e-learning
resources
Amsterdam 2011
Tuesday, 27.09.2011
Novel mechanisms in lung injury
Login
Search all ERS
e-learning
resources
Disease Areas
Airways Diseases
Interstitial Lung Diseases
Respiratory Critical Care
Respiratory Infections
Paediatric Respiratory Diseases
Pulmonary Vascular Diseases
Sleep and Breathing Disorders
Thoracic Oncology
Events
International Congress
Courses
Webinars
Conferences
Research Seminars
Journal Clubs
Publications
Breathe
Monograph
ERJ
ERJ Open Research
ERR
European Lung White Book
Handbook Series
Guidelines
All ERS guidelines
e-learning
CME Online
Case reports
Short Videos
SpirXpert
Procedure Videos
CME tests
Reference Database of Respiratory Sounds
Radiology Image Challenge
Brief tobacco interventions
EU Projects
VALUE-Dx
ERN-LUNG
ECRAID
UNITE4TB
Disease Areas
Events
Publications
Guidelines
e-learning
EU Projects
Login
Search
Time course analysis of lung function and morphometric parameters in a murine model of emphysema
C. Olivo, B. Scarpa, F. Almeida, P. Arantes, F. Lopes, M. Martins (Sao Paulo, Brazil)
Source:
Annual Congress 2011 - Novel mechanisms in lung injury
Session:
Novel mechanisms in lung injury
Session type:
Thematic Poster Session
Number:
3904
Disease area:
Airway diseases
Rating:
You must
login
to grade this presentation.
Share or cite this content
Citations should be made in the following way:
C. Olivo, B. Scarpa, F. Almeida, P. Arantes, F. Lopes, M. Martins (Sao Paulo, Brazil). Time course analysis of lung function and morphometric parameters in a murine model of emphysema. Eur Respir J 2011; 38: Suppl. 55, 3904
You must
login
to share this Presentation/Article on Twitter, Facebook, LinkedIn or by email.
Member's Comments
No comment yet.
You must
Login
to comment this presentation.
Related content which might interest you:
Panel discussion on ERS Statement – A core outcome set for clinical trials evaluating the management of COPD exacerbations
ERS statement: a core outcome set for clinical trials evaluating the management of COPD exacerbations
Evidence-based eHealth for COPD
Related content which might interest you:
Quantitation of hydroxyproline in a mouse model of bleomycin-induced lung fibrosis: comparison with histological analysis
Source: International Congress 2019 – New mechanistic insights into pulmonary fibrosis
Year: 2019
Changes in lung function in a rat model of mild emphysema
Source: Annual Congress 2009 - Experimental approaches in animals and modelling in humans
Year: 2009
Pulmonary mechanics in a mouse model of emphysema: in vivo and in vitro evaluation
Source: Annual Congress 2008 - Inflammatory trigger mechanisms in asthma and COPD
Year: 2008
Time course of lung parenchyma remodelling in different models of extrapulmonary acute lung injury
Source: Annual Congress 2008 - Animal models of pulmonary fibrosis: mechanisms and therapies
Year: 2008
Comparative analysis of collagen quantification in the bleomycin mouse model of lung fibrosis
Source: Virtual Congress 2020 – Diagnostic and prognostic markers for disease-associated interstitial lung disease and hypersensitivity pneumonitis
Year: 2020
Comparison of physiologically and mathematically variable ventilations in a model of acute lung injury
Source: International Congress 2017 – Respiratory and exercise physiology
Year: 2017
Evolution of biomechanical changes in a murine model of bleomycin-induced lung fibrosis: inflammation
versus
fibrosis
Source: Eur Respir J 2006; 28: Suppl. 50, 396s
Year: 2006
Effect of Nintedanib in a rat model of bleomycin-induced lung fibrosis: a transcriptome analysis
Source: Virtual Congress 2021 – Developments in biomarkers and treatment strategies for chronic lung diseases
Year: 2021
Evaluation of lung mechanics on acute allograft rejection in a rat single lung transplant model using forced oscillation technique (FOT)
Source: Annual Congress 2009 - Lung transplantation: pre- and postoperative problems
Year: 2009
Time course of thoracocentesis-induced alterations in lung function parameters
Source: International Congress 2014 – Lung function testing: new findings and new approaches
Year: 2014
Comparison of regression models for developing spirometric reference values
Source: International Congress 2016 – Functional assessment of the airways
Year: 2016
Automated histological image analysis for the assessment of bleomycin-induced pulmonary fibrosis in rodents
Source: International Congress 2019 – New mechanistic insights into pulmonary fibrosis
Year: 2019
Simultaneous analysis of clinical markers for predicting increased lung function fluctability in stable asthma
Source: Annual Congress 2012 - Clinical aspects and treatment of asthma and allergic respiratory diseases
Year: 2012
Regional distribution of lung inflammation in a multiple-hit model of ARDS assessed by micro-PET-CT imaging in juvenile rabbits
Source: International Congress 2019 – Imaging in respiratory disease: novel technologies in 2019
Year: 2019
Correlation of Nintedanib efficacy on fibrotic lesion deposition and lung function within a rat IPF model
Source: International Congress 2017 – Lung fibrosis: basic science
Year: 2017
Quantitative CT analysis of interstitial lung disease using three-dimensional intensity surface curvature analysis method
Source: Annual Congress 2004 - Recent advances in modern chest imaging and their implications on various clinical problems
Year: 2004
One lung ventilation: use of the impulse oscillation system to assess lung function in an animal model
Source: Annual Congress 2008 - Assessment of the respiratory system
Year: 2008
Acute exposure to mechanical forces deteriorates lung structure and function in a mouse model of emphysema
Source: Annual Congress 2011 - Physiological basis of respiratory disease
Year: 2011
The lung parenchyma in COPD patients:
in vitro
mechanics and its correlation with inflammatory and structural changes
Source: Annual Congress 2007 - Respiratory pathophysiology
Year: 2007
Progress in modelling acute lung injury in a pre-clinical mouse model
Source: Eur Respir J 2012; 39: 1062-1063
Year: 2012
We use cookies on our website to give you the most relevant experience by remembering your preferences and repeat visits. By clicking "Accept", you consent to the use of the cookies.
Accept