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Rule of Carbone Monoxyde in the Ex Vivo Lung Perfusion Reconditionning

NCT02032082 · Status: UNKNOWN · Phase: NA · Type: INTERVENTIONAL · Enrollment: 40

Last updated 2016-03-15

No results posted yet for this study

Summary

Ex vivo lung perfusion (EVLP) is not a new concept and has been widely used to study lung function in small animals. It also has been shown to be a useful technique to evaluate lungs from donation after cardiac death (DCD) (Yeung, Thorac Surg Clin, 2009). It has been recently demonstrated successful application of an acellular EVLP technique in optimalizing lung function ex vivo for an extended period of time. Following 12 h of normothermic EVLP, patients were transplanted and demonstrated immediate life-sustaining function with promising short-term evolution (Aigner, Am J Transplant, 2012; Sanchez, J Heart Lung Transplant, 2012; Cypel, N Engl J Med, 2011).

Lung donation obtained after carbon monoxide intoxication has been recognized as excellent organs because of less general inflammation and less primary graft dysfunction after procedure. In a murine model of brain dead, carbon monoxide inhalation at a low concentration (50 to 500 parts per million (ppm)) exerts significant cytoprotection in several lung injury models via its vasodilatation, anti-inflammatory, and anti-apoptotic properties (Dong, J Heart Lung transplant, 2010). The carbon monoxide inhalation down-regulates pro-inflammatory cytokines (TNF-alpha, IL-6) along with the increase of anti-inflammatory cytokine (IL-10) in recipient serum. The inhalation significantly decreases cell apoptosis in lung grafts, inhibiting mRNA and protein expression of intercellular adhesion molecule-1 (ICAM-1) and caspase-3 in lung grafts (Zhou, Chin Med J, 2008).

Apoptotis and inflammatory processes may, in part, concern alveolar tissue. Research in the field of biomarkers is now opening new perspectives with the development of non-invasive tests allowing for monitoring inflammation and damage in the deep lung. Blood tests (Bernard, Toxicol Appl Pharmacol, 2005) measuring lung-specific proteins (pneumoproteins) such as Clara cell protein (CC16) and surfactant-associated proteins (A, B or D) are now available to evaluate the permeability and/or the cellular integrity of the pulmonary epithelium. These dosages may constitute an interesting way for monitoring the quality of the lung before implantation.

Conditions

  • Neurogenic Lung Edema

Interventions

OTHER

Carbone monoxide

Sponsors & Collaborators

  • University Hospital of Mont-Godinne

    lead OTHER

Study Design

Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
DOUBLE
Model
SINGLE_GROUP

Eligibility

Min Age
5 Years
Max Age
65 Years
Sex
ALL
Healthy Volunteers
No

Timeline & Regulatory

Start
2014-01-31
Primary Completion
2018-01-31
Completion
2018-01-31

Countries

  • Belgium

Study Locations

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Read the full study record

This page highlights key information. For complete eligibility criteria, study locations, investigator contacts, and the full protocol, visit the original record on ClinicalTrials.gov.

View NCT02032082 on ClinicalTrials.gov