Automatic segmentation of the solid core and enclosed vessels in subsolid pulmonary nodules

Jean-Paul Charbonnier,Colin Jacobs,Bram Van Ginneken,Ernst T Scholten,Francesco Ciompi,Ugo Pastorino,Eva M Van Rikxoort,Mario Silva,Kaman Chung,Nicola Sverzellati

doi:10.1038/s41598-017-19101-3

Abstract

Subsolid pulmonary nodules are commonly encountered in lung cancer screening and clinical routine. Compared to other nodule types, subsolid nodules are associated with a higher malignancy probability for which the size and mass of the nodule and solid core are important indicators. However, reliably measuring these characteristics on computed tomography (CT) can be hampered by the presence of vessels encompassed by the nodule, since vessels have similar CT attenuation as solid cores. This can affect treatment decisions and patient management. We present a method based on voxel classification to automatically identify vessels and solid cores in given subsolid nodules on CT. Three experts validated our method on 170 screen-detected subsolid nodules from the Multicentric Italian Lung Disease trial. The agreement between the proposed method and the observers was substantial for vessel detection and moderate for solid core detection, which was similar to the inter-observer agreement. We found a relatively high variability in the inter-observer agreement and low method-observer agreements for delineating the borders of vessels and solid cores, illustrating the difficulty of this task. However, 92.4% of the proposed vessel and 80.6% of the proposed solid core segmentations were labeled as usable in clinical practice by the majority of experts.

Highlights

Lung cancer screening with low-dose computed tomography (CT) is currently being implemented in the US
Nodule mass depends on both nodule volume, which is related to the segmentation of a nodule in the 3D scan, and nodule density, which is related to the CT attenuation in Hounsfield Units (HU)
Subsolid nodules are important to identify and measure correctly since they are associated with a high malignancy probability

Summary

Introduction

Lung cancer screening with low-dose computed tomography (CT) is currently being implemented in the US. In lung cancer screening and clinical routine, a large amount of nodules is encountered for which a suitable follow-up strategy needs to be determined For this purpose, guidelines and tools have been introduced that define a clear procedure for follow-up management, such as the Lung-RADS guidelines[2], the Fleischner guidelines[3], and the PanCan model[4]. Including vessels as part of a nodule can alter nodule characteristics such as the nodule type, mass, and the size of the nodule or solid core This can affect treatment decisions and can hamper the correlation between nodule mass and nodule growth as presented in de Hoop et al.[7], making it an unreliable parameter to use in a screening setting. Over time, this nodule encloses surrounding vessels which, if not considered, can result in an overestimated growth that changes patient management

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