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1. Shape-aware synthesis of pathological lung CT scans using CycleGAN for enhanced semi-supervised lung segmentation

Author

Khiati, Rezkellah Noureddine, Brillet, Pierre-Yves, Justet, Aurélien, Ispas, Radu, and Fetita, Catalin

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

This paper addresses the problem of pathological lung segmentation, a significant challenge in medical image analysis, particularly pronounced in cases of peripheral opacities (severe fibrosis and consolidation) because of the textural similarity between lung tissue and surrounding areas. To overcome these challenges, this paper emphasizes the use of CycleGAN for unpaired image-to-image translation, in order to provide an augmentation method able to generate fake pathological images matching an existing ground truth. Although previous studies have employed CycleGAN, they often neglect the challenge of shape deformation, which is crucial for accurate medical image segmentation. Our work introduces an innovative strategy that incorporates additional loss functions. Specifically, it proposes an L1 loss based on the lung surrounding which shape is constrained to remain unchanged at the transition from the healthy to pathological domains. The lung surrounding is derived based on ground truth lung masks available in the healthy domain. Furthermore, preprocessing steps, such as cropping based on ribs/vertebra locations, are applied to refine the input for the CycleGAN, ensuring that the network focus on the lung region. This is essential to avoid extraneous biases, such as the zoom effect bias, which can divert attention from the main task. The method is applied to enhance in semi-supervised manner the lung segmentation process by employing a U-Net model trained with on-the-fly data augmentation incorporating synthetic pathological tissues generated by the CycleGAN model. Preliminary results from this research demonstrate significant qualitative and quantitative improvements, setting a new benchmark in the field of pathological lung segmentation. Our code is available at https://github.com/noureddinekhiati/Semi-supervised-lung-segmentation, Comment: 14 pages, 7 figures

Published
2024

2. SDePER: a hybrid machine learning and regression method for cell-type deconvolution of spatial barcoding-based transcriptomic data

Author

Yunqing Liu, Ningshan Li, Ji Qi, Gang Xu, Jiayi Zhao, Nating Wang, Xiayuan Huang, Wenhao Jiang, Huanhuan Wei, Aurélien Justet, Taylor S. Adams, Robert Homer, Amei Amei, Ivan O. Rosas, Naftali Kaminski, Zuoheng Wang, and Xiting Yan

Subjects
Biology (General), QH301-705.5, Genetics, QH426-470
Abstract

Abstract Spatial barcoding-based transcriptomic (ST) data require deconvolution for cellular-level downstream analysis. Here we present SDePER, a hybrid machine learning and regression method to deconvolve ST data using reference single-cell RNA sequencing (scRNA-seq) data. SDePER tackles platform effects between ST and scRNA-seq data, ensuring a linear relationship between them while addressing sparsity and spatial correlations in cell types across capture spots. SDePER estimates cell-type proportions, enabling enhanced resolution tissue mapping by imputing cell-type compositions and gene expressions at unmeasured locations. Applications to simulated data and four real datasets showed SDePER’s superior accuracy and robustness over existing methods.

Published
2024
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4. Anti–IL-4R versus anti–IL-5/5R after anti–IL-5/5R failure in asthma: An emulated target trial

Author

Devouassoux, G., Taillé, C., Chanez, P., Bonniaud, P., Bourdin, A., Saint Raymond, C., Maurer, C., Beurnier, A., Roux, P., Margelidon, V., Boudjemaa, A., Mangiapan, G., Freymond, N., Didi, T., Russier, M., Garcia, G., Meyer, E. Popin, Dupin, C., Fouquet, F., Jouveshomme, S., Gaspard, W., Dury, S., Maillard, S. Habib, Izadifar, A., Cuvillon, E., Deslée, G., Barnig, C., Perotin, J.M., Gamez, A.S., Oster, J.P., Khayat, N., Chenivesse, C., Li, X., Appere de Vecchi, C., Gicquello, A., Rami, H., Vignal, G., Just, N., Blanc, X., Leroyer, C., Wemeau, L., Achkar, A., Sattler, C., Catherinot, E., Guilleminault, L., Gaillot-Drevon, M., Rochefort-Morel, C., Couturaud, F., Martin, P., Chabrol, A., Pegliasco, H., Sése, L., Romanet, S., Caverstri, B., Tcherakian, C., Magnan, A., Ahmed, E., Allibe, F., Beltramo, G., Michaux, K., Paleiron, N., Martinez, S., Begne, C., Tummino, C., Givel, C., Mourin, G., Salvator, H., Volpato, M., Drucbert, M., Rossignoli, N., Keddache, S., Justet, A., Andrejak, C., Valcke, J., Perrin, J., Mercy, M., Jouvenot, M., Soumagne, T., Elharrar, X., Douvry, B., Godbert, B., Maitre, B., Goyard, C., Didier, A., Cadet, E., Chabot, F., Gonzalez, J., Mattei, L., Gouitaa, M., Chauveau, S., Raymond, S., Dirou, S., Fry, S., Briault, A., Moui, A., Paris, A., NoelSavina, E., Olivier, C., Caradec, E., Roche, N., Picart, G., Belmont, L., Portel, L., Serra, M. Rocca, Guibert, N., Jean, R., Hadjadj, S., Guillo, S., Gauquelin, L., Estellat, C., Prigent, A., Larrousse, M., Jaffuel, D., Bourayou, Karima, Klising, Eve, Yelles, Nessima, Pochon, Sarra, Gouider, Amal, Medina, Hadj Kaci, Yasmine, Sellali, Djouher, Dahmani, Ndao, Diakhou, Vacher, Yannick, Achkar, Antoine, Ahmed, Engi, Alain, Didier, Allibe, Flora, Andrejak, Claire, De Vecchi, Corinne Appere, Barnig, Cindy, Begne, Camille, Belmont, Laure, Beltramo, Guillaume, Blanc, Xavier, Briault, Amandine, Cadet, Emmanuelle, Caradec, Emmanuela, Catherinot, Émilie, Cavestri, Beatrice, Chabrol, Alexandre, Chanez, Pascal, Chauveau, Simon, Couturaud, Francis, Cuvillon, Édouard, Deslee, Gaëtan, Didi, Toufik, Dirou, Stéphanie, Douvry, benoît, Drucbert, Mélanie, Dupin, Clairelyne, Dury, Sandra, Elharrar, Xavier, Fouquet, Helen, Freymond, Nathalie, Fry, Stéphanie, Gaillot-Drevon, Maud, Gamez, Anne Sophie, Garcia, Gilles, Gaspard, Wanda, Gicquello, Alice, Givel, Claire, Godbert, benoit, Gonzalez, Jésus, Gouitaa, Marion, Goupil, François, Goyard, Céline, Guibert, Nicolas, Guilleminault, Laurent, Habib-Maillard, Stéphanie, Hadjadj, Samra, Izadifar, Armine, Jean, Romain, Jouvenot, marie, Jouveshomme, Stéphane, Just, Nicolas, Justet, Aurélien, Keddache, Sophia, Khayath, Naji, Lemaire, Bertrand, Leroyer, Christophe, Li, Xing, Magnan, Antoine, Maitre, Bernard, Mangiapan, Gilles, Margelidon, Victor, Martin, Pascale, Martinez, Stéphanie, Mattei, Laura, Maurer, Cyril, Mercy, Magalie, Michaux, Karine, Moui, Antoine, Mourin, Gisèle, Noel-Savina, Elisa, Olivier, Cécile, Oster, Jean-Philippe, Paleiron, Nicolas, Paris, Audrey, Pegliasco, Hervé, Perotin Collard, Jeanne-Marie, Perrin, Julie, Picart, Gaël, Pison, Christophe, Popin-Meyer, Élisabeth, Portel, Laurent, Rami, Hassina, Raymond, Stéphane, Serra, Mireille Rocca, Rochefort-Morel, Cécile, Romanet, Stéphanie, Rossignoli, Nadine, Roux, Pauline, Russier, Maud, Saint-Raymond, Christel, Salmeron, Sergio, Salvator, Helene, Sattler, Caroline, Sese, Lucile, Soumagne, Thibaud, Tcherakian, Colas, Tiotiu, Angélica, Tummino, Céline, Valcke-Brossollet, Judith, Vignal, Guillaume, Volpato, Mathilde, Wemeau, Lidwine, Valery, Solène, Simon-Tillaux, Noémie, Devouassoux, Gilles, Bonniaud, Philippe, Beurnier, Antoine, Boudjemaa, Amel, Chenivesse, Cécile, Bourdin, Arnaud, Gauquelin, Lisa, Guillo, Sylvie, Taillé, Camille, and Estellat, Candice

Published
2024
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10. Identification of Paired-related Homeobox Protein 1 as a key mesenchymal transcription factor in pulmonary fibrosis

Author

Emmeline Marchal-Duval, Méline Homps-Legrand, Antoine Froidure, Madeleine Jaillet, Mada Ghanem, Deneuville Lou, Aurélien Justet, Arnaud Maurac, Aurelie Vadel, Emilie Fortas, Aurelie Cazes, Audrey Joannes, Laura Giersh, Herve Mal, Pierre Mordant, Tristan Piolot, Marin Truchin, Carine M Mounier, Ksenija Schirduan, Martina Korfei, Andreas Gunther, Bernard Mari, Frank Jaschinski, Bruno Crestani, and Arnaud A Mailleux

Subjects
fibrosis, lung, fibroblasts, transcription factors, TGF beta pathway, Medicine, Science, Biology (General), QH301-705.5
Abstract

Matrix remodeling is a salient feature of idiopathic pulmonary fibrosis (IPF). Targeting cells driving matrix remodeling could be a promising avenue for IPF treatment. Analysis of transcriptomic database identified the mesenchymal transcription factor PRRX1 as upregulated in IPF. PRRX1, strongly expressed by lung fibroblasts, was regulated by a TGF-β/PGE2 balance in vitro in control and IPF human lung fibroblasts, while IPF fibroblast-derived matrix increased PRRX1 expression in a PDGFR-dependent manner in control ones. PRRX1 inhibition decreased human lung fibroblast proliferation by downregulating the expression of S phase cyclins. PRRX1 inhibition also impacted TGF-β driven myofibroblastic differentiation by inhibiting SMAD2/3 phosphorylation through phosphatase PPM1A upregulation and TGFBR2 downregulation, leading to TGF-β response global decrease. Finally, targeted inhibition of Prrx1 attenuated fibrotic remodeling in vivo with intra-tracheal antisense oligonucleotides in bleomycin mouse model of lung fibrosis and ex vivo using human and mouse precision-cut lung slices. Our results identified PRRX1 as a key mesenchymal transcription factor during lung fibrogenesis.

Published
2023
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11. Aberrant and Ectopic Cell Populations of the Fibrotic Pushing Border in Restrictive Allograft Syndrome after Lung Transplantation

Author

Leiber, Lena M., primary, Christian, Leonard, additional, Neubert, Lavinia, additional, Ruwisch, Jannik, additional, Yilmaz, Hande, additional, Plucinski, Edith K. J., additional, Langer, Linus, additional, Kamp, Jan C., additional, Greer, Mark, additional, Haermeyer, Bernd, additional, Kühnel, Mark, additional, Werlein, Christopher, additional, Justet, Aurelien, additional, Bergmann, Anke K., additional, Ballmaier, Matthias, additional, Salman, Jawad, additional, Knudsen, Lars, additional, Martin, Ulrich, additional, Vanaudenaerde, Bart, additional, Yildirim, Ali Önder, additional, Ius, Fabio, additional, Laenger, Florian, additional, Welte, Tobias, additional, Falk, Christine, additional, Kaminski, Naftali, additional, Jonigk, Danny D., additional, Gottlieb, Jens, additional, and Schupp, Jonas C., additional

Published
2024
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12. Anti-IL-4R versus Anti-IL-5/5R after Anti-IL-5/5R failure in asthma: an emulated target trial

Author

Valery, Solène, primary, Simon-Tillaux, Noémie, additional, Devouassoux, Gilles, additional, Bonniaud, Philippe, additional, Beurnier, Antoine, additional, Boudjemaa, Amel, additional, Chenivesse, Cécile, additional, Bourdin, Arnaud, additional, Gauquelin, Lisa, additional, Guillo, Sylvie, additional, Taillé, Camille, additional, Estellat, Candice, additional, Devouassoux, G., additional, Taillé, C., additional, Chanez, P., additional, Bonniaud, P., additional, Bourdin, A., additional, Raymond, C.Saint, additional, Maurer, C., additional, Beurnier, A., additional, Roux, P., additional, Margelidon, V., additional, Boudjemaa, A., additional, Mangiapan, G., additional, Freymond, N., additional, Didi, T., additional, Russier, M., additional, Garcia, G., additional, Meyer, E.Popin, additional, Dupin, C., additional, Fouquet, F., additional, Jouveshomme, S., additional, Gaspard, W., additional, Dury, S., additional, Maillard, S.Habib, additional, Izadifar, A., additional, Cuvillon, E., additional, Deslée, G., additional, Barnig, C., additional, Perotin, J.M., additional, Gamez, A.S., additional, Oster, J.P., additional, Khayat, N., additional, Chenivesse, C., additional, Li, X., additional, de Vecchi, C.Appere, additional, Gicquello, A., additional, Rami, H., additional, Vignal, G., additional, Just, N., additional, Blanc, X., additional, Leroyer, C., additional, Wemeau, L., additional, Achkar, A., additional, Sattler, C., additional, Catherinot, E., additional, Guilleminault, L., additional, Gaillot-Drevon, M., additional, Rochefort-Morel, C., additional, Couturaud, F., additional, Martin, P., additional, Chabrol, A., additional, Pegliasco, H., additional, Sése, L., additional, Romanet, S., additional, Caverstri, B., additional, Tcherakian, C., additional, Magnan, A., additional, Ahmed, E., additional, Allibe, F., additional, Beltramo, G., additional, Michaux, K., additional, Paleiron, N., additional, Martinez, S., additional, Begne, C., additional, Tummino, C., additional, Givel, C., additional, Mourin, G., additional, Salvator, H., additional, Volpato, M., additional, Drucbert, M., additional, Rossignoli, N., additional, Keddache, S., additional, Justet, A., additional, Andrejak, C., additional, Valcke, J., additional, Perrin, J., additional, Mercy, M., additional, Jouvenot, M., additional, Soumagne, T., additional, Elharrar, X., additional, Douvry, B., additional, Godbert, B., additional, Maitre, B., additional, Goyard, C., additional, Didier, A., additional, Cadet, E., additional, Chabot, F., additional, Gonzalez, J., additional, Mattei, L., additional, Gouitaa, M., additional, Chauveau, S., additional, Raymond, S., additional, Dirou, S., additional, Fry, S., additional, Briault, A., additional, Moui, A., additional, Paris, A., additional, NoelSavina, E., additional, Olivier, C., additional, Caradec, E., additional, Roche, N., additional, Picart, G., additional, Belmont, L., additional, Portel, L., additional, Serra, M.Rocca, additional, Guibert, N., additional, Jean, R., additional, Hadjadj, S., additional, Guillo, S., additional, Gauquelin, L., additional, Estellat, C., additional, Prigent, A., additional, Larrousse, M., additional, and Jaffuel, D., additional

Published
2024
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13. From COVID to fibrosis: lessons from single-cell analyses of the human lung

Author

Aurelien Justet, Amy Y. Zhao, and Naftali Kaminski

Subjects
COVID-19, Fibrotic interstitial lung disease, Single-cell analysis, Idiopathic pulmonary fibrosis, IPF cell atlas, Medicine, Genetics, QH426-470
Abstract

Abstract The increased resolution of single-cell RNA-sequencing technologies has led to major breakthroughs and improved our understanding of the normal and pathologic conditions of multiple tissues and organs. In the study of parenchymal lung disease, single-cell RNA-sequencing has better delineated known cell populations and identified novel cells and changes in cellular phenotypes and gene expression patterns associated with disease. In this review, we aim to highlight the advances and insights that have been made possible by applying these technologies to two seemingly very different lung diseases: fibrotic interstitial lung diseases, a group of relentlessly progressive lung diseases leading to pulmonary fibrosis, and COVID-19 pneumonia, an acute viral disease with life-threatening complications, including pulmonary fibrosis. We discuss changes in cell populations and gene expression, highlighting potential common features, such as alveolar cell epithelial injury and aberrant repair and monocyte-derived macrophage populations, as well as relevance and implications to mechanisms of disease and future directions.

Published
2022
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16. Lab-made 3D printed stoppers as high-throughput cell migration screening tool

Author

Silvina Acosta, Lucía Canclini, Carlos Galarraga, Cristian Justet, and Diego Alem

Subjects
3D-printing, cell migration, EdU proliferation assay, HaCaT cell line, wound healing assay, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5
Abstract

Cell migration is a process that underlies the development and maintenance of multicellular organisms, with profound implications in various pathologies. The study of cell migration is fundamental in various fields of basic biology and pharmaceutical development. Wound healing assay is an indirect way to assess cell migration. Conventional methods, such as the scratch test, are inexpensive and easy to execute but have the disadvantages of being poorly reproducible and difficult to perform on a high-throughput scale. Meanwhile, commercial strategies are expensive. In the present work, we developed a lab-made wound healing assay device that is inexpensive, easy to handle, and reproducible. We designed 3D-printed stoppers compatible with cell culture in 96-well plates. These stoppers did not affect HaCaT cells viability. The stopper-produced initial wound size was reproducible on a high-throughput scale. Also, stoppers demonstrated their effectiveness to evaluate cell migration and allowed differentiating treatments with and without fetal bovine serum. Finally, proliferation assay was determined in this wound healing model. In conclusion, our lab-made 3D-printed stopper-based assay is a more economical alternative to currently available strategies for developing reproducible, high-throughput assays to assess cell migration and proliferation.

Published
2022
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17. Profibrotic Role of GPR87 in Pulmonary Fibrosis

Author

Khoury, J., primary, Ahangari, F., additional, Manning, E.P., additional, Justet, A., additional, barnthaler, T., additional, Adams, T., additional, Necola, F., additional, Alysandratos, K.-D., additional, Beermann, M.L., additional, Kotton, D.N., additional, and Kaminski, N., additional

Published
2024
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20. Fibrotic cocktail treated human precision lung slices replicate the cellular diversity of the IPF lung

Author

Justet, A., primary, Pineda, H.R., additional, Adams, T., additional, Balayev, A., additional, Mitash, N., additional, Ishizuka, M., additional, Kim, H., additional, Khoury, J., additional, Cala-García, J.D., additional, Flint, J., additional, Schupp, J., additional, Ahangari, F., additional, Yan, X., additional, Rosas, I., additional, Kaminski, N., additional, and Königshoff, M., additional

Published
2024
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23. From training to articulation. The experience of Construcciones 1 in extension projects

Author

Marcos Cáceres, Martín Justet, Jorge Grisóstolo, Gustavo Pilar, and Guillermo Roig

Subjects
proceso, formación, inclusión, retroalimentación, Architecture, NA1-9428
Abstract

The experience reported in this work is the product of a process developed for several years with different actors and institutions and enriched thanks to the experiences and needs that arose during the process. The activities began in 2009 as training for workers in municipalities in the interior of the Chaco. This initial project was adjusting and growing in commitment through the extension program "The University in the Middle" and the link with other institutions: Faculty of Engineering of the U.N.NE. and the U.E.P. UOCRA N ° 149. Thus we managed, in the successive years of implementation, to articulate the training of workers with the training of the faculty student, promoting the exchange of knowledge and work, bringing our students closer to professional practice in a process continuous feedback.

Published
2020
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24. Similarities and differences of interstitial lung disease associated with pathogenic variants in SFTPC and ABCA3 in adults.

Author

Diesler, Rémi, Legendre, Marie, Si‐Mohamed, Salim, Brillet, Pierre‐Yves, Wemeau, Lidwine, Manali, Effrosyni D., Gagnadoux, Frédéric, Hirschi, Sandrine, Lorillon, Gwenaël, Reynaud‐Gaubert, Martine, Bironneau, Vanessa, Blanchard, Elodie, Bourdin, Arnaud, Dominique, Stéphane, Justet, Aurélien, Macey, Julie, Marchand‐Adam, Sylvain, Morisse‐Pradier, Hélène, Nunes, Hilario, and Papiris, Spyros A.

Subjects
INTERSTITIAL lung diseases, IDIOPATHIC pulmonary fibrosis, PULMONARY fibrosis, ADULTS, COMPUTED tomography, LUNG transplantation
Abstract

Background and Objective: Variants in surfactant genes SFTPC or ABCA3 are responsible for interstitial lung disease (ILD) in children and adults, with few studies in adults. Methods: We conducted a multicentre retrospective study of all consecutive adult patients diagnosed with ILD associated with variants in SFTPC or ABCA3 in the French rare pulmonary diseases network, OrphaLung. Variants and chest computed tomography (CT) features were centrally reviewed. Results: We included 36 patients (median age: 34 years, 20 males), 22 in the SFTPC group and 14 in the ABCA3 group. Clinical characteristics were similar between groups. Baseline median FVC was 59% ([52–72]) and DLco was 44% ([35–50]). An unclassifiable pattern of fibrosing ILD was the most frequent on chest CT, found in 85% of patients, however with a distinct phenotype with ground‐glass opacities and/or cysts. Nonspecific interstitial pneumonia and usual interstitial pneumonia were the most common histological patterns in the ABCA3 group and in the SFTPC group, respectively. Annually, FVC and DLCO declined by 1.87% and 2.43% in the SFTPC group, respectively, and by 0.72% and 0.95% in the ABCA3 group, respectively (FVC, p = 0.014 and DLCO, p = 0.004 for comparison between groups). Median time to death or lung transplantation was 10 years in the SFTPC group and was not reached at the end of follow‐up in the ABCA3 group. Conclusion: SFTPC and ABCA3‐associated ILD present with a distinct phenotype and prognosis. A radiologic pattern of fibrosing ILD with ground‐glass opacities and/or cysts is frequently found in these rare conditions. [ABSTRACT FROM AUTHOR]

Published
2024
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26. Peripheral Blood Single-Cell Sequencing Uncovers Common and Specific Immune Aberrations in Fibrotic Lung Diseases

Author

Zhao, Amy Y., primary, Unterman, Avraham, additional, Abu Hussein, Nebal, additional, Sharma, Prapti, additional, Flint, Jasper, additional, Yan, Xiting, additional, Adams, Taylor S., additional, Justet, Aurelien, additional, Sumida, Tomokazu S., additional, Zhao, Jiayi, additional, Schupp, Jonas C., additional, Raredon, Micha Sam B., additional, Ahangari, Farida, additional, Zhang, Yingze, additional, Buendia-Roldan, Ivette, additional, Adegunsoye, Ayodeji, additional, Sperling, Anne I., additional, Prasse, Antje, additional, Ryu, Changwan, additional, Herzog, Erica, additional, Selman, Moises, additional, Pardo, Annie, additional, and Kaminski, Naftali, additional

Published
2023
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27. Identification of abnormal airway niches in the fibrotic lung using Spatial Transcriptomics

Author

Justet, Aurélien, primary, Zhao, Jiayi, additional, Adams, Taylor, additional, Balayev, Agshin, additional, Barnthaler, Thomas, additional, Raredon, Sam, additional, Poli De Frias, Fernando, additional, Cala-Garcia, Juan, additional, Mcdonough, John, additional, Zhao, Amy, additional, Yunqing, Liu, additional, Ningshan, Li, additional, Anita, Wang, additional, Rosas, Ivan, additional, Yan, Xiting, additional, and Kaminski, Naftali, additional

Published
2023
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29. Phenotypic characterization of interstitial lung disease associated with mutations in SFTPC and ABCA3 in adults

Author

Diesler, Rémi, primary, Legendre, Marie, additional, Si-Mohamed, Salim, additional, Brillet, Pierre-Yves, additional, Wemeau, Lidwine, additional, Manali, Effrosyni D, additional, Gagnadoux, Frédéric, additional, Gondouin, Anne, additional, Hirschi, Sandrine, additional, Lorillon, Gwenael, additional, Reynaud-Gaubert, Martine, additional, Bironneau, Vanessa, additional, Blanchard, Elodie, additional, Bourdin, Arnaud, additional, Dominique, Stéphane, additional, Justet, Aurélien, additional, Macey, Julie, additional, Marchand-Adam, Sylvain, additional, Morisse-Pradier, Hélène, additional, Nunes, Hilario, additional, Papiris, Spyros, additional, Traclet, Julie, additional, Crestani, Bruno, additional, Amsellem, Serge, additional, Nathan, Nadia, additional, Borie, Raphaël, additional, and Cottin, Vincent, additional

Published
2023
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36. Saracatinib, a Selective Src Kinase Inhibitor, Blocks Fibrotic Responses in Preclinical Models of Pulmonary Fibrosis

Author

Farida Ahangari, Christine Becker, Daniel G. Foster, Maurizio Chioccioli, Meghan Nelson, Keriann Beke, Xing Wang, Aurelien Justet, Taylor Adams, Benjamin Readhead, Carly Meador, Kelly Correll, Loukia N. Lili, Helen M. Roybal, Kadi-Ann Rose, Shuizi Ding, Thomas Barnthaler, Natalie Briones, Giuseppe DeIuliis, Jonas C. Schupp, Qin Li, Norihito Omote, Yael Aschner, Lokesh Sharma, Katrina W. Kopf, Björn Magnusson, Ryan Hicks, Anna Backmark, Charles S. Dela Cruz, Ivan Rosas, Leslie P. Cousens, Joel T. Dudley, Naftali Kaminski, and Gregory P. Downey

Subjects
Pulmonary and Respiratory Medicine, Critical Care and Intensive Care Medicine
Published
2022

37. Chaotic activation of developmental signalling pathways drives idiopathic pulmonary fibrosis

Author

Antoine Froidure, Emmeline Marchal-Duval, Meline Homps-Legrand, Mada Ghanem, Aurélien Justet, Bruno Crestani, and Arnaud Mailleux

Subjects
Diseases of the respiratory system, RC705-779
Abstract

Idiopathic pulmonary fibrosis (IPF) is characterised by an important remodelling of lung parenchyma. Current evidence indicates that the disease is triggered by alveolar epithelium activation following chronic lung injury, resulting in alveolar epithelial type 2 cell hyperplasia and bronchiolisation of alveoli. Signals are then delivered to fibroblasts that undergo differentiation into myofibroblasts. These changes in lung architecture require the activation of developmental pathways that are important regulators of cell transformation, growth and migration. Among others, aberrant expression of profibrotic Wnt-β-catenin, transforming growth factor-β and Sonic hedgehog pathways in IPF fibroblasts has been assessed. In the present review, we will discuss the transcriptional integration of these different pathways during IPF as compared with lung early ontogeny. We will challenge the hypothesis that aberrant transcriptional integration of these pathways might be under the control of a chaotic dynamic, meaning that a small change in baseline conditions could be sufficient to trigger fibrosis rather than repair in a chronically injured lung. Finally, we will discuss some potential opportunities for treatment, either by suppressing deleterious mechanisms or by enhancing the expression of pathways involved in lung repair. Whether developmental mechanisms are involved in repair processes induced by stem cell therapy will also be discussed.

Published
2020
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39. A hybrid machine learning and regression method for cell type deconvolution of spatial barcoding-based transcriptomic data

Author

Liu, Yunqing, primary, Li, Ningshan, additional, Qi, Ji, additional, Xu, Gang, additional, Zhao, Jiayi, additional, Wang, Nating, additional, Huang, Xiayuan, additional, Jiang, Wenhao, additional, Justet, Aurélien, additional, Adams, Taylor S., additional, Homer, Robert, additional, Amei, Amei, additional, Rosas, Ivan O., additional, Kaminski, Naftali, additional, Wang, Zuoheng, additional, and Yan, Xiting, additional

Published
2023
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40. Identification of paired-related Homeobox Protein 1 as a key mesenchymal transcription factor in pulmonary fibrosis

Author

Marchal-Duval, Emmeline, primary, Homps-Legrand, Méline, additional, Froidure, Antoine, additional, Jaillet, Madeleine, additional, Ghanem, Mada, additional, Lou, Deneuville, additional, Justet, Aurélien, additional, Maurac, Arnaud, additional, Vadel, Aurelie, additional, Fortas, Emilie, additional, Cazes, Aurelie, additional, Joannes, Audrey, additional, Giersh, Laura, additional, Mal, Herve, additional, Mordant, Pierre, additional, Piolot, Tristan, additional, Truchin, Marin, additional, Mounier, Carine M, additional, Schirduan, Ksenija, additional, Korfei, Martina, additional, Gunther, Andreas, additional, Mari, Bernard, additional, Jaschinski, Frank, additional, Crestani, Bruno, additional, and Mailleux, Arnaud A, additional

Published
2023
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42. Clinical characteristics and outcome of respiratory syncytial virus infection among adults hospitalized with influenza-like illness in France

Author

Seddik, K., Lesieur, Z., Bonmarin, I., Loulergue, P., Bodilis, H., Servera-Miyalou, M., Sadler, I., Momcilovic, S., Kanaan, R., Coolent, N., Tan Boun, K., Blanche, P., Charpentier, J., Daviaud, F., Mongardon, N., Bretagnol, A., Claessens, Y.E., Rozenberg, F., Yazdanpanah, Y., Burdet, C., Harent, S., Lachatre, M., Rioux, C., Bleibtreu, A., Casalino, E., Choquet, C., Leleu, A., Belghalem, K., Colosi, L., Ranaivoson, M., Verry, V., Pereira, L., Dupeyrat, E., Bernard, J., Emeyrat, N., Chavance, P., Debit, A., Aubier, M., Pradere, P., Justet, A., Mal, H., Brugiere, O., Papo, T., Goulenok, T., Boisseau, M., Jouenne, R., Alexandra, J.F., Raynaud-Simon, A., Lilamand, M., Cloppet-Fontaine, A., Becheur, K., Pelletier, A.L., Fidouh, N., Ralaimazava, P., Beaumale, F., Costa, Y., Munier, E., Betend, F., Amour, S., Loeffert, S., Francourt, K., Merle, C., Letois, F., Géraud, P., Driss, V., Noslier, S., Ray, M., Sebbane, M., Konaté, A., Bourdin, A., Klouche, K., Léglise, M.S., Couve-Deacon, E., Fruit, D., Fenerol, C., Vallejo, C., Jouneau, S., Lainé, F., Thébault, E., Fillatre, P., Le Pape, C., Beuzit, L., Chau, F., Carrat, F., Goderel, I., Loubet, P., Lenzi, N., Valette, M., Foulongne, V., Krivine, A., Houhou, N., Lagathu, G., Rogez, S., Alain, S., Duval, X., Galtier, F., Postil, D., Tattevin, P., Vanhems, P., Lina, B., and Launay, O.

Published
2017
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44. [18F]FDG PET/CT predicts progression-free survival in patients with idiopathic pulmonary fibrosis

Author

Aurélien Justet, Astrid Laurent-Bellue, Gabriel Thabut, Arnaud Dieudonné, Marie-Pierre Debray, Raphael Borie, Michel Aubier, Rachida Lebtahi, and Bruno Crestani

Subjects
Pulmonary fibrosis, PET scan, Total lesion glycolysis, Prognosis, Diseases of the respiratory system, RC705-779
Abstract

Abstract Background Idiopathic pulmonary fibrosis (IPF) is a devastating disease characterized by an unpredictable course. Prognostic markers and disease activity markers are needed. The purpose of this single-center retrospective study was to evaluate the prognostic value of lung fluorodeoxyglucose ([18F]-FDG) uptake assessed by standardized uptake value (SUV), metabolic lung volume (MLV) and total lesion glycolysis (TLG) in patients with IPF. Methods We included 27 IPF patients (IPF group) and 15 patients with a gastrointestinal neuroendocrine tumor without thoracic involvement (control group). We quantified lung SUV mean and SUV max, MLV and TLG and assessed clinical data, high-resolution CT (HRCT) fibrosis and ground-glass score; lung function; gender, age, physiology (GAP) stage at inclusion and during follow-up; and survival. Results Lung SUV mean and SUV max were higher in IPF patients than controls (p

Published
2017
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45. Fibrotic Cocktail Treated Human Precision Lung Slices Replicate the Cellular Diversity of the IPF Lung

Author

Justet, A., primary, Pineda, R.H., additional, Adams, T., additional, Balayev, A., additional, Mitash, N., additional, Ishizuka, M., additional, Kim, H., additional, Cala Garcia, J.D., additional, Flint, J., additional, Schupp, J.C., additional, Ahangari, F., additional, Yan, X., additional, Rosas, I.O., additional, and Koenigshoff, M., additional

Published
2023
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47. Spatial Transcriptomic Analysis Allow the Identification of Abnormal Airway Niches in the Fibrotic Lung

Author

Justet, A., primary, Adams, T., additional, Balayev, A., additional, Baernthaler, T., additional, Poli, F., additional, Cala Garcia, J.D., additional, Mcdonough, J.E., additional, Flint, J., additional, Schupp, J.C., additional, Zhao, A.Y.-T., additional, Yunqing, L., additional, Ningshan, L., additional, Raredon, M.S.B., additional, Lepe, A., additional, Wang, A., additional, Abu Hussein, N., additional, Yan, X., additional, Rosas, I.O., additional, and Kaminski, N., additional

Published
2023
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