Evaluation of Risk Factors for Invasive Pulmonary Aspergillosis and Detection of Diagnostic Values of Galactomannan and PCR Methods in Bronchoalveolar Lavage Samples From Non-Neutropenic Intensive Care Unit Patients

Özger, Selçuk; Hızel, Kenan; Kalkancı, Ayşe; Aydoğdu, Müge; Civil, Füsun; Dizbay, Murat; Gürsel, Gül

doi:10.5578/mb.9906

Cited by 7 publications

(5 citation statements)

References 24 publications

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“…By ROC curve analysis, we found that the optimal cutoff value for BALF GM detection was 0.70, at which level the sensitivity and specificity of the test were 72.97% and 89.16%, respectively. Other studies in which ROC curve analysis was applied have reported optimal BALF GM cutoff values ranging from 0.5 to 1.18 in nonneutropenic patients with pulmonary aspergillosis (16)(17)(18)(19). Among these studies, one reported the same optimal cutoff value of 0.7 as our study (19), while another found that the optimal cutoff value was 0.8 (16), which was higher than that of our study.…”

Section: Discussioncontrasting

confidence: 54%

“…However, the latter study had a very low prevalence rate (8.22%), as only 6 of 73 nonimmunocompromised patients had pulmonary aspergillosis. The corresponding sensitivities and specificities of the BALF GM detection test at the optimal cutoff values of 0.8 and 0.7 reported in 2 of the studies mentioned above (16,19), based on ROC curves, were 88.9% to 100% and 87.9% to 100%, respectively. The optimal cutoff value found in our study (0.7) was similar to the values found in these 2 studies, but the sensitivity was lower (72.97%).…”

Section: Discussionmentioning

confidence: 99%

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Diagnostic Value of Galactomannan Antigen Test in Serum and Bronchoalveolar Lavage Fluid Samples from Patients with Nonneutropenic Invasive Pulmonary Aspergillosis

et al. 2017

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The objective of this study was to compare the diagnostic value of galactomannan (GM) detection in bronchoalveolar lavage fluid (BALF) and serum samples from nonneutropenic patients with invasive pulmonary aspergillosis (IPA) and determine the optimal BALF GM cutoff value for pulmonary aspergillosis. GM detection in BALF and serum samples was performed by enzyme-linked immunosorbent assay (ELISA) in 128 patients with clinically suspected nonneutropenic pulmonary aspergillosis between June 2014 and June 2016. On the basis of the clinical and pathological diagnoses, 8 patients were excluded because their diagnosis was uncertain. The remaining 120 patients were diagnosed with either IPA (n ϭ 37), community-acquired pneumonia (CAP; n ϭ 59), noninfectious diseases (n ϭ 19), or tuberculosis (n ϭ 5). At a cutoff optical density index (ODI) value of Ն0.5, the sensitivity of BALF GM detection was much higher than that of serum GM detection (75.68% versus 37.84%; P ϭ 0.001), but there was no significant difference between their specificities (80.72% versus 87.14%; P ϭ 0.286). At a cutoff value of Ն1.0, the sensitivity of BALF GM detection was still much higher than that of serum GM detection (64.86% versus 24.32%; P Ͻ 0.001), and their specificities were similar (90.36% versus 95.71%; P ϭ 0.202). Receiver operating characteristic (ROC) curve analysis showed that when the BALF GM detection cutoff value was 0.7, its diagnostic value for pulmonary aspergillosis was optimized, and the sensitivity and specificity reached 72.97% and 89.16%, respectively. BALF GM detection was valuable for the diagnosis of IPA in nonneutropenic patients, and its diagnostic value was superior to that of serum GM detection. The optimal BALF GM cutoff value was 0.7.KEYWORDS invasive pulmonary aspergillosis, bronchoalveolar lavage fluid, galactomannan antigen, nonneutropenic patients I nvasive pulmonary aspergillosis (IPA) is mainly caused by Aspergillus fumigatus. Aspergillus species can invade the tracheal bronchus and lung directly, resulting in airway colonization, lung inflammatory granuloma, and even more serious sequelae, such as necrotizing pneumonia, and they can also affect other organs through hematogenous spread. Previously, IPA was recognized as occurring mainly in patients with neutrophil deficiencies. Such patients generally have serious immunosuppressive conditions, such as malignant hematopathy, solid organ or hematopoietic stem cell transplants, and human immunodeficiency virus (HIV) infection, or are receiving longterm immunosuppressive therapy (1-3). However, it has increasingly been found that

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Section: Discussioncontrasting

confidence: 54%

Section: Discussionmentioning

confidence: 99%

Diagnostic Value of Galactomannan Antigen Test in Serum and Bronchoalveolar Lavage Fluid Samples from Patients with Nonneutropenic Invasive Pulmonary Aspergillosis

et al. 2017

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“…Biomarker detection using serum is convenient, inexpensive and time-saving, presenting high specificity [ 20 ], however the sensitivity was reported to be low in non-haematological patients [ 6 , 23 , 44 , 45 ]. In comparison, BALF assays exhibit higher sensitivity as well as specificity in both neutropenic [ 46 ] and non-neutropenic patients [ 7 , 9 ], probably because BALF is retrieved from local airways. However, the bronchoscopy is an invasive and costly procedure, and it might not be accessible to severe patients or those with contraindications.…”

Section: Discussionmentioning

confidence: 99%

Sputum signatures for invasive pulmonary aspergillosis in patients with underlying respiratory diseases (SPARED): study protocol for a prospective diagnostic trial

et al. 2018

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BackgroundInvasive pulmonary aspergillosis (IPA) has been increasingly reported in patients with underlying respiratory diseases (URD). Early diagnosis of IPA is crucial for mortality reduction and improved prognosis, yet remains difficult. Existing diagnostic tools for IPA largely rely on the detection of biomarkers based on serum or bronchoalveolar lavage fluid (BALF), both of which have their limitations. The use of sputum sample is non-invasive, and Aspergillus detection is feasible; however, the usefulness of sputum biomarkers for the diagnosis of IPA, especially in patients with URD, has not been systematically studied.MethodsThis is a prospective diagnostic trial. At least 118 participants will be recruited from respiratory wards and intensive care units. IPA is defined according to the EORTC/MSG criteria modified for patients with URD. Induced sputum and blood will be collected, and BALF will be obtained by bronchoscopy. Sputum biomarkers, including galactomannan, Aspergillus DNA, triacetylfusarinine and bis(methylthio)gliotoxin will be determined, and the presence of a JF5 antigen will be examined with a lateral fluid device. The sensitivity, specificity, negative predictive value, positive predictive value and diagnostic odds ratio will be computed for different biomarkers and compared using the McNemar χ2 test. Receiver operating characteristic analyses will be performed, and the cut-off values will be established. Participants will receive follow-up evaluations at 3 months and 6 months after recruitment. The difference in hospital stay and survival will be analysed, and the relationships between the levels of biomarkers and hospital stay and survival will be analysed via regression models.DiscussionWe have developed and verified the feasibility of Aspergillus-related biomarker assays for sputum. The study findings will contribute to a novel look at the diagnostic performance of sputum biomarkers in IPA and provide important insight into the improvement of the early diagnosis of IPA, particularly in patients with URD.Trial registrationThis study has been registered with the Chinese Clinical Trial Registry (ChiCTR-DPD-16009070) on 24th of August 2016.

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“…1 Recently, patients with nonhaematological diseases such as solid malignancy, chronic obstructive pulmonary disease (COPD) and live cirrhosis, etc, have been increasingly found to be infected with IPA, with reported incidence ranging from 3.6% to 16.5%. [2][3][4] The prognosis of IPA patients from non-haematology units is as poor as that of the haematology; [5][6][7] therefore, the early diagnosis and timely treatment are essential to improve prognosis and reduce mortality for this patient population. 8 Compared with the haematological patients, the diagnosis of IPA in nonhaematological patients is often overlooked.…”

Section: Introductionmentioning

confidence: 99%

“…Invasive pulmonary aspergillosis (IPA), characterised by the attack of aspergillus hyphae on lung tissue, is the most frequent invasive fungal infection in immunocompromised patients with haematological malignancies or allogenic stem cell transplantation with high mortality rates 1. Recently, patients with non-haematological diseases such as solid malignancy, chronic obstructive pulmonary disease (COPD) and live cirrhosis, etc, have been increasingly found to be infected with IPA, with reported incidence ranging from 3.6% to 16.5% 2–4. The prognosis of IPA patients from non-haematology units is as poor as that of the haematology;5–7 therefore, the early diagnosis and timely treatment are essential to improve prognosis and reduce mortality for this patient population 8…”

Section: Introductionmentioning

confidence: 99%

Diagnostic performance of mycological tests for invasive pulmonary aspergillosis in non-haematological patients: protocol for a systematic review and meta-analysis

et al. 2022

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IntroductionIncreasing numbers of patients with non-haematological diseases are infected with invasive pulmonary aspergillosis (IPA), with a high mortality reported which is mainly due to delayed diagnosis. The diagnostic capability of mycological tests for IPA including galactomannan test, (1,3)-β-D-glucan test, lateral flow assay, lateral flow device and PCR for the non-haematological patients remains unknown. This protocol aims to conduct a systematic review and meta-analysis of the diagnostic performance of mycological tests to facilitate the early diagnosis and treatments of IPA in non-haematological diseases.Methods and analysisDatabase including PubMed, CENTRAL and EMBASE will be searched from 2002 until the publication of results. Cohort or cross-sectional studies that assessing the diagnostic capability of mycological tests for IPA in patients with non-haematological diseases will be included. The true-positive, false-positive, true-negative and false-negative of each test will be extracted and pooled in bivariate random-effects model, by which the sensitivity and specificity will be calculated with 95% CI. The second outcomes will include positive (negative) likelihood ratio, area under the receiver operating characteristic curve and diagnostic OR will also be computed in the bivariate model. When applicable, subgroup analysis will be performed with several prespecified covariates to explore potential sources of heterogeneity. Factors that may impact the diagnostic effects of mycological tests will be examined by sensitivity analysis. The risk of bias will be appraised by the Quality Assessment tool for Diagnostic Accuracy Studies (QUADAS-2).Ethics and disseminationThis protocol is not involved with ethics approval, and the results will be peer-reviewed and disseminated on a recognised journal.PROSPERO registration numberCRD42021241820.

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Evaluation of Risk Factors for Invasive Pulmonary Aspergillosis and Detection of Diagnostic Values of Galactomannan and PCR Methods in Bronchoalveolar Lavage Samples From Non-Neutropenic Intensive Care Unit Patients

Cited by 7 publications

References 24 publications

Diagnostic Value of Galactomannan Antigen Test in Serum and Bronchoalveolar Lavage Fluid Samples from Patients with Nonneutropenic Invasive Pulmonary Aspergillosis

Diagnostic Value of Galactomannan Antigen Test in Serum and Bronchoalveolar Lavage Fluid Samples from Patients with Nonneutropenic Invasive Pulmonary Aspergillosis

Sputum signatures for invasive pulmonary aspergillosis in patients with underlying respiratory diseases (SPARED): study protocol for a prospective diagnostic trial

Diagnostic performance of mycological tests for invasive pulmonary aspergillosis in non-haematological patients: protocol for a systematic review and meta-analysis

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