- ICH GCP
- Registre américain des essais cliniques
- Essai clinique NCT00281203
Comparison of Alveolar Macrophages in Healthy Individuals Versus Individuals With COPD
Innate and Adaptive Immunity in COPD Exacerbations: Bronchoscopies on Healthy Volunteers
Aperçu de l'étude
Statut
Intervention / Traitement
Description détaillée
BACKGROUND:
COPD is one of the most pressing healthcare problems facing our nation. Acute exacerbations of COPD (AE-COPD) are responsible for the bulk of healthcare costs, and much of the morbidity and decline in health status among individuals with this common disease. The lack of accepted animal models of AE-COPD necessitates novel approaches using human samples. Advances in the understanding of the pathogenesis have been slowed, in part, due to controversy as to how exacerbations should be defined. The prevailing paradigm has defined AE-COPD as event-based. Such definitions clearly identify groups of patients with accelerated loss of pulmonary function and increased mortality. However, limited data show that symptom-based definitions of AE-COPD also capture episodes inducing significant morbidity and functional decline, and hence of concern to patients. Fundamental mechanisms are lacking to explain AE-COPD defined by either means.
Controversy also surrounds triggers of AE-COPD. Bacteria and viruses are involved in some episodes, but the relative importance of each is intertwined with disputes over the definition of AE-COPD. Progress at linking specific pathogens to molecular pathogenesis has been slow, both due to their diversity, and to the high rates of bacterial colonization of patients with COPD, even in the stable state. Moreover, in many AE-COPD cases, no pathogen can be identified. Without negating the value of analyzing infections with specific species of pathogens, it appears that progress in molecular pathogenesis could be accelerated by focusing on unifying features of the pulmonary immune response during AE-COPD.
DESIGN NARRATIVE:
Bronchoscopies will be performed on healthy volunteers. Subjects are reimbursed $30 for the initial visit and $150 at completion of the bronchoscopy to help defray travel expenses and for the time spent participating as a volunteer.
Type d'étude
Inscription (Réel)
Contacts et emplacements
Lieux d'étude
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Michigan
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Ann Arbor, Michigan, États-Unis, 48105
- University of Michigan at Ann Arbor
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Critères de participation
Critère d'éligibilité
Âges éligibles pour étudier
Accepte les volontaires sains
Sexes éligibles pour l'étude
Méthode d'échantillonnage
Population étudiée
La description
Inclusion criteria:
- Healthy individuals with normal pulmonary function as defined by AmericanThoracic Society criteria (entry spirometry)
Exclusion criteria:
- Unstable cardiovascular disease
- Other systemic disease in which survival of more than 2 years is unlikely
- Mental incompetence or active psychiatric illness
- Currently taking more than 20 mg/day of Prednisone
- Participation in another experimental protocol within 6 weeks of study entry
- Asthma
- Cystic fibrosis
- Clinically significant bronchiectasis
- Lung cancer
- Other inflammatory or fibrotic lung disease
Plan d'étude
Comment l'étude est-elle conçue ?
Détails de conception
Cohortes et interventions
Groupe / Cohorte |
Intervention / Traitement |
---|---|
healthy smokers
Must be free of serious diseases that might make it dangerous to undergo bronchoscopy.
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blood will be drawn on the entry visit and will starting the intravenous (IV) line on the day of bronchoscopy
A flexible instrument will be passed through the mouth and into the lungs.
Portions of the lungs will be washed, by injecting and immediately suctioning out a small amount of fluid.
The entire return will be used for research purposes, and no results will be reported to the participant.
Bronchoscopy is performed once.
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Que mesure l'étude ?
Principaux critères de jugement
Mesure des résultats |
Délai |
---|---|
alveolar macrophage functions in vitro
Délai: day of bronchoscopy
|
day of bronchoscopy
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Collaborateurs et enquêteurs
Parrainer
Collaborateurs
Publications et liens utiles
Publications générales
- Erb-Downward JR, Thompson DL, Han MK, Freeman CM, McCloskey L, Schmidt LA, Young VB, Toews GB, Curtis JL, Sundaram B, Martinez FJ, Huffnagle GB. Analysis of the lung microbiome in the "healthy" smoker and in COPD. PLoS One. 2011 Feb 22;6(2):e16384. doi: 10.1371/journal.pone.0016384.
- Freeman CM, Curtis JL, Chensue SW. CC chemokine receptor 5 and CXC chemokine receptor 6 expression by lung CD8+ cells correlates with chronic obstructive pulmonary disease severity. Am J Pathol. 2007 Sep;171(3):767-76. doi: 10.2353/ajpath.2007.061177. Epub 2007 Jul 19.
- Curtis JL, Freeman CM, Hogg JC. The immunopathogenesis of chronic obstructive pulmonary disease: insights from recent research. Proc Am Thorac Soc. 2007 Oct 1;4(7):512-21. doi: 10.1513/pats.200701-002FM.
- Todt JC, Freeman CM, Brown JP, Sonstein J, Ames TM, McCubbrey AL, Martinez FJ, Chensue SW, Beck JM, Curtis JL. Smoking decreases the response of human lung macrophages to double-stranded RNA by reducing TLR3 expression. Respir Res. 2013 Mar 9;14(1):33. doi: 10.1186/1465-9921-14-33.
- Freeman CM, Martinez FJ, Han MK, Ames TM, Chensue SW, Todt JC, Arenberg DA, Meldrum CA, Getty C, McCloskey L, Curtis JL. Lung dendritic cell expression of maturation molecules increases with worsening chronic obstructive pulmonary disease. Am J Respir Crit Care Med. 2009 Dec 15;180(12):1179-88. doi: 10.1164/rccm.200904-0552OC. Epub 2009 Sep 3.
- Freeman CM, Han MK, Martinez FJ, Murray S, Liu LX, Chensue SW, Polak TJ, Sonstein J, Todt JC, Ames TM, Arenberg DA, Meldrum CA, Getty C, McCloskey L, Curtis JL. Cytotoxic potential of lung CD8(+) T cells increases with chronic obstructive pulmonary disease severity and with in vitro stimulation by IL-18 or IL-15. J Immunol. 2010 Jun 1;184(11):6504-13. doi: 10.4049/jimmunol.1000006. Epub 2010 Apr 28.
- Han MK, Agusti A, Calverley PM, Celli BR, Criner G, Curtis JL, Fabbri LM, Goldin JG, Jones PW, Macnee W, Make BJ, Rabe KF, Rennard SI, Sciurba FC, Silverman EK, Vestbo J, Washko GR, Wouters EF, Martinez FJ. Chronic obstructive pulmonary disease phenotypes: the future of COPD. Am J Respir Crit Care Med. 2010 Sep 1;182(5):598-604. doi: 10.1164/rccm.200912-1843CC. Epub 2010 Jun 3.
- Curtis JL, Todt JC, Hu B, Osterholzer JJ, Freeman CM. Tyro3 receptor tyrosine kinases in the heterogeneity of apoptotic cell uptake. Front Biosci (Landmark Ed). 2009 Jan 1;14(7):2631-46. doi: 10.2741/3401.
- Punturieri A, Copper P, Polak T, Christensen PJ, Curtis JL. Conserved nontypeable Haemophilus influenzae-derived TLR2-binding lipopeptides synergize with IFN-beta to increase cytokine production by resident murine and human alveolar macrophages. J Immunol. 2006 Jul 1;177(1):673-80. doi: 10.4049/jimmunol.177.1.673.
Dates d'enregistrement des études
Dates principales de l'étude
Début de l'étude
Achèvement primaire (Réel)
Achèvement de l'étude (Réel)
Dates d'inscription aux études
Première soumission
Première soumission répondant aux critères de contrôle qualité
Première publication (Estimation)
Mises à jour des dossiers d'étude
Dernière mise à jour publiée (Estimation)
Dernière mise à jour soumise répondant aux critères de contrôle qualité
Dernière vérification
Plus d'information
Termes liés à cette étude
Termes MeSH pertinents supplémentaires
Autres numéros d'identification d'étude
- 1327
- R01HL082480 (Subvention/contrat des NIH des États-Unis)
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