Digital Modeling of Thoracic CT and Pulmonary Fibrosis (MLQ-CT)

Thoracic CT scanning has revolutionized the definition of interstitial lung diseases (ILDs), some of which inexorably progress to pulmonary fibrosis (e.g., progressive pulmonary fibrosis or PPF), leading to early death or lung transplantation. Over the past decade, various treatments have shown effectiveness in slowing this fibrotic progression, but it is still not possible to define which patients might personally benefit from these treatments and when to prescribe them. Two major questions remain:

Why do some patients develop fibrosis despite seemingly appropriate treatment? What are the mechanisms driving this fibrotic progression? Hence, there is a great need to define biomarkers to answer these questions, particularly in the early phase. For more than 5 years, within a consortium including Avicenne Hospital APHP 93000 Bobigny, INSERM Unit 1272 Sorbonne Paris North University, and two partner laboratories (Mines Telecom and Ecole Polytechnique-INRIA, both belonging to the Institut Polytechnique), we have been developing the applications of artificial intelligence (AI) to lung imaging, extracting static and dynamic data from thoracic CT scans to aid in the diagnosis and follow-up of patients without additional examinations beyond standard care. Our project's objective is to identify patients at risk of progressive and irreversible fibrosis and those who could respond to antifibrotic treatments, by developing the identification of qualitative and quantitative biomarkers from the numerical modeling of routine thoracic CT scans.

Our program, which has just been funded in 2023 by the National Research Agency (ANR 2023 MLQ-CT), aims to:

Develop a portfolio of software tools, whose use should be facilitated in the hospital sector based on research prototypes already built and tested in our consortium for several years.

Apply them to a set of interstitial lung diseases (ILDs) known to be at risk of fibrotic progression.

Transfer these tools to the radiology department of Avicenne Hospital APHP. Conduct real-time experimentation between two pulmonology departments, one at Avicenne Hospital APHP and the other at Caen University Hospital, and the radiology department of Avicenne Hospital APHP, to validate the feasibility of using such biomarkers.