Approche translationnelle du remodelage bronchique dans la broncho-pneumopathie chronique obstructive et l’asthme

Airway remodeling groups pathophysiological entities such as smooth musclehypertrophy in asthma or increase bronchial thickness due to infiltration of inflammatory cellsand fibrosis in COPD. These remodeling is correlated with the functional obstruction andtherefore with the severity of these diseases. The bronchial or lung biopsies analysis allowsto study this phenomenon which, after understanding, is an interesting therapeutic target.The first article is a review of indications of bronchoscopy in critically ill patients. The secondstudy showed an increase in blood fibrocytes during severe exacerbation of COPD patientand a correlation between their rate and the risk of patient death. CXCR4 signaling pathwayseems to be involved in the fibrocyte recruitment. The third study seeks to explore thelocation and characteristics of intra-pulmonary fibrocytes in stable COPD patients. The fourthstudy has shown, in vivo, that gallopamil, a calcium channel blocker, could reduce airwaysmooth muscle size in severe asthmatic patient by targeting mitochondrial biogenesis. Thiscould make it an interesting therapeutic weapon and totally innovative. The last study hasisolated a non-severe asthma phenotype with "increased bronchial smooth muscle," whichpresents an increased risk of exacerbation and a suboptimal control of their asthma. Themitochondria appear to play a key role as in severe asthma.Le remodelage bronchique regroupe des entités physiopaphologiques commel’hypertrophie musculaire lisse dans l’asthme ou l’augmentation d’épaisseur bronchique surl’infiltration de cellules inflammatoires et l’accumulation de fibrose dans la BPCO. Cesremodelages sont corrélés à l’obstruction fonctionnelle et donc à la sévèrité de ces maladies.L’analyse de biopsies bronchique ou pulmonaire permet d’étudier ce phénoméne qui, aprèsune meilleure compréhension, est une cible thérapeutique intérressante. Le premier articleest une revue d’indications de bronchoscopie chez les patients de réanimation. La deuxièmeétude a montré une augmentation des fibrocytes sanguins au cours d’exacerbation sévèrede patient BPCO et une corrélation entre leur taux et le risque de décès du patient. La voiede signalisation du CXCR4 semble impliquée dans ce recrutement. La troisième étudecherche à explorer la localisation et les caractéristiques intra-pulmonaires des fibrocyteschez le patient BPCO à l’état stable. La quatrième étude a montré, in vivo, que le gallopamil,un inhibiteur calcique, pouvait diminuer la taille de muscle lisse bronchique de patientasthmatique sévère en ciblant la biogenèse mitochondriale. Ceci pourrait en faire une armethérapeutique interressante et totalement novatrice. La dernière étude a permis d’isoler unphénotype de patient asthmatique non sévère à « muscle lisse bronchique augmenté » quiprésente un risque accru d’exacerbation et de contrôle non optimal de leur asthme. Lesmitochondries semblent jouer un rôle clé comme dans l’asthme sévère

Translational approach of airway remodeling in asthma and chronic obstructive pulmonary disease

Le remodelage bronchique regroupe des entités physiopaphologiques commel’hypertrophie musculaire lisse dans l’asthme ou l’augmentation d’épaisseur bronchique surl’infiltration de cellules inflammatoires et l’accumulation de fibrose dans la BPCO. Cesremodelages sont corrélés à l’obstruction fonctionnelle et donc à la sévèrité de ces maladies.L’analyse de biopsies bronchique ou pulmonaire permet d’étudier ce phénoméne qui, aprèsune meilleure compréhension, est une cible thérapeutique intérressante. Le premier articleest une revue d’indications de bronchoscopie chez les patients de réanimation. La deuxièmeétude a montré une augmentation des fibrocytes sanguins au cours d’exacerbation sévèrede patient BPCO et une corrélation entre leur taux et le risque de décès du patient. La voiede signalisation du CXCR4 semble impliquée dans ce recrutement. La troisième étudecherche à explorer la localisation et les caractéristiques intra-pulmonaires des fibrocyteschez le patient BPCO à l’état stable. La quatrième étude a montré, in vivo, que le gallopamil,un inhibiteur calcique, pouvait diminuer la taille de muscle lisse bronchique de patientasthmatique sévère en ciblant la biogenèse mitochondriale. Ceci pourrait en faire une armethérapeutique interressante et totalement novatrice. La dernière étude a permis d’isoler unphénotype de patient asthmatique non sévère à « muscle lisse bronchique augmenté » quiprésente un risque accru d’exacerbation et de contrôle non optimal de leur asthme. Lesmitochondries semblent jouer un rôle clé comme dans l’asthme sévère.Airway remodeling groups pathophysiological entities such as smooth musclehypertrophy in asthma or increase bronchial thickness due to infiltration of inflammatory cellsand fibrosis in COPD. These remodeling is correlated with the functional obstruction andtherefore with the severity of these diseases. The bronchial or lung biopsies analysis allowsto study this phenomenon which, after understanding, is an interesting therapeutic target.The first article is a review of indications of bronchoscopy in critically ill patients. The secondstudy showed an increase in blood fibrocytes during severe exacerbation of COPD patientand a correlation between their rate and the risk of patient death. CXCR4 signaling pathwayseems to be involved in the fibrocyte recruitment. The third study seeks to explore thelocation and characteristics of intra-pulmonary fibrocytes in stable COPD patients. The fourthstudy has shown, in vivo, that gallopamil, a calcium channel blocker, could reduce airwaysmooth muscle size in severe asthmatic patient by targeting mitochondrial biogenesis. Thiscould make it an interesting therapeutic weapon and totally innovative. The last study hasisolated a non-severe asthma phenotype with "increased bronchial smooth muscle," whichpresents an increased risk of exacerbation and a suboptimal control of their asthma. Themitochondria appear to play a key role as in severe asthma

Morbi-mortalité des patients opérés d'oesophagectomie pour cancer

BORDEAUX2-BU Santé (330632101) / SudocPARIS-BIUM (751062103) / SudocSudocFranceF

Mediastinal lymph node silicotic nodules and occupational exposure to respirable crystalline silica. A controlled study in patients with lung cancer.

International audienc

Fibrocyte accumulation in the airway walls of COPD patients

International audienceThe remodelling mechanism and cellular players causing persistent airflow limitation in COPD remain largely elusive. We have recently demonstrated that circulating fibrocytes, a rare population of fibroblast-like cells produced by the bone marrow stroma, are increased in COPD patients during an exacerbation. We aimed to quantify fibrocyte density in situ in bronchial specimens from both control subjects and COPD patients, to define associations with relevant clinical, functional and computed tomography (CT) parameters, and to investigate the effect of the epithelial microenvironment on fibrocyte survival in vitro (“Fibrochir” study). A total of 17 COPD patients and 25 control subjects, all requiring thoracic surgery, were recruited. Using co-immunostaining and image analysis, we identified CD45 + FSP1 + cells as tissue fibrocytes, and quantified their density in distal and proximal bronchial specimens. Fibrocytes, cultured from the blood samples of six COPD patients, were exposed to primary bronchial epithelial cell secretions from control subjects or COPD patients. We demonstrate that fibrocytes are increased in both distal and proximal tissue specimens of COPD patients. The density of fibrocytes is negatively correlated with lung function parameters and positively correlated with bronchial wall thickness as assessed by CT scan. A high density of distal bronchial fibrocytes predicts the presence of COPD with a sensitivity of 83% and a specificity of 70%. Exposure of fibrocytes to COPD epithelial cell supernatant favours cell survival. Our results thus demonstrate an increased density of fibrocytes within the bronchi of COPD patients, which may be promoted by epithelial-derived survival-mediating factors

Tumor‐proximal liquid biopsy to improve diagnostic and prognostic performances of circulating tumor cells

International audienceCirculating tumor cell (CTC) detection and numeration are becoming part of the common clinical practice, especially for breast, colon, and prostate cancer. However, their paucity in peripheral blood samples is an obstacle for their identification. Several groups have tried to improve CTC recovery rate by developing highly sensitive cellular and molecular detection methods. However, CTCs are still difficult to detect in peripheral blood. Therefore, their recovery rate could be increased by obtaining blood samples from vessels close to the drainage territories of the invaded organ, when the anatomical situation is favorable. This approach has been tested mostly during tumor resection surgery, when the vessels nearest to the tumor are easily accessible. Moreover, radiological (including echo-guided based and endovascular techniques) and/or endoscopic routes could be utilized to obtain CTC samples close to the tumor in a less invasive way than conventional biopsies. The purpose of this article is to summarize the available knowledge on CTC recovery from blood samples collected close to the tumor (i.e., in vessels located in the drainage area of the primary tumor or metastases). The relevance of such an approach for diagnostic and prognostic evaluations will be discussed, particularly for pancreatic ductal adenocarcinoma, colorectal adenocarcinoma, hepatocellular carcinoma, and non-small-cell lung cancer

Eur J Cardiothorac Surg

BACKGROUND: Lung transplantation is the final treatment option for end-stage lung disease. In this study, we evaluated the individual risk of 1-year mortality at each stage of the lung transplantation process. METHODS: This was a retrospective analysis of patients undergoing bilateral lung transplantation between January 2014 and December 2019 in three French academic centers. Patients were randomly divided into development and validation cohorts. Three multivariable logistic regression models of 1-year mortality were applied (A) at recipient registration, (B) the graft allocation, and (C) after surgery. The 1-year mortality was predicted for individual patients assigned to three risk groups at time points A-C. RESULTS: The study population consisted of 478 patients with a mean (SD) age of 49.0 (14.3) years. The 1-year mortality rate was 23.0%. There were no significant differences in patient characteristics between the development (n = 319) and validation (n = 159) cohorts. The models analyzed recipient, donor, and intraoperative variables. The discriminatory power (area under the receiver operating characteristic curve) was 0.67 (0.62-0.73), 0.70 (0.63-0.77), and 0.82 (0.77-0.88), respectively, in the development cohort, 0.74 (0.64-0.85), 0.76 (0.66-0.86) and 0.87 (0.79 - 0.95), respectively, in the validation cohort. Survival rates were significantly different among the low- ( 45%) groups in both cohorts. CONCLUSIONS: Risk prediction models allow estimation of the 1-year mortality risk of individual patients during the lung transplantation process. These models may help caregivers identify high-risk patients at times A-C, and reduce the risk at subsequent time-points