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37 results on '"Santini, Gianmarco"'

1. Deformable image registration with deep network priors: a study on longitudinal PET images

Author

Fourcade, Constance, Ferrer, Ludovic, Moreau, Noemie, Santini, Gianmarco, Brennan, Aishlinn, Rousseau, Caroline, Lacombe, Marie, Fleury, Vincent, Colombié, Mathilde, Jézéquel, Pascal, Campone, Mario, Rubeaux, Mathieu, and Mateus, Diana

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Longitudinal image registration is challenging and has not yet benefited from major performance improvements thanks to deep-learning. Inspired by Deep Image Prior, this paper introduces a different use of deep architectures as regularizers to tackle the image registration question. We propose a subject-specific deformable registration method called MIRRBA, relying on a deep pyramidal architecture to be the prior parametric model constraining the deformation field. Diverging from the supervised learning paradigm, MIRRBA does not require a learning database, but only the pair of images to be registered to optimize the network's parameters and provide a deformation field. We demonstrate the regularizing power of deep architectures and present new elements to understand the role of the architecture in deep learning methods for registration. Hence, to study the impact of the network parameters, we ran our method with different architectural configurations on a private dataset of 110 metastatic breast cancer full-body PET images with manual segmentations of the brain, bladder and metastatic lesions. We compared it against conventional iterative registration approaches and supervised deep learning-based models. Global and local registration accuracies were evaluated using the detection rate and the Dice score respectively, while registration realism was evaluated using the Jacobian's determinant. Moreover, we computed the ability of the different methods to shrink vanishing lesions with the disappearing rate. MIRRBA significantly improves the organ and lesion Dice scores of supervised models. Regarding the disappearing rate, MIRRBA more than doubles the best performing conventional approach SyNCC score. Our work therefore proposes an alternative way to bridge the performance gap between conventional and deep learning-based methods and demonstrates the regularizing power of deep architectures., Comment: 11 pages 3 figures in the main article 2 tables in the main article 2 figures in supplementary material

Published
2021
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2. Kidney tumor segmentation using an ensembling multi-stage deep learning approach. A contribution to the KiTS19 challenge

Author

Santini, Gianmarco, Moreau, Noémie, and Rubeaux, Mathieu

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Precise characterization of the kidney and kidney tumor characteristics is of outmost importance in the context of kidney cancer treatment, especially for nephron sparing surgery which requires a precise localization of the tissues to be removed. The need for accurate and automatic delineation tools is at the origin of the KiTS19 challenge. It aims at accelerating the research and development in this field to aid prognosis and treatment planning by providing a characterized dataset of 300 CT scans to be segmented. To address the challenge, we proposed an automatic, multi-stage, 2.5D deep learning-based segmentation approach based on Residual UNet framework. An ensembling operation is added at the end to combine prediction results from previous stages reducing the variance between single models. Our neural network segmentation algorithm reaches a mean Dice score of 0.96 and 0.74 for kidney and kidney tumors, respectively on 90 unseen test cases. The results obtained are promising and could be improved by incorporating prior knowledge about the benign cysts that regularly lower the tumor segmentation results., Comment: 11 pages, 4 figures, submitted to MICCAI 2019 - KiTS Challenge

Published
2019

3. Robust reconstruction of cardiac T1 maps using RNNs

Author

Martini, Nicola, Vatti, Alessio, Ripoli, Andrea, Salaris, Sara, Santini, Gianmarco, Santarelli, Maria Filomena, Chiappino, Dante, and Della Latta, Daniele

Subjects
Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Cardiac magnetic resonance parametric T1 maps are typically reconstructed using non-linear fitting. However this method has limitations due to the high computational cost and robustness. In this study, a recurrent neural network (RNN) is proposed for the robust and fast reconstruction of cardiac T1 maps., Comment: 4 pages, 1 figure, Medical Imaging with Deep Learning: MIDL 2019 - Extended Abstract Track [arXiv:1907.08612]

Published
2019

4. Unsupervised Data Selection for Supervised Learning

Author

Valvano, Gabriele, Leo, Andrea, Della Latta, Daniele, Martini, Nicola, Santini, Gianmarco, Chiappino, Dante, and Ricciardi, Emiliano

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Recent research put a big effort in the development of deep learning architectures and optimizers obtaining impressive results in areas ranging from vision to language processing. However little attention has been addressed to the need of a methodological process of data collection. In this work we hypothesize that high quality data for supervised learning can be selected in an unsupervised manner and that by doing so one can obtain models capable to generalize better than in the case of random training set construction. However, preliminary results are not robust and further studies on the subject should be carried out., Comment: Technical Report --- 8 pages, 3 figures New tests demonstrated that the system, as is, is not able to create reproducible results. Further study on the topic should be done

Published
2018

5. Training of a Skull-Stripping Neural Network with efficient data augmentation

Author

Valvano, Gabriele, Martini, Nicola, Leo, Andrea, Santini, Gianmarco, Della Latta, Daniele, Ricciardi, Emiliano, and Chiappino, Dante

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Skull-stripping methods aim to remove the non-brain tissue from acquisition of brain scans in magnetic resonance (MR) imaging. Although several methods sharing this common purpose have been presented in literature, they all suffer from the great variability of the MR images. In this work we propose a novel approach based on Convolutional Neural Networks to automatically perform the brain extraction obtaining cutting-edge performance in the NFBS public database. Additionally, we focus on the efficient training of the neural network designing an effective data augmentation pipeline. Obtained results are evaluated through Dice metric, obtaining a value of 96.5%, and processing time, with 4.5s per volume., Comment: April 2018. Content: 8 pages, 2 figures

Published
2018

6. Convolutional Neural Networks for the segmentation of microcalcification in Mammography Imaging

Author

Valvano, Gabriele, Santini, Gianmarco, Martini, Nicola, Ripoli, Andrea, Iacconi, Chiara, Chiappino, Dante, and Della Latta, Daniele

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Cluster of microcalcifications can be an early sign of breast cancer. In this paper we propose a novel approach based on convolutional neural networks for the detection and segmentation of microcalcification clusters. In this work we used 283 mammograms to train and validate our model, obtaining an accuracy of 98.22% in the detection of preliminary suspect regions and of 97.47% in the segmentation task. Our results show how deep learning could be an effective tool to effectively support radiologists during mammograms examination., Comment: 13 pages, 7 figures

Published
2018

7. Synthetic contrast enhancement in cardiac CT with Deep Learning

Author

Santini, Gianmarco, Zumbo, Lorena M., Martini, Nicola, Valvano, Gabriele, Leo, Andrea, Ripoli, Andrea, Avogliero, Francesco, Chiappino, Dante, and Della Latta, Daniele

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, 68T10
Abstract

In Europe the 20% of the CT scans cover the thoracic region. The acquired images contain information about the cardiovascular system that often remains latent due to the lack of contrast in the cardiac area. On the other hand, the contrast enhanced computed tomography (CECT) represents an imaging technique that allows to easily assess the cardiac chambers volumes and the contrast dynamics. With this work we aim to face the problem of extraction and presentation of these latent information, using a deep learning approach with convolutional neural networks. Starting from the extraction of relevant features from the image without contrast medium, we try to re-map them on features typical of CECT, to synthesize an image characterized by an attenuation in the cardiac chambers as if a virtually iodine contrast medium was injected. The purposes are to guarantee an estimation of the left cardiac chambers volume and to perform an evaluation of the contrast dynamics. Our approach is based on a deconvolutional network trained on a set of 120 patients who underwent both CT acquisitions in the same contrastographic arterial phase and the same cardiac phase. To ensure a reliable predicted CECT image, in terms of values and morphology, a custom loss function is defined by combining an error function to find a pixel-wise correspondence, which takes into account the similarity in term of Hounsfield units between the input and output images and by a cross-entropy computed on the binarized versions of the synthesized and of the real CECT image. The proposed method is finally tested on 20 subjects., Comment: 8 pages,3 figures

Published
2018

8. An automatic deep learning approach for coronary artery calcium segmentation

Author

Santini, Gianmarco, Latta, Daniele Della, Martini, Nicola, Valvano, Gabriele, Gori, Andrea, Ripoli, Andrea, Susini, Carla L., Landini, Luigi, Chiappino, Dante, Magjarevic, Ratko, Editor-in-chief, Ładyżyński, Piotr, Series editor, Ibrahim, Fatimah, Series editor, Lacković, Igor, Series editor, Rock, Emilio Sacristan, Series editor, Eskola, Hannu, editor, Väisänen, Outi, editor, Viik, Jari, editor, and Hyttinen, Jari, editor

Published
2018
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9. Evaluation of a Deep Convolutional Neural Network method for the segmentation of breast microcalcifications in Mammography Imaging

Author

Valvano, Gabriele, Della Latta, Daniele, Martini, Nicola, Santini, Gianmarco, Gori, Andrea, Iacconi, Chiara, Ripoli, Andrea, Landini, Luigi, Chiappino, Dante, Magjarevic, Ratko, Editor-in-chief, Ładyżyński, Piotr, Series editor, Ibrahim, Fatimah, Series editor, Lacković, Igor, Series editor, Rock, Emilio Sacristan, Series editor, Eskola, Hannu, editor, Väisänen, Outi, editor, Viik, Jari, editor, and Hyttinen, Jari, editor

Published
2018
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12. Deformable image registration with deep network priors: a study on longitudinal PET images

Author

Fourcade, Constance, primary, Ferrer, Ludovic, additional, Moreau, Noémie, additional, Santini, Gianmarco, additional, Brennan, Aislinn, additional, Rousseau, Caroline, additional, Lacombe, Marie, additional, Fleury, Vincent, additional, Colombié, Mathilde, additional, Jézéquel, Pascal, additional, Rubeaux, Mathieu, additional, and Mateus, Diana, additional

Published
2022
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13. Influence of inputs for bone lesion segmentation in longitudinal 18F-FDG PET/CT imaging studies

Author

Moreau, Noemie, primary, Rousseau, Caroline, additional, Fourcade, Constance, additional, Santini, Gianmarco, additional, Ferrer, Ludovic, additional, Lacombe, Marie, additional, Guillerminet, Camille, additional, Colombie, Mathilde, additional, Jezequel, Pascal, additional, Campone, Mario, additional, Rubeaux, Mathieu, additional, and Normand, Nicolas, additional

Published
2022
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14. PERCIST-like response assessment with FDG PET based on automatic segmentation of all lesions in metastatic breast cancer.

Author

Fourcade, Constance, primary, Frenel, Jean-Sebastien, additional, Moreau, Noémie, additional, Santini, Gianmarco, additional, Brennan, Aislinn, additional, Rousseau, Caroline, additional, Lacombe, Marie, additional, Fleury, Vincent, additional, Colombié, Mathilde, additional, Jézéquel, Pascal, additional, Maucherat, Bruno, additional, Campone, Mario, additional, Mateus, Diana, additional, Ferrer, Ludovic, additional, and Rubeaux, Mathieu, additional

Published
2022
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15. Automatic Segmentation of Metastatic Breast Cancer Lesions on 18F-FDG PET/CT Longitudinal Acquisitions for Treatment Response Assessment

Author

Moreau, Noémie, primary, Rousseau, Caroline, additional, Fourcade, Constance, additional, Santini, Gianmarco, additional, Brennan, Aislinn, additional, Ferrer, Ludovic, additional, Lacombe, Marie, additional, Guillerminet, Camille, additional, Colombié, Mathilde, additional, Jézéquel, Pascal, additional, Campone, Mario, additional, Normand, Nicolas, additional, and Rubeaux, Mathieu, additional

Published
2021
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16. Active Organs Segmentation in Metastatic Breast Cancer Images combining Superpixels and Deep Learning Methods

Author

Fourcade, Constance, Santini, Gianmarco, Ferrer, Ludovic, Rousseau, Caroline, Colombié, Mathilde, Campone, Mario, Rubeaux, Mathieu, Mateus, Diana, Signal, IMage et Son (SIMS ), Laboratoire des Sciences du Numérique de Nantes (LS2N), IMT Atlantique Bretagne-Pays de la Loire (IMT Atlantique), Institut Mines-Télécom [Paris] (IMT)-Institut Mines-Télécom [Paris] (IMT)-Université de Nantes - UFR des Sciences et des Techniques (UN UFR ST), Université de Nantes (UN)-Université de Nantes (UN)-École Centrale de Nantes (ECN)-Centre National de la Recherche Scientifique (CNRS)-IMT Atlantique Bretagne-Pays de la Loire (IMT Atlantique), Université de Nantes (UN)-Université de Nantes (UN)-École Centrale de Nantes (ECN)-Centre National de la Recherche Scientifique (CNRS), Keosys, Institut de Cancérologie de l'Ouest [Angers/Nantes] (UNICANCER/ICO), UNICANCER, Centre de Recherche en Cancérologie et Immunologie Nantes-Angers (CRCINA), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Nantes - UFR de Médecine et des Techniques Médicales (UFR MEDECINE), and Université de Nantes (UN)-Université de Nantes (UN)-Centre hospitalier universitaire de Nantes (CHU Nantes)-Centre National de la Recherche Scientifique (CNRS)-Université d'Angers (UA)

Subjects
[INFO.INFO-IM]Computer Science [cs]/Medical Imaging, [INFO.INFO-AI]Computer Science [cs]/Artificial Intelligence [cs.AI]
Abstract

National audience; HypothesisIn the clinical follow-up of metastatic breast cancer patients, semi-automatic measurements are performed on 18FDG PET/CT images to monitor the evolution of the main metastatic sites. Apart from being time-consuming and prone to subjective approximations, semi-automatic tools cannot make the difference between cancerous regions and active organs, presenting a high 18FDG uptake. In this work, we develop and compare fully automatic deep learning-based methods segmenting the main active organs (brain, heart, bladder), from full-body PET images.MethodsWe combine deep learning-based approaches with superpixels segmentation methods. In particular, we integrate a superpixel SLIC segmentation at different depths of a convolutional neural network, i.e. as input and within the optimization process. Superpixels reduce the resolution of the images, keeping sharp the boundaries of the larger target organs while the lesions, mostly smaller, are blurred. Results are compared with a deep learning segmentation network alone. The methods are cross-validated on full-body PET images of 36 patients from the ongoing EPICUREseinmeta study. The similarity between the manually defined ground truth masks of the organs and the results is evaluated with the Dice score. Moreover, these methods being preliminary to tumor segmentation, the precision of the networks is defined by monitoring the number of segmented voxels labelled as “active organ”, but belonging to a lesion.ResultsAlthough the methods present similar high Dice scores (0.96 ± 0.006), the ones using superpixels present a higher precision (on average 6, 16 and 27 selected voxels belonging to a tumor, for the CNN integrating superpixels in input, in optimization and not using them, respectively).ConclusionCombining deep learning with superpixels allows to segment organs presenting a high 18FDG uptake on PET images without selecting cancerous lesions. This improves the precision of the semi-automatic tools monitoring the evolution of breast cancer metastasis.

Published
2020

19. Unpaired PET/CT image synthesis of liver region using CycleGAN

Author

Santini, Gianmarco, primary, Fourcade, Constance, additional, Moreau, Noémie, additional, Rousseau, Caroline, additional, Ferrer, Ludovic, additional, Lacombe, Marie, additional, Fleury, Vincent, additional, Campone, Mario, additional, Jézéquel, Pascal, additional, and Rubeaux, Mathieu, additional

Published
2020
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20. Deep learning approaches for bone and bone lesion segmentation on 18FDG PET/CT imaging in the context of metastatic breast cancer

Author

Moreau, Noemie, primary, Rousseau, Caroline, additional, Fourcade, Constance, additional, Santini, Gianmarco, additional, Ferrer, Ludovic, additional, Lacombe, Marie, additional, Guillerminet, Camille, additional, Campone, Mario, additional, Colombie, Mathilde, additional, Rubeaux, Mathieu, additional, and Normand, and Nicolas, additional

Published
2020
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21. Combining Superpixels and Deep Learning Approaches to Segment Active Organs in Metastatic Breast Cancer PET Images

Author

Fourcade, Constance, primary, Ferrer, Ludovic, additional, Santini, Gianmarco, additional, Moreau, Noemie, additional, Rousseau, Caroline, additional, Lacombe, Marie, additional, Guillerminet, Camille, additional, Colombie, Mathilde, additional, Campone, Mario, additional, Mateus, Diana, additional, and Rubeaux, Mathieu, additional

Published
2020
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29. Automatic Segmentation of Metastatic Breast Cancer Lesions on 18 F-FDG PET/CT Longitudinal Acquisitions for Treatment Response Assessment.

Author

Moreau, Noémie, Rousseau, Caroline, Fourcade, Constance, Santini, Gianmarco, Brennan, Aislinn, Ferrer, Ludovic, Lacombe, Marie, Guillerminet, Camille, Colombié, Mathilde, Jézéquel, Pascal, Campone, Mario, Normand, Nicolas, and Rubeaux, Mathieu

Subjects
BREAST tumor diagnosis, DEEP learning, BIOMARKERS, METASTASIS, LEARNING laboratories, TREATMENT effectiveness, DIAGNOSTIC imaging, COMPARATIVE studies, BIOINFORMATICS, PATIENT monitoring, AUTOMATION, RADIOPHARMACEUTICALS, DESCRIPTIVE statistics, DEOXY sugars, BREAST tumors, LONGITUDINAL method
Abstract

Simple Summary: In the recent years, several deep learning methods for medical image segmentation have been developed for different purposes such as diagnosis, radiotherapy planning or to correlate images findings with other clinical data. However, few studies focus on longitudinal images and response assessment. To the best of our knowledge, this is the first study to date evaluating the use of automatic segmentation to obtain imaging biomarkers that can be used to assess treatment response in patients with metastatic breast cancer. Moreover, the statistical analysis of the different biomarkers shows that automatic segmentation can be successfully used for their computation, reaching similar performances compared to manual segmentation. Analysis also demonstrated the potential of the different biomarkers including novel/original ones to determine treatment response. Metastatic breast cancer patients receive lifelong medication and are regularly monitored for disease progression. The aim of this work was to (1) propose networks to segment breast cancer metastatic lesions on longitudinal whole-body PET/CT and (2) extract imaging biomarkers from the segmentations and evaluate their potential to determine treatment response. Baseline and follow-up PET/CT images of 60 patients from the EPICURE s e i n m e t a study were used to train two deep-learning models to segment breast cancer metastatic lesions: One for baseline images and one for follow-up images. From the automatic segmentations, four imaging biomarkers were computed and evaluated: SUL p e a k , Total Lesion Glycolysis (TLG), PET Bone Index (PBI) and PET Liver Index (PLI). The first network obtained a mean Dice score of 0.66 on baseline acquisitions. The second network obtained a mean Dice score of 0.58 on follow-up acquisitions. SUL p e a k , with a 32% decrease between baseline and follow-up, was the biomarker best able to assess patients' response (sensitivity 87%, specificity 87%), followed by TLG (43% decrease, sensitivity 73%, specificity 81%) and PBI (8% decrease, sensitivity 69%, specificity 69%). Our networks constitute promising tools for the automatic segmentation of lesions in patients with metastatic breast cancer allowing treatment response assessment with several biomarkers. [ABSTRACT FROM AUTHOR]

Published
2022
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32. Sistemi distribuiti per aste elettroniche: uno studio sperimentale

Author

Santini, Gianmarco, thesis supervisor: Panzieri, Fabio, Santini, Gianmarco, and thesis supervisor: Panzieri, Fabio

Abstract

Lo scopo del mio lavoro di tesi è studiare e discutere la realizzazione mediante un sistema distribuito di un’applicazione per aste olandesi ad alta affidabilità. L’applicazione deve supportare la competizione tra compratori e venditori. Per testare l'affidabilità di tale modello, simuleremo effettivamente il crash di uno o più servers.

33. Sistemi distribuiti per aste elettroniche: uno studio sperimentale

Author

Santini, Gianmarco, thesis supervisor: Panzieri, Fabio, Santini, Gianmarco, and thesis supervisor: Panzieri, Fabio

Abstract

Lo scopo del mio lavoro di tesi è studiare e discutere la realizzazione mediante un sistema distribuito di un’applicazione per aste olandesi ad alta affidabilità. L’applicazione deve supportare la competizione tra compratori e venditori. Per testare l'affidabilità di tale modello, simuleremo effettivamente il crash di uno o più servers.

34. Influence of inputs for bone lesion segmentation in longitudinal 18 F-FDG PET/CT imaging studies.

Author

Moreau N, Rousseau C, Fourcade C, Santini G, Ferrer L, Lacombe M, Guillerminet C, Colombie M, Jezequel P, Campone M, Rubeaux M, and Normand N

Subjects
Female, Fluorodeoxyglucose F18, Humans, Positron Emission Tomography Computed Tomography methods, Positron-Emission Tomography, Bone Neoplasms diagnostic imaging, Bone Neoplasms secondary, Breast Neoplasms diagnostic imaging, Breast Neoplasms pathology
Abstract

In metastatic breast cancer, bone metastases are prevalent and associated with multiple complications. Assessing their response to treatment is therefore crucial. Most deep learning methods segment or detect lesions on a single acquisition while only a few focus on longitudinal studies. In this work, 45 patients with baseline (BL) and follow-up (FU) images recruited in the context of the EPICURE seinmeta study were analyzed. The aim was to determine if a network trained for a particular timepoint can generalize well to another one, and to explore different improvement strategies. Four networks based on the same 3D U-Net framework to segment bone lesions on BL and FU images were trained with different strategies and compared. These four networks were trained 1) only with BL images 2) only with FU images 3) with both BL and FU images 4) only with FU images but with BL images and bone lesion segmentations registered as input channels. With the obtained segmentations, we computed the PET Bone Index (PBI) which assesses the bone metastases burden of patients and we analyzed its potential for treatment response evaluation. Dice scores of 0.53, 0.55, 0.59 and 0.62 were respectively obtained on FU acquisitions. The under-performance of the first and third networks may be explained by the lower SUV uptake due to treatment response in FU images compared to BL images. The fourth network gives better results than the second network showing that the addition of BL PET images and bone lesion segmentations as prior knowledge has its importance. With an AUC of 0.86, the difference of PBI between two acquisitions could be used to assess treatment response. Clinical relevance- To assess the response to treatment of bone metastases, it is crucial to detect and segment them on several acquisitions from a same patient. We proposed a completely automatic method to detect and segment these metastases on longitudinal 18F-FDG PET/CT images in the context of metastatic breast cancer. We also proposed an automatic PBI to quantitatively assess the evolution of the bone metastases burden of patient and to automatically evaluate their response to treatment.

Published
2022
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35. Automatic Segmentation of Metastatic Breast Cancer Lesions on 18 F-FDG PET/CT Longitudinal Acquisitions for Treatment Response Assessment.

Author

Moreau N, Rousseau C, Fourcade C, Santini G, Brennan A, Ferrer L, Lacombe M, Guillerminet C, Colombié M, Jézéquel P, Campone M, Normand N, and Rubeaux M

Abstract

Metastatic breast cancer patients receive lifelong medication and are regularly monitored for disease progression. The aim of this work was to (1) propose networks to segment breast cancer metastatic lesions on longitudinal whole-body PET/CT and (2) extract imaging biomarkers from the segmentations and evaluate their potential to determine treatment response. Baseline and follow-up PET/CT images of 60 patients from the EPICUREseinmeta study were used to train two deep-learning models to segment breast cancer metastatic lesions: One for baseline images and one for follow-up images. From the automatic segmentations, four imaging biomarkers were computed and evaluated: SULpeak, Total Lesion Glycolysis (TLG), PET Bone Index (PBI) and PET Liver Index (PLI). The first network obtained a mean Dice score of 0.66 on baseline acquisitions. The second network obtained a mean Dice score of 0.58 on follow-up acquisitions. SULpeak, with a 32% decrease between baseline and follow-up, was the biomarker best able to assess patients' response (sensitivity 87%, specificity 87%), followed by TLG (43% decrease, sensitivity 73%, specificity 81%) and PBI (8% decrease, sensitivity 69%, specificity 69%). Our networks constitute promising tools for the automatic segmentation of lesions in patients with metastatic breast cancer allowing treatment response assessment with several biomarkers.

Published
2021
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36. Combining Superpixels and Deep Learning Approaches to Segment Active Organs in Metastatic Breast Cancer PET Images .

Author

Fourcade C, Ferrer L, Santini G, Moreau N, Rousseau C, Lacombe M, Guillerminet C, Colombie M, Campone M, Mateus D, and Rubeaux M

Subjects
Algorithms, Brain, Humans, Neoplasm Metastasis, Positron Emission Tomography Computed Tomography, Breast Neoplasms diagnostic imaging, Breast Neoplasms pathology, Deep Learning
Abstract

Semi-automatic measurements are performed on 18 FDG PET-CT images to monitor the evolution of metastatic sites in the clinical follow-up of metastatic breast cancer patients. Apart from being time-consuming and prone to subjective approximation, semi-automatic tools cannot make the difference between cancerous regions and active organs, presenting a high 18 FDG uptake.In this work, we combine a deep learning-based approach with a superpixel segmentation method to segment the main active organs (brain, heart, bladder) from full-body PET images. In particular, we integrate a superpixel SLIC algorithm at different levels of a convolutional network. Results are compared with a deep learning segmentation network alone. The methods are cross-validated on full-body PET images of 36 patients and tested on the acquisitions of 24 patients from a different study center, in the context of the ongoing EPICUREseinmeta study. The similarity between the manually defined organ masks and the results is evaluated with the Dice score. Moreover, the amount of false positives is evaluated through the positive predictive value (PPV).According to the computed Dice scores, all approaches allow to accurately segment the target organs. However, the networks integrating superpixels are better suited to transfer knowledge across datasets acquired on multiple sites (domain adaptation) and are less likely to segment structures outside of the target organs, according to the PPV.Hence, combining deep learning with superpixels allows to segment organs presenting a high 18 FDG uptake on PET images without selecting cancerous lesion, and thus improves the precision of the semi-automatic tools monitoring the evolution of breast cancer metastasis.Clinical relevance- We demonstrate the utility of combining deep learning and superpixel segmentation methods to accurately find the contours of active organs from metastatic breast cancer images, to different dataset distributions.

Published
2020
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37. Deep learning approaches for bone and bone lesion segmentation on 18FDG PET/CT imaging in the context of metastatic breast cancer .

Author

Moreau N, Rousseau C, Fourcade C, Santini G, Ferrer L, Lacombe M, Guillerminet C, Campone M, Colombie M, Rubeaux M, and Normand AN

Subjects
Humans, Positron Emission Tomography Computed Tomography, Prospective Studies, Tomography, X-Ray Computed, Breast Neoplasms diagnostic imaging, Deep Learning, Fluorodeoxyglucose F18
Abstract

18 FDG PET/CT imaging is commonly used in diagnosis and follow-up of metastatic breast cancer, but its quantitative analysis is complicated by the number and location heterogeneity of metastatic lesions. Considering that bones are the most common location among metastatic sites, this work aims to compare different approaches to segment the bones and bone metastatic lesions in breast cancer.Two deep learning methods based on U-Net were developed and trained to segment either both bones and bone lesions or bone lesions alone on PET/CT images. These methods were cross-validated on 24 patients from the prospective EPICURE seinmeta metastatic breast cancer study and were evaluated using recall and precision to measure lesion detection, as well as the Dice score to assess bones and bone lesions segmentation accuracy.Results show that taking into account bone information in the training process allows to improve the precision of the lesions detection as well as the Dice score of the segmented lesions. Moreover, using the obtained bone and bone lesion masks, we were able to compute a PET bone index (PBI) inspired by the recognized Bone Scan Index (BSI). This automatically computed PBI globally agrees with the one calculated from ground truth delineations.Clinical relevance- We propose a completely automatic deep learning based method to detect and segment bones and bone lesions on 18 FDG PET/CT in the context of metastatic breast cancer. We also introduce an automatic PET bone index which could be incorporated in the monitoring and decision process.

Published
2020
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