Automatic estimation of heart boundaries and cardiothoracic ratio from chest x-ray images

Cardiothoracic ratio (CTR) is a widely used radiographic index to assess heart size on chest X-rays (CXRs). Recent studies have suggested that also two-dimensional CTR might contain clinical information about the heart function. However, manual measurement of such indices is both subjective and time consuming. This study proposes a fast algorithm to automatically estimate CTR indices based on CXRs. The algorithm has three main steps: 1) model based lung segmentation, 2) estimation of heart boundaries from lung contours, and 3) computation of cardiothoracic indices from the estimated boundaries. We extended a previously employed lung detection algorithm to automatically estimate heart boundaries without using ground truth heart markings. We used two datasets: a publicly available dataset with 247 images as well as clinical dataset with 167 studies from Geisinger Health System. The models of lung fields are learned from both datasets. The lung regions in a given test image are estimated by registering the learned models to patient CXRs. Then, heart region is estimated by applying Harris operator on segmented lung fields to detect the corner points corresponding to the heart boundaries. The algorithm calculates three indices, CTR1D, CTR2D, and cardiothoracic area ratio (CTAR). The method was tested on 103 clinical CXRs and average error rates of 7.9%, 25.5%, and 26.4% (for CTR1D, CTR2D, and CTAR respectively) were achieved. The proposed method outperforms previous CTR estimation methods without using any heart templates. This method can have important clinical implications as it can provide fast and accurate estimate of cardiothoracic indices.

[1]  David McInerney,et al.  Extraction of the Two-Dimensional Cardiothoracic Ratio from Digital PA Chest Radiographs: Correlation with Cardiac Function and the Traditional Cardiothoracic Ratio , 2004, Journal of Digital Imaging.

[2]  Bram van Ginneken,et al.  Automatic Segmentation of Lung Fields in Chest Radiographs , 1999, MICCAI.

[3]  Clement J. McDonald,et al.  Lung Segmentation in Chest Radiographs Using Anatomical Atlases With Nonrigid Registration , 2014, IEEE Transactions on Medical Imaging.

[4]  Michael T. Mullen,et al.  Cardiothoracic ratio from postero-anterior chest radiographs: a simple, reproducible and independent marker of disease severity and outcome in adults with congenital heart disease. , 2013, International journal of cardiology.

[5]  J. Ghali,et al.  The Prognostic Role of Left Ventricular Hypertrophy in Patients with or without Coronary Artery Disease , 1992, Annals of Internal Medicine.

[6]  Paul Suetens,et al.  Minimal Shape and Intensity Cost Path Segmentation , 2007, IEEE Transactions on Medical Imaging.

[7]  George R. Thoma,et al.  Automatic heart localization and radiographic index computation in chest x-rays , 2016, SPIE Medical Imaging.

[8]  Emanuele Trucco,et al.  Introductory techniques for 3-D computer vision , 1998 .

[9]  J. Corne,et al.  Chest X-Ray Made Easy , 1997 .

[10]  Bram van Ginneken,et al.  Segmentation of anatomical structures in chest radiographs using supervised methods: a comparative study on a public database , 2006, Medical Image Anal..

[11]  C A Sanders,et al.  Some pitfalls in the valuation of cardiac chamber enlargement on chest roentgenograms. , 1966, Radiology.

[12]  Dinggang Shen,et al.  Segmenting Lung Fields in Serial Chest Radiographs Using Both Population-Based and Patient-Specific Shape Statistics , 2008, IEEE Transactions on Medical Imaging.

[13]  Shin Matsuoka,et al.  Changes in Cross-Sectional Area and Transverse Diameter of the Heart on Inspiratory and Expiratory Chest CT: Correlation with Changes in Lung Size and Influence on Cardiothoracic Ratio Measurement , 2015, PloS one.

[14]  Roya Farzanegan,et al.  Comparison of Radiological Findings of Chest X-Ray With Echocardiography in Determination of the Heart Size , 2015, Iranian Red Crescent medical journal.

[15]  Antonio Torralba,et al.  SIFT Flow: Dense Correspondence across Scenes and Its Applications , 2011, IEEE Transactions on Pattern Analysis and Machine Intelligence.

[16]  K. Doi,et al.  Image feature analysis and computer-aided diagnosis in digital radiography: automated analysis of sizes of heart and lung in chest images. , 1990, Medical physics.

[17]  A. Coats,et al.  Unreliability of cardiothoracic ratio as a marker of left ventricular impairment: comparison with radionuclide ventriculography and echocardiography , 2000, Postgraduate medical journal.

[18]  Clement J. McDonald,et al.  Automatic Tuberculosis Screening Using Chest Radiographs , 2014, IEEE Transactions on Medical Imaging.

[19]  R. Prescott,et al.  A prognostic index to predict long‐term mortality in patients with mild to moderate chronic heart failure stabilised on angiotensin converting enzyme inhibitors , 2003, European journal of heart failure.

[20]  K. Doi,et al.  Development of a digital image database for chest radiographs with and without a lung nodule: receiver operating characteristic analysis of radiologists' detection of pulmonary nodules. , 2000, AJR. American journal of roentgenology.

[21]  W J NETTLETON,et al.  DIGITAL COMPUTER DETERMINATION OF A MEDICAL DIAGNOSTIC INDEX DIRECTLY FROM CHEST X-RAY IMAGES. , 1964, IEEE transactions on bio-medical engineering.

[22]  R M Lang,et al.  The Relationship Between Cardiothoracic Ratio and Left Ventricular Ejection Fraction in Congestive Heart Failure , 1998 .

[23]  Yaozong Gao,et al.  Hierarchical Lung Field Segmentation With Joint Shape and Appearance Sparse Learning , 2014, IEEE Transactions on Medical Imaging.

[24]  W. L. Ooi,et al.  Cardiomegaly on chest x-ray: prognostic implications from a ten-year cohort study of elderly subjects: a report from the Bronx Longitudinal Aging Study. , 1992, American heart journal.

[25]  Urmila Sinha,et al.  Comparative study of cardiac size by chest X-ray and echocardiography , 2013 .

[26]  Deok-Hwan Kim,et al.  Automatic evaluation of cardiac hypertrophy using cardiothoracic area ratio in chest radiograph images , 2012, Comput. Methods Programs Biomed..

[27]  Clement J. McDonald,et al.  Preparing a collection of radiology examinations for distribution and retrieval , 2015, J. Am. Medical Informatics Assoc..

[28]  Chaya S Moskowitz,et al.  Shall We Report Cardiomegaly at Routine Computed Tomography of the Chest? , 2012, Journal of computer assisted tomography.

[29]  N Nakamori,et al.  Effect of heart-size parameters computed from digital chest radiographs on detection of cardiomegaly. Potential usefulness for computer-aided diagnosis. , 1991, Investigative radiology.