consensus approach for 3D joint space width of metacarpophalangeal joints of rheumatoid arthritis patients using high-resolution peripheral quantitative computed tomography

Kathryn S. Stok; Andrew J. Burghardt; Stephanie Boutroy; Michiel P. H. Peters; Sarah L. Manske; Vincent Stadelmann; Nicolas Vilayphiou; Joop P. van den Bergh; Piet Geusens; Xiaojuan Li; Hubert Marotte; Bert van Rietbergen; Steven K. Boyd; Cheryl Barnabe; SPECTRA Collaboration

doi:10.21037/qims.2019.12.11

Consensus approach for 3D joint space width of metacarpophalangeal joints of rheumatoid arthritis patients using high-resolution peripheral quantitative computed tomography

Kathryn S. Stok^*, Andrew J. Burghardt, Stephanie Boutroy, Michiel P. H. Peters, Sarah L. Manske, Vincent Stadelmann, Nicolas Vilayphiou, Joop P. van den Bergh, Piet Geusens, Xiaojuan Li, Hubert Marotte, Bert van Rietbergen, Steven K. Boyd, Cheryl Barnabe, SPECTRA Collaboration

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

10 Citations (Web of Science)

Abstract

Background: Joint space assessment for rheumatoid arthritis (RA) by ordinal conventional radiographic scales is susceptible to floor and ceiling effects. High-resolution peripheral quantitative computed tomography (HR-pQCT) provides superior resolution, and may detect earlier changes. The goal of this work was to compare existing 3D methods to calculate joint space width (JSW) metrics in human metacarpophalangeal (MCP) joints with HR-pQCT and reach consensus for future studies. Using the consensus method, we established reproducibility with repositioning as well as feasibility for use in second-generation HR-pQCT scanners.

Methods: Three published JSW methods were compared using datasets from individuals with RA from three research centers. A SPECTRA consensus method was developed to take advantage of strengths of the individual methods. Using the SPECTRA method, reproducibility after repositioning was tested and agreement between scanner generations was also established.

Results: When comparing existing JSW methods, excellent agreement was shown for JSW minimum and mean (ICC 0.987-0.996) but not maximum and volume (ICC 0.000-0.897). Differences were identified as variations in volume definitions and algorithmic differences that generated high sensitivity to boundary conditions. The SPECTRA consensus method reduced this sensitivity, demonstrating good scan-rescan reliability (ICC >0.911) except for minimum JSW (ICC 0.656). There was strong agreement between results from first- and second-generation HR-pQCT (ICC >0.833).

Conclusions: The SPECTRA consensus method combines unique strengths of three independently-developed algorithms and leverages underlying software updates to provide a mature analysis to measure 3D JSW This method is robust with respect to repositioning and scanner generations, suggesting its suitability for detecting change.

Original language	English
Pages (from-to)	314-325
Number of pages	12
Journal	Quantitative Imaging in Medicine and Surgery
Volume	10
Issue number	2
DOIs	https://doi.org/10.21037/qims.2019.12.11
Publication status	Published - Feb 2020

Keywords

X-ray computed tomography
3D imaging
high-resolution peripheral quantitative computed tomography (HR-pQCT)
arthritis
rheumatoid
metacarpophalangeal joint
OMERACT
peripheral quantitative CT
joint space width (JSW)
three-dimensional
in vivo
BONE EROSIONS
CARTILAGE
REPRODUCIBILITY
QUANTIFICATION
RELIABILITY
WRIST

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Cite this

Stok, K. S., Burghardt, A. J., Boutroy, S., Peters, M. P. H., Manske, S. L., Stadelmann, V., Vilayphiou, N., van den Bergh, J. P., Geusens, P., Li, X., Marotte, H., van Rietbergen, B., Boyd, S. K., Barnabe, C., & SPECTRA Collaboration (2020). Consensus approach for 3D joint space width of metacarpophalangeal joints of rheumatoid arthritis patients using high-resolution peripheral quantitative computed tomography. Quantitative Imaging in Medicine and Surgery, 10(2), 314-325. https://doi.org/10.21037/qims.2019.12.11

@article{db4515322eb147709b3cf74b10aef9a7,

title = "Consensus approach for 3D joint space width of metacarpophalangeal joints of rheumatoid arthritis patients using high-resolution peripheral quantitative computed tomography",

abstract = "Background: Joint space assessment for rheumatoid arthritis (RA) by ordinal conventional radiographic scales is susceptible to floor and ceiling effects. High-resolution peripheral quantitative computed tomography (HR-pQCT) provides superior resolution, and may detect earlier changes. The goal of this work was to compare existing 3D methods to calculate joint space width (JSW) metrics in human metacarpophalangeal (MCP) joints with HR-pQCT and reach consensus for future studies. Using the consensus method, we established reproducibility with repositioning as well as feasibility for use in second-generation HR-pQCT scanners.Methods: Three published JSW methods were compared using datasets from individuals with RA from three research centers. A SPECTRA consensus method was developed to take advantage of strengths of the individual methods. Using the SPECTRA method, reproducibility after repositioning was tested and agreement between scanner generations was also established.Results: When comparing existing JSW methods, excellent agreement was shown for JSW minimum and mean (ICC 0.987-0.996) but not maximum and volume (ICC 0.000-0.897). Differences were identified as variations in volume definitions and algorithmic differences that generated high sensitivity to boundary conditions. The SPECTRA consensus method reduced this sensitivity, demonstrating good scan-rescan reliability (ICC >0.911) except for minimum JSW (ICC 0.656). There was strong agreement between results from first- and second-generation HR-pQCT (ICC >0.833).Conclusions: The SPECTRA consensus method combines unique strengths of three independently-developed algorithms and leverages underlying software updates to provide a mature analysis to measure 3D JSW This method is robust with respect to repositioning and scanner generations, suggesting its suitability for detecting change.",

keywords = "X-ray computed tomography, 3D imaging, high-resolution peripheral quantitative computed tomography (HR-pQCT), arthritis, rheumatoid, metacarpophalangeal joint, OMERACT, peripheral quantitative CT, joint space width (JSW), three-dimensional, in vivo, BONE EROSIONS, CARTILAGE, REPRODUCIBILITY, QUANTIFICATION, RELIABILITY, WRIST",

author = "Stok, {Kathryn S.} and Burghardt, {Andrew J.} and Stephanie Boutroy and Peters, {Michiel P. H.} and Manske, {Sarah L.} and Vincent Stadelmann and Nicolas Vilayphiou and {van den Bergh}, {Joop P.} and Piet Geusens and Xiaojuan Li and Hubert Marotte and {van Rietbergen}, Bert and Boyd, {Steven K.} and Cheryl Barnabe and {SPECTRA Collaboration}",

year = "2020",

month = feb,

doi = "10.21037/qims.2019.12.11",

language = "English",

volume = "10",

pages = "314--325",

journal = "Quantitative Imaging in Medicine and Surgery",

issn = "2223-4292",

publisher = "AME Publishing Company",

number = "2",

}

Stok, KS, Burghardt, AJ, Boutroy, S, Peters, MPH, Manske, SL, Stadelmann, V, Vilayphiou, N, van den Bergh, JP , Geusens, P, Li, X, Marotte, H, van Rietbergen, B, Boyd, SK, Barnabe, C & SPECTRA Collaboration 2020, 'Consensus approach for 3D joint space width of metacarpophalangeal joints of rheumatoid arthritis patients using high-resolution peripheral quantitative computed tomography', Quantitative Imaging in Medicine and Surgery, vol. 10, no. 2, pp. 314-325. https://doi.org/10.21037/qims.2019.12.11

Consensus approach for 3D joint space width of metacarpophalangeal joints of rheumatoid arthritis patients using high-resolution peripheral quantitative computed tomography. / Stok, Kathryn S.; Burghardt, Andrew J.; Boutroy, Stephanie et al.

In: Quantitative Imaging in Medicine and Surgery, Vol. 10, No. 2, 02.2020, p. 314-325.

Research output: Contribution to journal › Article › Academic › peer-review

TY - JOUR

T1 - Consensus approach for 3D joint space width of metacarpophalangeal joints of rheumatoid arthritis patients using high-resolution peripheral quantitative computed tomography

AU - Stok, Kathryn S.

AU - Burghardt, Andrew J.

AU - Boutroy, Stephanie

AU - Peters, Michiel P. H.

AU - Manske, Sarah L.

AU - Stadelmann, Vincent

AU - Vilayphiou, Nicolas

AU - van den Bergh, Joop P.

AU - Geusens, Piet

AU - Li, Xiaojuan

AU - Marotte, Hubert

AU - van Rietbergen, Bert

AU - Boyd, Steven K.

AU - Barnabe, Cheryl

AU - SPECTRA Collaboration

PY - 2020/2

Y1 - 2020/2

N2 - Background: Joint space assessment for rheumatoid arthritis (RA) by ordinal conventional radiographic scales is susceptible to floor and ceiling effects. High-resolution peripheral quantitative computed tomography (HR-pQCT) provides superior resolution, and may detect earlier changes. The goal of this work was to compare existing 3D methods to calculate joint space width (JSW) metrics in human metacarpophalangeal (MCP) joints with HR-pQCT and reach consensus for future studies. Using the consensus method, we established reproducibility with repositioning as well as feasibility for use in second-generation HR-pQCT scanners.Methods: Three published JSW methods were compared using datasets from individuals with RA from three research centers. A SPECTRA consensus method was developed to take advantage of strengths of the individual methods. Using the SPECTRA method, reproducibility after repositioning was tested and agreement between scanner generations was also established.Results: When comparing existing JSW methods, excellent agreement was shown for JSW minimum and mean (ICC 0.987-0.996) but not maximum and volume (ICC 0.000-0.897). Differences were identified as variations in volume definitions and algorithmic differences that generated high sensitivity to boundary conditions. The SPECTRA consensus method reduced this sensitivity, demonstrating good scan-rescan reliability (ICC >0.911) except for minimum JSW (ICC 0.656). There was strong agreement between results from first- and second-generation HR-pQCT (ICC >0.833).Conclusions: The SPECTRA consensus method combines unique strengths of three independently-developed algorithms and leverages underlying software updates to provide a mature analysis to measure 3D JSW This method is robust with respect to repositioning and scanner generations, suggesting its suitability for detecting change.

AB - Background: Joint space assessment for rheumatoid arthritis (RA) by ordinal conventional radiographic scales is susceptible to floor and ceiling effects. High-resolution peripheral quantitative computed tomography (HR-pQCT) provides superior resolution, and may detect earlier changes. The goal of this work was to compare existing 3D methods to calculate joint space width (JSW) metrics in human metacarpophalangeal (MCP) joints with HR-pQCT and reach consensus for future studies. Using the consensus method, we established reproducibility with repositioning as well as feasibility for use in second-generation HR-pQCT scanners.Methods: Three published JSW methods were compared using datasets from individuals with RA from three research centers. A SPECTRA consensus method was developed to take advantage of strengths of the individual methods. Using the SPECTRA method, reproducibility after repositioning was tested and agreement between scanner generations was also established.Results: When comparing existing JSW methods, excellent agreement was shown for JSW minimum and mean (ICC 0.987-0.996) but not maximum and volume (ICC 0.000-0.897). Differences were identified as variations in volume definitions and algorithmic differences that generated high sensitivity to boundary conditions. The SPECTRA consensus method reduced this sensitivity, demonstrating good scan-rescan reliability (ICC >0.911) except for minimum JSW (ICC 0.656). There was strong agreement between results from first- and second-generation HR-pQCT (ICC >0.833).Conclusions: The SPECTRA consensus method combines unique strengths of three independently-developed algorithms and leverages underlying software updates to provide a mature analysis to measure 3D JSW This method is robust with respect to repositioning and scanner generations, suggesting its suitability for detecting change.

KW - X-ray computed tomography

KW - 3D imaging

KW - high-resolution peripheral quantitative computed tomography (HR-pQCT)

KW - arthritis

KW - rheumatoid

KW - metacarpophalangeal joint

KW - OMERACT

KW - peripheral quantitative CT

KW - joint space width (JSW)

KW - three-dimensional

KW - in vivo

KW - BONE EROSIONS

KW - CARTILAGE

KW - REPRODUCIBILITY

KW - QUANTIFICATION

KW - RELIABILITY

KW - WRIST

U2 - 10.21037/qims.2019.12.11

DO - 10.21037/qims.2019.12.11

M3 - Article

C2 - 32190559

VL - 10

SP - 314

EP - 325

JO - Quantitative Imaging in Medicine and Surgery

JF - Quantitative Imaging in Medicine and Surgery

SN - 2223-4292

IS - 2

ER -