An automated algorithm for the detection of cortical interruptions on high resolution peripheral quantitative computed tomography images of finger joints

OBJECTIVES: To introduce a fully-automated algorithm for the detection of small cortical interruptions (≥0.246mm in diameter) on high resolution peripheral quantitative computed tomography (HR-pQCT) images, and to investigate the additional value of manual correction of the automatically obtained co...

Descripción completa

Detalles Bibliográficos
Autores principales: Peters, M., Scharmga, A., de Jong, J., van Tubergen, A., Geusens, P., Arts, J. J., Loeffen, D., Weijers, R., van Rietbergen, B., van den Bergh, J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2017
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5402632/
https://www.ncbi.nlm.nih.gov/pubmed/28426705
http://dx.doi.org/10.1371/journal.pone.0175829
_version_ 1783231264295223296
author Peters, M.
Scharmga, A.
de Jong, J.
van Tubergen, A.
Geusens, P.
Arts, J. J.
Loeffen, D.
Weijers, R.
van Rietbergen, B.
van den Bergh, J.
author_facet Peters, M.
Scharmga, A.
de Jong, J.
van Tubergen, A.
Geusens, P.
Arts, J. J.
Loeffen, D.
Weijers, R.
van Rietbergen, B.
van den Bergh, J.
author_sort Peters, M.
collection PubMed
description OBJECTIVES: To introduce a fully-automated algorithm for the detection of small cortical interruptions (≥0.246mm in diameter) on high resolution peripheral quantitative computed tomography (HR-pQCT) images, and to investigate the additional value of manual correction of the automatically obtained contours (semi-automated procedure). METHODS: Ten metacarpophalangeal joints from seven patients with rheumatoid arthritis (RA) and three healthy controls were imaged with HR-pQCT. The images were evaluated by an algorithm according to the fully- and semi-automated procedure for the number and surface of interruptions per joint. Reliability between the fully- and semi-automated procedure and between two independent operators was tested using intra-class correlation coefficient (ICC) and the proportion of matching interruptions. Validity of single interruptions detected was tested by comparing it to visual scoring, as gold standard. The positive predictive value (PPV) and sensitivity were calculated. RESULTS: The median number of interruptions per joint was 14 (range 2 to 59) and did not significantly differ between the fully- and semi-automated procedure (p = 0.37). The median interruption surface per joint was significantly higher with the fully- vs. semi-automated procedure (respectively, 8.6mm(2) vs. 5.8mm(2) and 6.1mm(2), p = 0.01). Reliability was almost perfect between the fully- and semi-automated procedure for both the number and surface of interruptions (ICC≥0.95) and the proportion of matching interruptions was high (≥76%). Also the inter-operator reliability was almost perfect (ICC≥0.97, proportion of matching interruptions 92%). The PPV ranged from 27.6% to 29.9%, and sensitivity from 69.7% to 76.3%. Most interruptions detected with the algorithm, did show an interruption on a 2D grayscale image. However, this interruption did not meet the criteria of an interruption with visual scoring. CONCLUSION: The algorithm for HR-pQCT images detects cortical interruptions, and its interruption surface. Reliability and validity was comparable for the fully- and semi-automated procedures. However, we advise the use of the semi-automated procedure to assure quality. The algorithm is a promising tool for a sensitive and objective assessment of cortical interruptions in finger joints assessed by HR-pQCT.
format Online
Article
Text
id pubmed-5402632
institution National Center for Biotechnology Information
language English
publishDate 2017
publisher Public Library of Science
record_format MEDLINE/PubMed
spelling pubmed-54026322017-05-04 An automated algorithm for the detection of cortical interruptions on high resolution peripheral quantitative computed tomography images of finger joints Peters, M. Scharmga, A. de Jong, J. van Tubergen, A. Geusens, P. Arts, J. J. Loeffen, D. Weijers, R. van Rietbergen, B. van den Bergh, J. PLoS One Research Article OBJECTIVES: To introduce a fully-automated algorithm for the detection of small cortical interruptions (≥0.246mm in diameter) on high resolution peripheral quantitative computed tomography (HR-pQCT) images, and to investigate the additional value of manual correction of the automatically obtained contours (semi-automated procedure). METHODS: Ten metacarpophalangeal joints from seven patients with rheumatoid arthritis (RA) and three healthy controls were imaged with HR-pQCT. The images were evaluated by an algorithm according to the fully- and semi-automated procedure for the number and surface of interruptions per joint. Reliability between the fully- and semi-automated procedure and between two independent operators was tested using intra-class correlation coefficient (ICC) and the proportion of matching interruptions. Validity of single interruptions detected was tested by comparing it to visual scoring, as gold standard. The positive predictive value (PPV) and sensitivity were calculated. RESULTS: The median number of interruptions per joint was 14 (range 2 to 59) and did not significantly differ between the fully- and semi-automated procedure (p = 0.37). The median interruption surface per joint was significantly higher with the fully- vs. semi-automated procedure (respectively, 8.6mm(2) vs. 5.8mm(2) and 6.1mm(2), p = 0.01). Reliability was almost perfect between the fully- and semi-automated procedure for both the number and surface of interruptions (ICC≥0.95) and the proportion of matching interruptions was high (≥76%). Also the inter-operator reliability was almost perfect (ICC≥0.97, proportion of matching interruptions 92%). The PPV ranged from 27.6% to 29.9%, and sensitivity from 69.7% to 76.3%. Most interruptions detected with the algorithm, did show an interruption on a 2D grayscale image. However, this interruption did not meet the criteria of an interruption with visual scoring. CONCLUSION: The algorithm for HR-pQCT images detects cortical interruptions, and its interruption surface. Reliability and validity was comparable for the fully- and semi-automated procedures. However, we advise the use of the semi-automated procedure to assure quality. The algorithm is a promising tool for a sensitive and objective assessment of cortical interruptions in finger joints assessed by HR-pQCT. Public Library of Science 2017-04-20 /pmc/articles/PMC5402632/ /pubmed/28426705 http://dx.doi.org/10.1371/journal.pone.0175829 Text en © 2017 Peters et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Peters, M.
Scharmga, A.
de Jong, J.
van Tubergen, A.
Geusens, P.
Arts, J. J.
Loeffen, D.
Weijers, R.
van Rietbergen, B.
van den Bergh, J.
An automated algorithm for the detection of cortical interruptions on high resolution peripheral quantitative computed tomography images of finger joints
title An automated algorithm for the detection of cortical interruptions on high resolution peripheral quantitative computed tomography images of finger joints
title_full An automated algorithm for the detection of cortical interruptions on high resolution peripheral quantitative computed tomography images of finger joints
title_fullStr An automated algorithm for the detection of cortical interruptions on high resolution peripheral quantitative computed tomography images of finger joints
title_full_unstemmed An automated algorithm for the detection of cortical interruptions on high resolution peripheral quantitative computed tomography images of finger joints
title_short An automated algorithm for the detection of cortical interruptions on high resolution peripheral quantitative computed tomography images of finger joints
title_sort automated algorithm for the detection of cortical interruptions on high resolution peripheral quantitative computed tomography images of finger joints
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5402632/
https://www.ncbi.nlm.nih.gov/pubmed/28426705
http://dx.doi.org/10.1371/journal.pone.0175829
work_keys_str_mv AT petersm anautomatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints
AT scharmgaa anautomatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints
AT dejongj anautomatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints
AT vantubergena anautomatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints
AT geusensp anautomatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints
AT artsjj anautomatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints
AT loeffend anautomatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints
AT weijersr anautomatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints
AT vanrietbergenb anautomatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints
AT vandenberghj anautomatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints
AT petersm automatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints
AT scharmgaa automatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints
AT dejongj automatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints
AT vantubergena automatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints
AT geusensp automatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints
AT artsjj automatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints
AT loeffend automatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints
AT weijersr automatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints
AT vanrietbergenb automatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints
AT vandenberghj automatedalgorithmforthedetectionofcorticalinterruptionsonhighresolutionperipheralquantitativecomputedtomographyimagesoffingerjoints

Ejemplares similares