Antifungal therapy for chronic rhinosinusitis: the controversy persists.

PURPOSE OF REVIEW: Chronic rhinosinusitis is a debilitating disease seen frequently by allergist-immunologists. Recent research examining the pathophysiological mechanisms and treatment options for chronic rhinosinusitis have yielded contradicting results, particularly in regard to the role of fungi and antifungal therapies. RECENT FINDINGS: Recent studies using antifungal therapies for chronic rhinosinusitis will be critically evaluated with careful attention to sample selection, length of the intervention, drug delivery system, drug stability and handling, assessment of compliance to study medications, and choice of outcome measures with attention to study power (both primary and secondary). Using this framework to evaluate currently available studies reveals limitations in studies showing a benefit for antifungal therapy and in studies showing no benefit (or harm). SUMMARY: Limitations in studies that either support or refute the benefit of antifungal therapy for chronic rhinosinusitis prevent any firm conclusions about its efficacy.

Major basic protein homolog (MBP2): a specific human eosinophil marker.

Human eosinophil granule major basic protein (MBP1) is an exceedingly basic (isoelectric point >11) 14-kDa protein, comprising the core of the secondary eosinophil granule. Recently, a less cationic homolog of MBP, termed MBPH or simply, MBP2, has been discovered. We prepared a panel of mAbs to MBP2 and used these Abs to localize and quantitate this molecule in leukocytes and biological fluids. Specific mAbs for MBP2 were selected using slot-blot analyses and used in a two-site immunoassay, Western blotting, and immunofluorescence microscopy. The sensitivity of the immunoassay was markedly improved by reduction and alkylation of MBP2. MBP1 is more abundant than MBP2 in lysates of eosinophils and their granules, as judged by immunoassay and Western blotting. By immunofluorescence, MBP1 is present in eosinophils, basophils, and a human mast cell line (HMC1), whereas MBP2 is only detected in eosinophils. Neither MBP1 nor MBP2 could be detected in any other peripheral blood leukocyte. MBP2 levels measured in plasma and serum were essentially identical. In contrast to past measurements for MBP1, MBP2 was not detected above normal levels in sera from pregnant donors. However, measurement of serum MBP2 discriminated patients with elevated eosinophils from normal subjects, and MBP2 was also detectable in other biological specimens, such as bronchoalveolar lavage, sputum, and stool. These results indicate that MBP2 is present only in eosinophils and that it may be a useful biomarker for eosinophil-associated diseases.

The role of ubiquitous airborne fungi in chronic rhinosinusitis.

Chronic rhinosinusitis (CRS) is a confusing disease for both allergists and otorhinolaryngologists, partly because of its poorly understood pathophysiology and partly because of its limited treatment options. Several recent reports have provided evidence for a better understanding of the etiology and the relationship of CRS to airborne fungi-especially to Alternaria. First, the development of novel methods enables detection of certain fungi in mucus from the nasal and paranasal sinus cavities. Second, a non-IgE-mediated immunological mechanism for reactivity of patients with CRS to certain common fungi has been described. Third, these fungi are surrounded by eosinophils in vivo, suggesting that they are targeted by eosinophils. Finally, the preliminary results of studies using antifungal agents to treat patients with CRS are promising. Overall, these recent discoveries provide a logical mechanism for the pathophysiology of CRS, and they also suggest promising avenues for treatment of CRS with antifungal agents.

The role of ubiquitous airborne fungi in chronic rhinosinusitis.

Chronic rhinosinusitis (CRS) is a confusing disease for both allergists and otorhinolaryngologists, partially due to its poorly understood pathophysiology and partially due to its limited treatment options. Several recent reports now provide evidence for a better understanding of the etiology and the relationship of CRS to airborne fungi, especially to Alternaria. First, the development of novel methods enables detection of certain fungi in mucus from the nasal and paranasal sinus cavities. Second, a non-immunoglobulin E-mediated immunologic mechanism for reactivity of CRS patients to certain common fungi has been described. Third, these fungi are surrounded by eosinophils in vivo, suggesting that they are targeted by eosinophils. Fourth, the preliminary results of studies using antifungal agents to treat patients with CRS are promising. Overall, these recent discoveries provide a logical mechanism for the pathophysiology of CRS, and they also suggest promising avenues for treatment of CRS with antifungal agents.

Striking deposition of toxic eosinophil major basic protein in mucus: implications for chronic rhinosinusitis.

BACKGROUND: The mechanisms by which eosinophilic inflammation damages the epithelium and contributes to recurrent acute exacerbations in chronic rhinosinusitis (CRS) have not been fully elucidated. OBJECTIVE: We tested the hypotheses that eosinophils deposit toxic major basic protein (MBP) in the mucus and that MBP reaches concentrations able to damage the sinonasal epithelium. METHODS: Tissue specimens with mucus attached to the tissue were carefully collected from 22 patients with CRS and examined by using immunofluorescence staining for MBP. This immunofluorescence was digitally analyzed to determine the area covered by MBP and the intensity of the staining (estimating MBP concentration). Levels of MBP in extracts from nasal mucus were quantitated by means of RIA. RESULTS: Heterogeneous eosinophilia was evident within tissue and mucus specimens. All tissue specimens showed intact eosinophils, but diffuse extracellular MBP deposition, as a marker of eosinophil degranulation, was rare. In contrast, all mucus specimens showed diffuse MBP throughout and abundant diffuse extracellular MBP deposition within clusters of eosinophils. Digitized analyses of MBP immunofluorescence revealed increased area coverage (P < .0001) in mucus compared with that seen in tissue. Estimated concentrations of MBP within the clusters suggested toxic levels. MBP concentrations in mucus extract reached 11.7 microg/mL; MBP was not detectable in healthy control subjects. CONCLUSION: In patients with CRS, eosinophils form clusters in the mucus where they release MBP, which is diffusely deposited on the epithelium, a process not observed in the tissue. Estimated MBP levels far exceed those needed to damage epithelium from the luminal side and could predispose patients with CRS to secondary bacterial infections.