Diana N. Ionescu

Characterization of airway plugging in fatal asthma

PURPOSE Case reports suggest that deaths due to asthma can occur without airway plugging. In this study, we examined the hypothesis that obstruction of the airway lumen by an exudate containing mucus and cells is a key feature of fatal asthma attacks. METHODS We quantified airway narrowing and lumenal content in 275 airways from 93 patients with fatal asthma aged 10 to 49 years (59 white subjects and 34 Polynesian subjects, including 19 children), compared with airways from control patients who died suddenly without pulmonary diseases. RESULTS The severity of lumenal occlusion ranged from 4% to 100% in these cases, but only five airways showed less than 20% occlusion. Compared with controls, patients with asthma had more lumenal occlusion (mean [+/- SD] open lumen, 42% +/- 23% vs. 93% +/- 8%), greater mucus occlusion (28% +/- 13% vs. 5% +/- 6%), and more occlusion by cells (30% +/- 17% vs. 3% +/- 2%, all P<0.0001). Airway narrowing was greater in larger airways (P<0.0001) and older patients (P = 0.009). Greater lumen content was associated with a higher proportion of cells (P = 0.003), and cells made up a higher proportion of the exudate in the small airways (P<0.0001). Lumenal mucus was greater in younger patients with asthma (P = 0.0007) and in Polynesian patients with asthma (P = 0.04). CONCLUSION Airway lumenal obstruction by an exudate composed of mucus and cells is a major contributing cause of fatal asthma in most patients.

Immunohistochemistry is a Reliable Screening Tool for Identification of ALK Rearrangement in Non–Small-Cell Lung Carcinoma and is Antibody Dependent

Introduction: Fluorescence in situ hybridization (FISH) is the standard procedure for the detection of anaplastic lymphoma receptor tyrosine kinase (ALK) rearrangement in non–small-cell lung carcinoma (NSCLC) but is expensive and time consuming. We tested three antibodies to ALK, using various detection systems, and hypothesized that ALK immunohistochemistry (IHC) may represent a cost-effective and efficient means of screening for ALK rearrangement in NSCLC. Methods: We screened 377 stage I or II NSCLC cases in a tissue microarray by FISH and IHC (5A4 [Leica Biosystems Newcastle Ltd, Newcastle upon Tyne, UYnited Kingdom] by Nichirei’s N-Histofine ALK detection kit [Nichirei Biosciences inc., Tokyo, Japan], 5A4 by Novocastra with ADVANCE [Dako Canada inc., Burlington, Ontario, Canada], D5F3 by Cell Signaling Technology with ADVANCE [Cell Signalling Technologies inc., Danvers, MA], and DAKO clone ALK1 with FLEX [Dako Canada inc., Burlington, Ontario, Canada] and ADVANCE). IHC was scored as 0, 1+, 2+, or 3+. Possibly positive or positive cases were further analyzed by IHC and FISH on whole section. Results: Tissue microarray results were available on 377 cases by IHC and 273 cases by FISH. Eleven cases were positive or possibly positive by either IHC or FISH, and three cases were positive or possibly positive by both methods. Three cases were ALK-positive by FISH on whole section validation. There was no correlation between semiquantitative IHC score (1+, 2+, 3+) and ALK rearrangement by FISH. D5F3 (Cell Signaling by ADVANCE) and 5A4 (Novocastra by ADVANCE) showed the greatest combination of sensitivity (100%) and specificity (87.5% for 5A4 by Novocastra and 75% for D5F3 by Cell Signaling), and produced no false-negative results. Conclusions: IHC is a reliable screening tool for identification of ALK rearrangement in NSCLC and is antibody dependent. D5F3 (Cell Signaling) and 5A4 (Novocastra) can be used with FISH for identification of IHC-positive cases to reduce screening costs.

Optimal Immunohistochemical Markers For Distinguishing Lung Adenocarcinomas From Squamous Cell Carcinomas in Small Tumor Samples

The histologic subtype of non-small cell lung carcinoma is important in selecting appropriate chemotherapy for patients with advanced disease. As many of these patients are not operative candidates, they are treated medically after biopsy for diagnosis. Inherent limitations of small biopsy samples can make distinguishing poorly differentiated lung adenocarcinoma (ADC) from squamous cell carcinoma (SCC) difficult. The value of histochemical and immunohistochemical markers to help separate poorly differentiated ADC from SCC in resection specimens is well established; however, the optimal use of markers in small tissue samples has only recently been examined and the correlation of marker expression in small tissue samples with histologic subtype determined on resection specimens has not been well documented. We address this issue by examining the expression of 9 markers (p63, TTF1, CK5/6, CK7, 34&bgr;E12, Napsin A, mucicarmine, NTRK1, and NTRK2) on 200 cases of ADC and 225 cases of SCC in tissue microarray format to mimic small tissue specimens. The single best marker to separate ADC from SCC is p63 (for SCC: sensitivity 84%, specificity 85%). Logistic regression analysis identifies p63, TTF1, CK5/6, CK7, Napsin A, and mucicarmine as the optimal panel to separate ADC from SCC. Reduction of the panel to p63, TTF1, CK5/6, and CK7 is marginally less effective but may be the best compromise when tissue is limited. We present an algorithm for the stepwise application of p63, TTF1, CK5/6, CK7, Napsin A, and mucicarmine in situations in which separation of ADC from SCC in small specimens cannot be accomplished by morphology alone.

Nonsmall cell lung carcinoma with neuroendocrine differentiation--an entity of no clinical or prognostic significance.

The existence of non-small cell lung carcinoma with neuroendocrine differentiation as a distinct entity and its relevance for prognostic and treatment purposes is controversial. This study assesses the frequency and biologic and prognostic significance of neuroendocrine (NE) expression of synaptophysin (SNP), chromogranin (Ch), and neural cell adhesion molecule (N-CAM) using tissue microarray (TMA) and immunohistochemistry. Six hundred nine nonsmall cell lung carcinomas (NSCLCs) were reviewed for subclassification. TMA blocks were made using duplicate 0.6-mm-diameter tissue cores and slides stained with SNP, Ch, and N-CAM. Immunoreactivity was considered if 1% or more of tumor cells were positive. Hematoxylin and eosin-stained sections were subclassified as: 243 adenocarcinoma (ACA), 272 squamous cell carcinoma (SCC), 35 large cell carcinoma, 32 non-small cell carcinoma NOS, and 6 other (carcinosarcoma, giant cell carcinoma). Positivity for either marker was identified in 13.6% of NSCLC (76/558). NSCLC showed reactivity for Ch in 0.4% of cases (2/524), for SNP in 7.5% of cases (39/521) and for N-CAM in 8.6% of cases (44/511), whereas only 0.2% of cases (1/517) showed coexpression of SNP and Ch and none of all 3 markers. The assessment of NE differentiation in NSCLC is unnecessary and expensive and is of no clinical or prognostic significance. SNP or N-CAM stains a small minority of NSCLC, whereas Ch immunoreactivity is less common. Positivity for any 2 NE markers is rare. SNP is more likely to be expressed in adenocarcinoma (P=0.01) and N-CAM in squamous-cell carcinoma (P=0.008). Otherwise there was no correlation between immunoreactivity and tumor morphology. Disease specific and overall survival is not influenced by NE differentiation and therefore non-small cell lung carcinoma with neuroendocrine differentiation should not be a subclass distinct from the other NSCLC.

A Systematic Review and Canadian Consensus Recommendations on the Use of Biomarkers in the Treatment of Non-small Cell Lung Cancer

Introduction: Greater understanding of molecular pathways important in cell growth and proliferation of thoracic malignancies, particularly non-small cell lung cancer (NSCLC), has resulted in intense clinical and translational research. There is now considerable interest in personalizing treatment based on an understanding of tumor histology and molecular abnormalities. However, there is a multiplicity of data, often with discordant results resulting in confusion and uncertainty among clinicians. Methods: We conducted a systematic review and a consensus meeting of Canadian lung cancer oncologists and pathologists to make recommendations on the use of biomarkers in NSCLC. PubMed covering 2005 to March 2010 was searched using MESH terms for NSCLC and randomized trials, plus text words for the biomarkers of interest. Conference proceedings from 2005 to 2009 ASCO, ESMO, IASLC, and USCAP were also searched. The articles were reviewed by pairs of oncologists and pathologists to determine eligibility for inclusion. Results: Ten oncologists and pathologists reviewed and summarized the literature at a meeting attended by 37 individuals. Draft recommendations were formulated and agreed upon by consensus process. There is some evidence that histology is prognostic for survival. There is evidence from multiple randomized clinical trials to recommend the following: histologic subtype is predictive of treatment efficacy and for some agents toxicity. Immunohistochemistry testing should be performed on NSCLC specimens that cannot be classified accurately with conventional H&E staining. As EGFR mutations are predictive of benefit from tyrosine kinase inhibitors, diagnostic NSCLC samples should be routinely tested for EGFR-activating mutations. Clinical data on K-RAS mutations are inconsistent, therefore testing is not recommended. There is insufficient evidence to recommend other biomarker testing. No biomarkers to date reliably predict improved efficacy for anti-VEGF therapy. Routine assessment for EML4/ALK mutations is not recommended at present, although emerging data suggest that it may become valuable in the near future. Conclusions: Assessment of NSCLC biomarkers is becoming increasingly important. Therefore, adequate diagnostic material must be obtained for accurate histologic subtyping and relevant molecular biology assays.

Pulmonary fibrosis in hermansky-pudlak syndrome : A case report and review

Hermansky-Pudlak syndrome (HPS) is a rare heterogeneously inherited autosomal recessive group of disorders presenting with oculocutaneous albinism, bleeding diathesis and pulmonary disease. HPS is thought to occur as a consequence of disturbed formation or trafficking of intracellular vesicles, most importantly, melanosomes, platelet dense granules and lysosomes. The latter finding, in particular, contributes much to the morbidity associated with the disease, as ceroid lipofuscin deposits in lysosomes affect many organ systems. This is especially problematic in the lungs where it is often associated with pulmonary fibrosis and premature death. Currently, there are 7 known HPS genes in humans. In the mouse, at least 16 known HPS genes produce HPS-mutant phenotypes. The HPS gene mutation is considered to be one of the most prevalent single-gene disorders in northwest Puerto Rico, home to the largest cohort of known patients. In HPS, interventions addressing the bleeding diathesis and pulmonary fibrosis are often disappointingly ineffectual. Pirfenidone, a novel compound with documented anti-inflammatory, antioxidant and antifibrotic effects, appears to hold promise in delaying or preventing fibrosis. To date, there has been one successful lung transplant performed on a patient with HPS. We present a patient with HPS and review the current literature on our understanding of this rare disorder.

Using laser Raman spectroscopy to reduce false positives of autofluorescence bronchoscopies: a pilot study.

Introduction: Preneoplastic lesions of the bronchial tree have a high probability of developing into malignant tumors. Currently, the best method for localizing them for further treatment is a combined white light bronchoscopy (WLB) and autofluorescence bronchoscopy (AFB) (WLB + AFB). The average specificity from large clinical trials for this combined detection method is approximately 60%, leading to many false positives. The object of this study is to determine whether adding point laser Raman spectroscopy (LRS) to a WLB + AFB has the potential to improve the specificity of preneoplastic lesion detection and what the implication is to the detection sensitivity. Methods: An LRS system was developed to collect real-time, in vivo lung spectra with a fiber optic catheter passed down the instrument channel of a bronchoscope. WLB + AFB imaging modalities were used to identify lesions from 26 subjects, from which 129 Raman spectra were measured. Multivariate statistical analyses were performed on the spectra with a leave-one-out crossvalidation. Results: Clear in vivo Raman spectra were obtained in 1 second. The location of individual Raman peaks in the spectra correlated well with the known positions of Raman peaks generated by lipids, proteins, and water molecules. Preneoplastic lesions were detected with a sensitivity of 96% and a specificity of 91%. Conclusion: Adding point LRS analysis to WLB + AFB imaging has the ability to detect preneoplastic lesions in real time with high sensitivity and specificity. The use of LRS has great potential for substantially reducing the number of false-positive biopsies associated with WLB + AFB with very little reduction in the detection sensitivity.

Patterns of allelic loss of synchronous adenocarcinomas of the lung

Distinction of multiple primary lung carcinomas from intrapulmonary metastases using empiric clinical and histopathologic criteria can be difficult. Recent advances have provided several molecular markers that can be used for clonal analysis of separate tumor nodules and enhance tumor staging and subsequent treatment and prognosis. To address this issue, we performed a microdissection-based allelotyping of 20 cases of histologically similar, pathologic stage T4 adenocarcinomas (ADCs). Loss of heterozygosity (LOH) analysis included a panel of 15 polymorphic microsatellite markers located on 1p, 3p, 5q, 9p, 9q, 10q, 17p, and 22q. The tumor size, visceral pleural and angiolymphatic invasion, lymph node status, outcome, and survival were assessed. Allelotypes of 60 cases of solitary primary non-small cell lung carcinomas (NSCLC) (stages I-II) were used to define the percentage of discordant LOH patterns within solitary primary lung carcinoma that would discriminate between survivors and nonsurvivors. These criteria were used in the analysis of pathologic stage T4 ADC. Two groups of stage T4 cases were created: molecularly homogenous (≤40% discordances) (14 cases, 70%), and molecularly heterogenous (>40% discordances) (6 cases, 30%). Molecularly homogenous tumors were more frequently associated with visceral pleural invasion (92% vs. 8%) (P = 0.018). Allelotype did not correlate with age, gender, tumor size, tumor differentiation, lymph node status, angiolymphatic invasion, survival, or outcome. Our study showed that discordant and concordant genotypic profiles exist in morphologically similar synchronous ADC of the lung.

Parvovirus B19 Infection in the Immunocompromised Host

Human parvovirus B19 is a single-stranded DNA virus with a predilection for infecting rapidly dividing cell lines, such as bone marrow erythroid progenitor cells. People with defective cell-mediated immunity (eg, severe combined immunodeficiency syndrome; acquired immunodeficiency syndrome; and patients receiving immunosuppressive therapy, ie, post organ transplant) can develop pure red cell aplasia, in which suppression of erythroid precursors is permanent. Identification of parvovirus inclusions in marrow biopsies and subsequent confirmation of infection by in situ hybridization is important in the assessment of anemia in immunodeficient patients. Our objective is to provide a general overview of the parvovirus B19 infection and its characteristics in immunocompromised patients and to summarize updated information regarding the clinicopathologic features, pathobiology, and laboratory diagnosis of this subject. The pathologist should be aware of the wide spectrum of manifestations of parvovirus B19 infection depending on the patients hematologic and immunologic status.

Pulmonary meningothelial-like nodules: a genotypic comparison with meningiomas.

Background: Minute pulmonary meningothelial-like nodules (MPMNs) are incidental interstitial pulmonary nodules. They share histologic, ultrastructural, and immunohistochemical features with meningiomas (MGs). Design: Sixteen cases yielding 33 separate MPMNs and 10 cases of benign MG were studied. Immunohistochemical studies and mutational analyses were performed on microdissected tissue using 20 polymorphic microsatellite markers targeting 11 genomic regions in an effort to identify genetic similarities of MPMN and MG. Results: A total of 96.6% of MPMNs stained positive for vimentin, 33.3% for epithelial membrane antigen, 3% for S-100, and all were negative for cytokeratin and synaptophysin. Loss of heterozygosity (LOH) was identified in 25% of single MPMN affecting 3 genomic loci. No solitary MPMN had more than 1 LOH event. Multiple LOHs were seen only in MPMN-omatosis syndrome, where 33.3% of MPMNs showed LOH affecting 7 genomic loci. MG showed the highest frequency of LOH with major events seen at 22q (60%), 14q (42.8%), and 1p (44.4%) that were not shared by MPMN. Conclusion: Isolated MPMN lacks mutational damage, consistent with a reactive origin. MPMN-omatosis syndrome might represent the transition between a reactive and neoplastic proliferation. MPMNs are different from MG based on the major molecular genetic events seen in their formation and progression.