Séminaire ARMEDIA le 6 février 2025 à 15h

{English message below}

L’équipe ARMEDIA vous convie à son séminaire de recherche le

jeudi 6 février 2025, 15h, avec une présentation sur 

Vessel-based lung lobe partitioning in ultra-short time echo proton MRI for regional ventilation assessment

par Noureddine Khiati et Catalin Fetita,

La présentation aura lieu en mode hybride en salle A207 sur le campus d’Evry et sur le lien:

https://webconf.imt.fr/frontend/cat-clh-6al

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The ARMEDIA team invites you to its research seminar on February 6, 2025, at 3:00 PM, featuring a presentation on:

Vessel-based lung lobe partitioning in ultra-short time echo proton MRI for regional ventilation assessment

by Noureddine Khiati and Catalin Fetita.

The presentation will be held in a hybrid format in room A207 on the Evry campus and via the following link:

https://webconf.imt.fr/frontend/cat-clh-6al

Abstract:

This presentation addresses the problem of lung lobe partitioning in ultra-short time echo (UTE) MRI acquisitions, which are recently used for lung ventilation assessment with MRI spirometry. Because of the low image contrast, which does not enable the lung fissures display, the developed approach relies only on the vascular structures which still can be segmented from these images. The vascular network is segmented in lobes in order to generate reference clusters used for lung space partitioning.  A point cloud representing the unstructured points of the vascular medial axis is partitioned in five lobes exploiting the PointNet++ framework. The PointNet++ model is trained on data extracted from CT acquisitions and labeled using the airway and vascular trees connectivity. The airway tree lobes will define the lung lobar regions, which are propagated on the vessel structure to achieve the complete vascular labeling. A separate model is trained for the right and left lungs in order to alleviate for limited input point cloud size imposed by the model architecture and reach a high precision in classification. The trained model is applied to UTE-MRI data to generate, for a given subject, a point cloud reference that will be used for vascular lobes clustering, which will be then exploited for lung space partitioning in lobes. The approach was quantitatively evaluated on 10 CT volumes from LUNA16 dataset and qualitatively tested on additional 25 CT and 15 UTE-MRI datasets. The analysis of CT data results shows pertinent lung partitioning with respect to the lung fissures, even if a precise fissure localization is not achieved. Such result is however expected, since no information related to the lung fissure is exploited in our method because this would not be applicable to UTE-MRI data. Nevertheless, the proposed partitioning respects the vascular lobes and, to the best of our knowledge, is novel for lung MRI sequences making it possible the regional investigation of ventilation parameters in MRI spirometry. The method can be further on extended for lung fissure matching in CT data by integrating new constraints related to fissure detection.