Prediction of growth based on shape analysis of atherosclerotic calcifications from lateral x-ray images

Lene Lillemark Erleben; Sami Sebastian Brandt

doi:10.1109/ISBI.2011.5872668

Prediction of growth based on shape analysis of atherosclerotic calcifications from lateral x-ray images

Lene Lillemark Erleben, Sami Sebastian Brandt

Datalogisk Institut

Abstract

We present a method for prediction of atherosclerotic growth based on a training set of 229 2D manually annotated baseline and corresponding follow-up calcifications from lateral X-ray images over an 8 year period. The prediction uses affine shape analysis based on singular value decomposition where non-rigid shapes are modeled as projections of rigid high-dimensional shapes. The SVD prediction was compared to growth based on dilation and predictive conditional PCA. The SVD model yields the largest Jaccard score indicating that the SVD model captures the most of the growth. We also found that small circular shapes grow the most which is likely due to the higher growth potential in smaller calcifications. Furthermore, we are able to predict the biological risk factors better by a joint shape and biology model that suggests a relationship between the shapes and the risk factors.

Originalsprog	Engelsk
Titel	2011 IEEE International Symposium on Biomedical Imaging : from nano to macro
Antal sider	4
Forlag	IEEE
Publikationsdato	2011
Sider	1430-1433
ISBN (Trykt)	978-1-4244-4127-3
ISBN (Elektronisk)	978-1-4244-4128-0
DOI	https://doi.org/10.1109/ISBI.2011.5872668
Status	Udgivet - 2011
Begivenhed	8th IEEE International Symposium on Biomedical Imaging: from nano to macro - Chicago, USA Varighed: 30 mar. 2011 → 2 apr. 2011 Konferencens nummer: 8

Konference

Konference	8th IEEE International Symposium on Biomedical Imaging
Nummer	8
Land/Område	USA
By	Chicago
Periode	30/03/2011 → 02/04/2011

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10.1109/ISBI.2011.5872668

Citationsformater

@inproceedings{7b35b6d85e2e40b2a8aca000a48fb5c4,

title = "Prediction of growth based on shape analysis of atherosclerotic calcifications from lateral x-ray images",

abstract = "We present a method for prediction of atherosclerotic growth based on a training set of 229 2D manually annotated baseline and corresponding follow-up calcifications from lateral X-ray images over an 8 year period. The prediction uses affine shape analysis based on singular value decomposition where non-rigid shapes are modeled as projections of rigid high-dimensional shapes. The SVD prediction was compared to growth based on dilation and predictive conditional PCA. The SVD model yields the largest Jaccard score indicating that the SVD model captures the most of the growth. We also found that small circular shapes grow the most which is likely due to the higher growth potential in smaller calcifications. Furthermore, we are able to predict the biological risk factors better by a joint shape and biology model that suggests a relationship between the shapes and the risk factors. ",

author = "Erleben, {Lene Lillemark} and Brandt, {Sami Sebastian}",

year = "2011",

doi = "10.1109/ISBI.2011.5872668",

language = "English",

isbn = "978-1-4244-4127-3",

pages = "1430--1433",

booktitle = "2011 IEEE International Symposium on Biomedical Imaging",

publisher = "IEEE",

note = "8th IEEE International Symposium on Biomedical Imaging ; Conference date: 30-03-2011 Through 02-04-2011",

}

TY - GEN

T1 - Prediction of growth based on shape analysis of atherosclerotic calcifications from lateral x-ray images

AU - Erleben, Lene Lillemark

AU - Brandt, Sami Sebastian

N1 - Conference code: 8

PY - 2011

Y1 - 2011

N2 - We present a method for prediction of atherosclerotic growth based on a training set of 229 2D manually annotated baseline and corresponding follow-up calcifications from lateral X-ray images over an 8 year period. The prediction uses affine shape analysis based on singular value decomposition where non-rigid shapes are modeled as projections of rigid high-dimensional shapes. The SVD prediction was compared to growth based on dilation and predictive conditional PCA. The SVD model yields the largest Jaccard score indicating that the SVD model captures the most of the growth. We also found that small circular shapes grow the most which is likely due to the higher growth potential in smaller calcifications. Furthermore, we are able to predict the biological risk factors better by a joint shape and biology model that suggests a relationship between the shapes and the risk factors.

AB - We present a method for prediction of atherosclerotic growth based on a training set of 229 2D manually annotated baseline and corresponding follow-up calcifications from lateral X-ray images over an 8 year period. The prediction uses affine shape analysis based on singular value decomposition where non-rigid shapes are modeled as projections of rigid high-dimensional shapes. The SVD prediction was compared to growth based on dilation and predictive conditional PCA. The SVD model yields the largest Jaccard score indicating that the SVD model captures the most of the growth. We also found that small circular shapes grow the most which is likely due to the higher growth potential in smaller calcifications. Furthermore, we are able to predict the biological risk factors better by a joint shape and biology model that suggests a relationship between the shapes and the risk factors.

U2 - 10.1109/ISBI.2011.5872668

DO - 10.1109/ISBI.2011.5872668

M3 - Article in proceedings

SN - 978-1-4244-4127-3

SP - 1430

EP - 1433

BT - 2011 IEEE International Symposium on Biomedical Imaging

PB - IEEE

T2 - 8th IEEE International Symposium on Biomedical Imaging

Y2 - 30 March 2011 through 2 April 2011

ER -

Prediction of growth based on shape analysis of atherosclerotic calcifications from lateral x-ray images

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