Bird fancier's lung serodiagnosis by automated r-IgLL1 ELISA

CONTEXT

Bird fancier's lung (BFL) is the most prevalent form of hypersensitivity pneumonitis (HP) worldwide. The current techniques used for the serological diagnosis of BFL all use crude extracts from feathers, droppings, and blooms as test antigens, which is associated with a lack of standardization and variability of the results. An antigenic protein, immunoglobulin lambda-like polypeptide-1 (IgLL1), isolated from pigeon droppings, was recently identified to be associated with BFL. We used genetic engineering to produce IgLL1 as a recombinant antigen.

AIM

We aimed to prospectively validate the use of an automated ELISA based on recombinant IgLL1 protein (r-IgLL1) as the test antigen for the serological diagnosis of BFL.

METHODS

Immunoprecipitation (IP) techniques (immunodiffusion (ID), immunoelectrophoresis (IEP)) and ELISA using r-IgLL1 were performed concomitantly over 10 months on 634 sera from patients with a BFL serodiagnosis request. Questionnaires were sent to obtain details on the avian exposure, clinical data, and final diagnosis. Concordance, sensitivity (Se), and specificity (Sp) of the two techniques were compared.

RESULTS

In total, 72 completed questionnaires were returned with 18 cases of BFL diagnosed and 54 of non-BFL. The concordance between the ELISA and ID+IEP precipitation techniques was 71%. The combination of immunoprecipitation techniques showed a Se of 78% and a Sp of 67%. The ELISA using r-IgLL1 showed a Se of 89% and a Sp of 91%. The automated r-IgLL1 ELISA test is sufficiently efficient to be used alone for the diagnosis of patients exposed solely to Columbidae. In cases of other avian exposure, the Se and Sp of the r-IgLL1 ELISA used for screening combined with the immunodiffusion test for confirmation were 89% and 93%, respectively.

CONCLUSIONS

The automated ELISA using r-IgLL1 is a promising tool for BFL serodiagnosis. Replacing immunodiffusion by the automated ELISA using r-IgLL1 as a screening technique will be the basis of our future strategy for BFL serodiagnosis.

Usefulness of bronchoalveolar lavage in a French pediatric cohort with hypersensitivity pneumonitis

BACKGROUND

Hypersensitivity pneumonitis (HP) is a rare interstitial lung disease in children, and very little data are available on the frequency, diagnosis, and outcomes of HP. In a pediatric cohort with HP, the characteristics of the CD4/CD8 lymphocyte ratio are often described as nonspecific.

METHODS

We used the National French Database (RespiRare) to collect data from the last decade on HP. The diagnosis of HP was defined by the presence of a relevant exposure, clinical symptoms, and compatible lung imaging radiology and was usually defined by positive precipitins antibodies.

RESULTS

A total of 16 children with a mean age of 10 years (4-13) presented with HP. All children presented with dyspnea on exertion. Diffuse ground-glass opacity was present in all computed tomography (CT) scans. Research guided by a questionnaire and precipitins antibodies against the corresponding antigens showed that patients were positive for contact with birds with or without fungi. Bronchoalveolar lavage (BAL) was performed in 12 children. The total cell counts were elevated in BAL fluid, with a mean value of 36% lymphocytes. The CD4/CD8 lymphocyte ratio was below one for all children.

CONCLUSION

BAL in our pediatric cohort with HP had the same characteristics as that of adults with HP. An HP diagnosis must be considered when dyspnea on exertion and diffuse ground-glass opacity are observed. Carrying out BAL and serological tests can help diagnose and avoid lung biopsy.

Hypersensitivity pneumonitis: A new strategy for serodiagnosis and environmental surveys

We propose a strategy for serodiagnosis of hypersensitivity pneumonitis (HP): 1) question patients about their private or occupational activity, or visit him on site; 2) select panels of six somatic specific antigens appropriate for each type of exposure; 3) and use ELISA to test concomitantly two recombinant antigens highly specific to Farmer's lung, Metalworking-fluid HP, and for Bird fancier's lung. The serodiagnosis provides an immunological argument that may complete radiological, functional lung exploration and clinical features; 4) If the serodiagnosis is negative but the suspicion of HP is strong, a microbial analysis of the patient's specific exposure is conducted; 5) "A la carte" antigens are produced from the microorganisms isolated in the patient's environment sample and tested; 6) Finally, the patient may be asked to undergo a specific inhalation challenge with the offending antigens in a safety cabin, or to avoid his usual environment for a few days.