Pseudomonas and aspergillus symbiotic coinfections in a case of chronic obstructive pulmonary disease and diabetes mellitus.

Coinfection of Pseudomonas and Aspergillus has not been previously reported in patients with chronic obstructive pulmonary disease (COPD). A middle-aged, thinly built woman (Body Mass Index: 18.1 kg/m²) who smokes bidi (a type of tobacco) and has a history of exposure to open log fires for cooking, has been suffering from COPD for the last 4 years. She has been taking inhaled betamethasone and tiotropium. Additionally, she had uncontrolled diabetes for a few months. She presented with fever, productive cough, shortness of breath and chest pain for 5 days. She required non-invasive ventilation support for type-2 respiratory failure. Chest X-ray and CT confirmed pneumonia, cavities and abscesses in both lungs. Repeated sputum and bronchoalveolar lavage confirmed coinfections with Pseudomonas aeruginosa and Aspergillus fumigatus, respectively. Along with supportive therapy, she was treated with tablet levofloxacin and injection amikacin for 6 weeks based on culture sensitivity reports, and capsule itraconazole for 6 months. She recovered completely to her baseline COPD and diabetes status. This case study confirms that coinfections can occur in COPD and diabetes, highlighting the need for clinicians to be vigilant for the possibility of such symbiotic coinfections.

[Expert consensus on the diagnosis and treatment of pulmonary aspergillosis in patients with chronic obstructive pulmonary disease].

The prevalence of pulmonary aspergillosis is increasing in patients with chronic obstructive pulmonary disease (COPD) and can manifest in different forms such as invasive pulmonary aspergillosis (IPA), chronic pulmonary aspergillosis (CPA) and allergic bronchopulmonary aspergillosis (ABPA). With the variations of individual conditions such as immune status, these forms of the disease may transform into each other or even overlap. Moreover, the atypical clinical manifestations and the limited use of invasive sampling techniques have posed a challenge to the diagnosis and treatment of invasive pulmonary aspergillosis in patients with COPD. To provide recommendations for the management of pulmonary aspergillosis in patients with COPD and to construct a clinical workflow, the consensus panel reviewed the evidence and critically appraised the existing studies. As the majority of the recommendations were supported by low levels of evidence, the evidence levels were not listed in the consensus and the strong and weak recommendations were expressed as "recommend" and "suggest", respectively.Recommendations for COPD with IPA: The Panel recommends that high-resolution chest computed tomography (HRCT) be performed in patients suspected with IPA. If IPA cannot be excluded by CT scanning, mycological examination of sputum and bronchoalveolar lavage fluid (BALF) is recommended. Bronchoscopy and BALF Aspergillus-related examination are recommended in COPD patients with respiratory symptoms such as dyspnea despite the use of broad-spectrum antibiotics and systemic glucocorticoids and pulmonary infiltrates observed on chest CT. If the diagnosis is in doubt in patients with probable IPA, histopathological examination is recommended. In COPD patients with an acute infection of more than 10 days' duration, the Panel recommended the detection of Aspergillus-specific IgG antibodies in peripheral blood to aid in the diagnosis of IPA, especially in those who cannot obtain BALF. It is not recommended to initiate antifungal therapy based on clinical symptoms such as cough, fever, and dyspnea empirically in COPD patients. In critically ill patients (such as those admitted to ICU and those with respiratory failure) who are unresponsive to broad-spectrum antibiotic treatment and have imaging findings consistent with IPA, patients with HRCT or bronchoscopy findings consistent with airway invasive aspergillosis, patients with a history of oral or intravenous glucocorticoid use in the past 3 months, or patients with a history of airway Aspergillus infection or colonization, empirical antifungal therapy may be initiated after a comprehensive evaluation of Aspergillus infection risk, and at the same time, pathogen examination should be started as early as possible. Voriconazole, isavuconazole, and posaconazole are recommended as the first-line treatments for COPD with IPA. Echinocandins and amphotericin B may be used as alternative options. Antifungal treatment for COPD with IPA should be continued for at least 6-12 weeks. The duration of antifungal therapy should be determined based on clinical symptoms, pulmonary imaging, and microbiological test results. Significant lesion absorption and stabilization, as well as the elimination of related risk factors, are important references for discontinuation of treatment.Recommendations on COPD with CPA: Chest CT scan and dynamic observation are recommended for COPD with suspected CPA. Peripheral blood Aspergillus-specific IgG antibody testing is recommended in COPD patients with suspected CPA. For those who are difficult to diagnose by routine methods or need further differential diagnosis, pulmonary tissue histopathological examination is recommended. Oral itraconazole solution or voriconazole tablets are recommended as the first-line treatment options for COPD with CPA. Oral isavuconazole capsules or enteric-coated posaconazole tablets can be used as an alternative. Intravenous administration of echinocandins or amphotericin B (deoxycholate or lipid formulations) are suggested as a second-line treatment options in cases of triazole treatment failure, resistance, or intolerance. Antifungal treatment for COPD with CPA should be continued for at least 6 months, and for patients with CCPA for at least 9 months. In those with cavities communicating with the bronchial lumen, if systemic antifungal therapy is ineffective or cannot be tolerated due to adverse reactions, and surgery is also not feasible, the Panel suggests considering nebulized inhalation of amphotericin B and intracavitary injection of amphotericin B or azoles (voriconazole, itraconazole) to control recurrent hemoptysis.Recommendations on COPD with Aspergillus sensitization: When COPD patients present with refractory wheezing and/or rapid decline in lung function, it is recommended that an assessment for Aspergillus sensitization be performed, including Aspergillus-specific IgE, skin Aspergillus antigen test, Aspergillus-specific IgG, total IgE, blood eosinophil count, and sputum examination. The Panel recommends that antifungal therapy should not be routinely initiated in COPD patients with Aspergillus sensitization. For those who meet the diagnostic criteria for ABPA, antifungal therapy is suggested. The most commonly used medication is oral itraconazole solution, but other azoles such as voriconazole, isavuconazole and posaconazole enteric-coated tablets can also be chosen. The general course of antifungal therapy is 3-6 months.Recommendations on the use of glucocorticoids in COPD with pulmonary aspergillosis: In exacerbating COPD patients with secondary IPA or subacute invasive aspergillosis, the Panel suggests that the use of glucocorticoids should be controlled. For COPD patients with concomitant CPA who experience exacerbations with predominantly wheezing, it is suggested that short-term, low-dose glucocorticoids be considered on the basis of antifungal treatment to control symptoms. Glucocorticoid use for COPD exacerbations is suggested to be guided by peripheral blood eosinophil count. It is recommended to avoid systemic glucocorticoids and long-term or high-dose inhaled glucocorticoids (ICS) in stable COPD patients with concomitant CPA. In patients with concomitant Aspergillus sensitization and persistent wheezing despite standardized COPD treatment or patients with ABPA, the Panel recommends systemic glucocorticoids in combination with antifungal therapy and consideration of the use of ICS to reduce the dose of systemic glucocorticoids. Close monitoring for progression to IPA or subacute invasive aspergillosis is essential during treatment.

[Issues in the diagnosis and evaluation of pulmonary aspergillosis in patients with chronic obstructive pulmonary disease].

Patients with chronic obstructive pulmonary disease (COPD) may present with various forms of pulmonary aspergillosis, including invasive pulmonary aspergillosis (IPA), chronic cavitary pulmonary aspergillosis, and allergic bronchopulmonary aspergillosis. Accurate diagnosis and disease evaluation are essential for tailoring individualized treatment strategies. Key aspects include: (1) Comprehensive assessment of IPA risk factors, with enhanced monitoring for critically ill patients; (2) Understanding the clinical manifestations and radiological features of different forms of pulmonary aspergillosis and emphasizing the importance of bronchoscopic examination; (3) Obtaining microbiological evidence whenever possible; (4) Differentiating colonization from infection to avoid overdiagnosis; (5) Vigilance for co-existing sensitization to Aspergillus. During treatment and long-term disease management, the use of inhaled or systemic corticosteroids and antifungal agents should be dynamically adjusted according to the patient's condition.

[Research advances on the mechanism of immune regulation of interferon in Aspergillus infection].

Pulmonary aspergillosis is a serious pulmonary fungal infectious disease. It is difficult to manage and has limited treatment options. Existing anti-aspergillus medications have high rates of treatment failure and increased drug resistance, making it difficult to meet the clinical requirements. Therefore, the development of new, effective treatment programs is critical. According to research, interferons play an important role in the body's immune response to bacterial and viral infectious diseases. Inadequate interferon expression or dysfunction can put the body at risk for certain infectious diseases. Interferon has been used in clinical trials to prevent or treat infectious diseases. In recent years, researchers have focused on the immunological role of interferon in Aspergillus infections and its potential for clinical application. This review summarized the most recent advances in the immunoregulatory mechanisms of interferon and its clinical application in Aspergillus infections.

Inappropriate treatment of pulmonary aspergillosis caused by Aspergillus flavus in susceptible pediatric patients: a case series.

BACKGROUND: Pulmonary aspergillosis is a prevalent opportunistic fungal infection that can lead to mortality in pediatric patients with underlying immunosuppression. Appropriate and timely treatment of pulmonary aspergillosis can play a crucial role in reducing mortality among children admitted with suspected infections. CASE PRESENTATION: The present study reports three cases of inappropriate treatment of pulmonary aspergillosis caused by Aspergillus flavus in two Iranian pediatric patients under investigation and one Afghan patient. Unfortunately, two of them died. The cases involved patients aged 9, 1.5, and 3 years. They had been diagnosed with pulmonary disorders, presenting nonspecific clinical signs and radiographic images suggestive of pneumonia. The identification of A. flavus was confirmed through DNA sequencing of the calmodulin (CaM) region. CONCLUSION: A. flavus was the most prevalent cause of pulmonary aspergillosis in pediatric patients. Early diagnosis and accurate antifungal treatment of pulmonary aspergillosis could be crucial in reducing the mortality rate and also have significant potential for preventing other complications among children. Moreover, antifungal prophylaxis seems to be essential for enhancing survival in these patients.

Complication of Intrapulmonary Cavitary Lesions after COVID-19 Finally Proved as Pulmonary Aspergillosis.

BACKGROUND: Coronavirus Disease 2019 (COVID-19) is caused by severe acute respiratory syndrome coronavirus type 2, which is characterized by high infectiousness and diverse clinical manifestations. They are more likely to become critical in people who have underlying diseases or are immunocompromised. In the daunting task of treating patients with COVID-19, those with comorbid fungal infections are susceptible to underdiagnosis or misdiagnosis, which can ultimately lead to increased morbidity and mortality in this group of patients. We report a case of intrapulmonary cavitary lesions after COVID-19, which was eventually diagnosed as pulmonary aspergillosis (PA) by metagenomic Next Generation Sequencing (mNGS) to improve our understanding of the disease. METHODS: Appropriate laboratory tests, chest computed tomography (CT), mNGS, and serologic tests were performed for diagnosis. RESULTS: Laboratory tests showed Glactomannan (GM) of 1.41, multiple cavitary lesions in both lungs on chest CT and the presence of aspergillus infection was confirmed by sputum sent for mNGS. CONCLUSIONS: In the case of cavitary lesions after COVID-19, we should be alert to the possibility of combined fungi and should promptly perform mNGS to clarify whether there is a combination of specific pathogenic fungal infections.

Two Different Tumors and Lung Aspergilloma: An Uncommon Etiopathogenic Association.

Several cases reported in the literature have confirmed the link between pulmonary aspergillosis and various malignant diseases. Furthermore, it has been observed that the correlation between carcinoid tumor and lung adenocarcinoma is quite uncommon. The etiopathogenic mechanisms underlying these correlations remain poorly defined. We present the case of a patient with three of these diseases: a lung adenocarcinoma with a lepidic pattern, a typical carcinoid, and pulmonary aspergillosis. An additional noteworthy aspect of this case pertains to the timely detection of both lung malignancies. Thus, the necessity for further investigation to ascertain the pathogenic connection among the three diseases is underscored. The ultimate objective is to enhance the prognosis of individuals diagnosed with lung cancer, which is a prevailing malignant disease on a global scale.

Left Versus Right Destroyed Lung Pneumonectomy: Long Term Prognosis and Key Factors Associated With Poor Treatment Outcomes.

INTRODUCTION: To compare and analyze postoperative short-term and long-term prognosis of destroyed lung (DL) disease patients undergoing left versus right pneumonectomy and to identify potential key factors associated with poor treatment outcomes. METHODS: Retrospective analysis was conducted on clinical data of 128 DL patients who underwent pneumonectomy in the thoracic surgery department of the Beijing Chest Hospital from November 2001 to May 2022. Cases were assigned to two groups according to lesion site: a left pneumonectomy group (104 cases) and right pneumonectomy group (24 cases). Postoperative short-term and long-term DL disease clinical features and prognostic factors were analyzed and compared between groups. RESULTS: As compared with the left pneumonectomy group, the right pneumonectomy group experienced greater rates of preoperative diabetes, chronic pulmonary aspergillosis, intraoperative blood loss, postoperative respiratory failure, rehospitalization, tuberculosis (TB) recurrence, bronchopleural fistula (BPF) and empyema. Binary logistic regression analysis revealed a potential correlation between chronic pulmonary aspergillosis and increased odds of developing secondary respiratory failure (adjusted odds ratio: 5.234, 95% confidence interval [CI]: 1.768-15.498). Results of Cox Proportional Hazards Model regression analysis suggested that right pneumonectomy was correlated with increased odds of TB recurrence (adjusted hazard ratio: 4.017, 95% CI: 1.282-12.933) and BPF/empyema (adjusted hazard ratio: 5.655, 95% CI: 1.254-25.505). CONCLUSIONS: Compared to the group undergoing left pneumonectomy, patients with DL who undergo right-sided pneumonectomy may be at a heightened risk of experiencing secondary postoperative TB recurrence and BPF or edema. It is advised to exercise utmost caution and deliberate consideration of these potential risks when contemplating pneumonectomy, with the intention of proactively preventing adverse events.

Combined medical-interventional approaches for the management of complex fungal balls: a case series as a viable alternative in non-surgical patients.

Intracavitary pulmonary aspergilloma is a persistent and life-threatening infection that carries a mortality rate of up to 15%. It occurs when Aspergillus species gain entry to an existing lung cavity. In the absence of definitive treatment, patients may succumb to severe complications such as massive hemoptysis, cachexia, or secondary infections. Aspergillomas often show limited response to antifungal medications, mainly due to insufficient drug concentrations within the cavities. Surgery is frequently the preferred treatment option, but it poses significant risks, and many individuals are ineligible due to underlying health issues. We present the most extensive non-surgical fungal ball cohort to date, managed using an innovative multimodal strategy that combines antifungal therapy before and after bronchoscopic debulking. This was a cross-sectional observational study. For those who cannot undergo surgery, our medical center has pioneered a multimodal approach to aspergilloma resection. This approach combines bronchoscopic endoscopy with antifungal therapy and has been applied successfully to more than 18 patients that are presented in this series. The median age of the cohort was 58 years (range: 32-73), with an equal sex distribution. The mean percent predicted FEV1 was 65.3%. The mean follow-up duration was 3.6 years (range: 0.5-10 years). The cohort receiving antifungals systematically prior to debridement showed a reduction of the pre-existing cavity (40.38 mm versus 34.02 mm, p = 0.021). Across the 18 patients during the follow-up period, 94% remained recurrence-free (defined by symptoms and radiology). Our study fills a critical knowledge gap regarding the significance of initiating antifungal treatment before bronchoscopic debulking and presents a viable approach in these cases for which there is a current unmet therapeutic need.

The use of both medical and interventional methods to treat difficult fungal masses: A collection of cases showing efficacy for patients who can't undergo surgeryIntracavitary pulmonary aspergilloma is a serious and potentially deadly infection with a death rate of up to 15%. It happens when certain types of fungi invade existing lung cavities. Without proper treatment, patients may experience severe complications like heavy bleeding from the lungs, weight loss, or other infections. Traditional antifungal medications often don't work well because they can't reach high enough concentrations in the cavities. Surgery is usually the best option, but it's risky and not possible for many due to other health problems. Our study introduces a new way to treat aspergilloma without surgery. We've treated a significant number of patients using a combination of antifungal drugs and a procedure called bronchoscopic debulking. This involves removing the fungal growth using a thin tube inserted through the airways. Our research involved observing 18 patients treated this way. They were mostly middle-aged, with equal numbers of men and women. Their lung function was moderately impaired, and we followed them for an average of 3.6 years. We found that giving antifungal drugs before the debulking procedure helped reduce the size of the cavities. After treatment, almost all patients remained free of symptoms and signs of recurrence. This study highlights the importance of starting antifungal therapy before bronchoscopic debulking and offers a promising option for patients who can't have surgery.

Prevalence of co-existent COVID-19-associated pulmonary aspergillosis (CAPA) and its impact on early mortality in patients with COVID-19-associated pulmonary mucormycosis (CAPM).

BACKGROUND: Data on mixed mould infection with COVID-19-associated pulmonary aspergillosis (CAPA) and COVID-19-associated pulmonary mucormycosis (CAPM) are sparse. OBJECTIVES: To ascertain the prevalence of co-existent CAPA in CAPM (mixed mould infection) and whether mixed mould infection is associated with early mortality (≤7 days of diagnosis). METHODS: We retrospectively analysed the data collected from 25 centres across India on COVID-19-associated mucormycosis. We included only CAPM and excluded subjects with disseminated or rhino-orbital mucormycosis. We defined co-existent CAPA if a respiratory specimen showed septate hyphae on smear, histopathology or culture grew Aspergillus spp. We also compare the demography, predisposing factors, severity of COVID-19, and management of CAPM patients with and without CAPA. Using a case-control design, we assess whether mixed mould infection (primary exposure) were associated with early mortality in CAPM. RESULTS: We included 105 patients with CAPM. The prevalence of mixed mould infection was 20% (21/105). Patients with mixed mould infection experienced early mortality (9/21 [42.9%] vs. 15/84 [17.9%]; p = 0.02) and poorer survival at 6 weeks (7/21 [33.3] vs. 46/77 [59.7%]; p = 0.03) than CAPM alone. On imaging, consolidation was more commonly encountered with mixed mould infections than CAPM. Co-existent CAPA (odds ratio [95% confidence interval], 19.1 [2.62-139.1]) was independently associated with early mortality in CAPM after adjusting for hypoxemia during COVID-19 and other factors. CONCLUSION: Coinfection of CAPA and CAPM was not uncommon in our CAPM patients and portends a worse prognosis. Prospective studies from different countries are required to know the impact of mixed mould infection.

Innate and adaptive immune responses in subjects with CPA secondary to post-pulmonary tuberculosis lung abnormalities.

BACKGROUND: Post-tuberculosis lung abnormality (PTLA) is the most common risk factor for chronic pulmonary aspergillosis (CPA), and 14%-25% of the subjects with PTLA develop CPA. The pathogenesis and the host immune response in subjects with PTLA who develop CPA need to be better understood. METHODS: We prospectively compared the innate and adaptive immune responses mounted by patients of PTLA with or without CPA (controls). We studied the neutrophil oxidative burst (by dihydrorhodamine 123 test), classic (serum C3 and C4 levels) and alternative (mannose-binding lectin [MBL] protein levels) complement pathway, serum immunoglobulins (IgG, IgM and IgA), B and T lymphocytes and their subsets in subjects with PTLA with or without CPA. RESULTS: We included 111 subjects (58 CPA and 53 controls) in the current study. The mean ± SD age of the study population was 42.6 ± 15.7 years. The cases and controls were matched for age, gender distribution and body weight. Subjects with CPA had impaired neutrophil oxidative burst, lower memory T lymphocytes and impaired Th-1 immune response (lower Th-1 lymphocytes) than controls. We found no significant difference between the two groups in the serum complement levels, MBL levels, B-cell subsets and other T lymphocyte subsets. CONCLUSION: Subjects with CPA secondary to PTLA have impaired neutrophil oxidative burst and a lower Th-1 response than controls.

Analysis of cases with co-infection of COVID-19 and pulmonary aspergillosis.

The objective of this study was to investigate the risk factors and diagnosis measure of COVID-19-associated pulmonary aspergillosis (CAPA). This study included 201 COVID-19 patients from December 1, 2022, to January 31, 2023; 7 (3.5%) were diagnosed with CAPA. The main risk factors were age, MV, ICU admission and COPD, and the presence of comorbidities such as ARDS and hypoproteinemia in COVID-19 patients, more susceptible to Aspergillus infection. In addition to specimen culture in the lower respiratory tract, the 1,3-ß-D-glucan antigen test can serve as an important screening indicator for early CAPA diagnosis in non-granulocytopenia patients.

Chronic pulmonary aspergillosis incidence in newly detected pulmonary tuberculosis cases during follow-up.

BACKGROUND: Chronic pulmonary aspergillosis (CPA) is known to complicate patients with post-tubercular lung disease. However, some evidence suggests that CPA might co-exist in patients with newly-diagnosed pulmonary tuberculosis (P.TB) at diagnosis and also develop during therapy. The objective of this study was to confirm the presence of CPA in newly diagnosed P.TB at baseline and at the end-of-TB-therapy. MATERIALS AND METHODS: This prospective longitudinal study included newly diagnosed P.TB patients, followed up at third month and end-of-TB-therapy with symptom assessment, anti-Aspergillus IgG antibody and imaging of chest for diagnosing CPA. RESULTS: We recruited 255 patients at baseline out of which 158 (62%) completed their follow-up. Anti-Aspergillus IgG was positive in 11.1% at baseline and 27.8% at end-of-TB-therapy. Overall, proven CPA was diagnosed in 7% at baseline and 14.5% at the end-of-TB-therapy. Around 6% patients had evidence of aspergilloma in CT chest at the end-of-TB-therapy. CONCLUSIONS: CPA can be present in newly diagnosed P.TB patients at diagnosis and also develop during anti-tubercular treatment. Patients with persistent symptoms or developing new symptoms during treatment for P.TB should be evaluated for CPA. Whether patients with concomitant P.TB and CPA, while receiving antitubercular therapy, need additional antifungal therapy, needs to be evaluated in future studies.

The incidence and prevalence of serious fungal diseases in Tunisia.

With increasing concern about the negative health impact of fungal disease, there is a need to survey what is and is not known about the epidemiology of these infections in Tunisia. We have estimated the incidence and prevalence of the most serious fungal diseases in Tunisia for the first time. Using published literature from Tunisia, or if absent other countries, we have estimated the burden of life-threatening fungal infections and those causing significant morbidity, using deterministic modeling, based on populations at greatest risk. An estimated 250,494 (2.12% of the Tunisian population) are affected by a serious fungal disease annually. Invasive and chronic pulmonary aspergillosis are relatively common with 708 and 2090 patients affected, partly linked to the prevalence of chronic obstructive pulmonary disease (COPD). Fungal asthma (allergic bronchopulmonary aspergillosis and severe asthma with fungal sensitization) have an estimated prevalence of 38,264 (5.8% of the adult asthma population). Fungal keratitis probably affects 1,761 eyes annually, often leading to uniocular blindness. Candidaemia and Candida peritonitis probably affect at least 680 people annually, with a high mortality. Recurrent vulvovaginal candidiasis probably affects over 200,000 women. While fungal diseases are regularly diagnosed in Tunisia, epidemiological studies with denominators are uncommon. Some fungal diseases are poorly addressed with the current diagnostic portfolio, and surveillance is lacking. Studies on these diseases and the implementation of a national program of surveillance are required.

Integrating genetic and immune factors to uncover pathogenetic mechanisms of viral-associated pulmonary aspergillosis.

Invasive pulmonary aspergillosis is a severe fungal infection primarily affecting immunocompromised patients. Individuals with severe viral infections have recently been identified as vulnerable to developing invasive fungal infections. Both influenza-associated pulmonary aspergillosis (IAPA) and COVID-19-associated pulmonary aspergillosis (CAPA) are linked to high mortality rates, emphasizing the urgent need for an improved understanding of disease pathogenesis to unveil new molecular targets with diagnostic and therapeutic potential. The recent establishment of animal models replicating the co-infection context has offered crucial insights into the mechanisms that underlie susceptibility to disease. However, the development and progression of human viral-fungal co-infections exhibit a significant degree of interindividual variability, even among patients with similar clinical conditions. This observation implies a significant role for host genetics, but information regarding the genetic basis for viral-fungal co-infections is currently limited. In this review, we discuss how genetic factors known to affect either antiviral or antifungal immunity could potentially reveal pathogenetic mechanisms that predispose to IAPA or CAPA and influence the overall disease course. These insights are anticipated to foster further research in both pre-clinical models and human patients, aiming to elucidate the complex pathophysiology of viral-associated pulmonary aspergillosis and contributing to the identification of new diagnostic and therapeutic targets to improve the management of these co-infections.

Native-lung complications following single-lung transplantation for interstitial lung disease: an in-depth analysis.

BACKGROUND: Interstitial lung disease (ILD) represents a heterogeneous group of lung disorders characterized by fibrotic lung tissue changes. In regions with severe donor shortages, single-lung transplantation (SLTx) is often preferred over bilateral lung transplantation for advanced ILD. However, temporal changes and complications in the retained native lung remain poorly understood. METHODS: A retrospective analysis of 149 recipients who had undergone SLTx was conducted, including 34 ILD SLTx recipients. Native-lung volume, radiological alterations, and perfusion were assessed at distinct post-SLTx time points. Statistical analyses compared ILD and non-ILD SLTx groups. RESULTS: Our study revealed a progressive reduction in native-lung volume over time, accompanied by radiographic deterioration and declining perfusion. Complications in the retained native lung were observed, such as pneumothorax (29.4%), pulmonary aspergillosis (11.8%), and acute exacerbation (8.9%). Long-term survival rates were similar between ILD and non-ILD SLTx recipients. CONCLUSIONS: This study illuminates the unique challenges and complications with respect to the native lung following SLTx for ILD. Ongoing monitoring and tailored management are essential. Despite limitations, this research contributes to our understanding of the temporal progression of native-lung complications post-SLTx for ILD, underscoring the need for further investigation.

COVID-19-associated pulmonary aspergillosis (CAPA) in hematological patients: Could antifungal prophylaxis be necessary? A nationwide study.

BACKGROUND: COVID-19-associated pulmonary aspergillosis (CAPA) has emerged as a relatively common complication. Multiple studies described this relationship in critical patients, however its incidence and outcome in other risk groups such as immunosuppressed patients remains unknown. In this sense, we aimed to evaluate the rates and outcomes of CAPA in hematological patients and according to the different hematological malignances, comparing to invasive pulmonary aspergillosis (IPA) in non-COVID-19 ones. METHODS: Nationwide, population-based and retrospective observational cohort study including all adult patients with hematological malignancies admitted in Spain since March 1, 2020 to December 31, 2021. The main outcome variable was the diagnosis of IPA during hospitalization in hematological patients with or without COVID-19 at admission. The rate of CAPA compared to IPA in non-COVID-19 patients in each hematological malignancy was also performed, as well as survival curve analysis. FINDINGS: COVID-19 was diagnosed in 3.85 % (4367 out of 113,525) of the hematological adult inpatients. COVID-19 group developed more fungal infections (5.1 % vs. 3 %; p < 0.001). Candida spp. showed higher rate in non-COVID-19 (74.2 % vs. 66.8 %; p = 0.015), meanwhile Aspergillus spp. confirmed its predominance in COVID-19 hematological patients (35.4 % vs. 19.1 %; p < 0.001). IPA was diagnosed in 703 patients and 11.2 % (79 cases) were CAPA. The multivariate logistic regression analysis found that the diagnosis of COVID-19 disease at hospital admission increased more than two-fold IPA development [OR: 2.5, 95CI (1.9-3.1), p < 0.001]. B-cell malignancies - specifically B-cell non-Hodgkin lymphoma, multiple myeloma, chronic lymphocytic leukemia and acute lymphoblastic leukemia - showed between four- and six-fold higher CAPA development and 90-day mortality rates ranging between 50 % and 72 %. However, myeloid malignancies did not show higher CAPA rates compared to IPA in non-COVID-19 patients. CONCLUSION: COVID-19 constitutes an independent risk factor for developing aspergillosis in B-cell hematological malignancies and the use of antifungal prophylaxis during hospitalizations may be warranted.

Risk factors for COVID-19 associated pulmonary aspergillosis and outcomes in patients with acute respiratory failure in a respiratory sub-intensive care unit.

BACKGROUND: COVID-19-associated pulmonary aspergillosis (CAPA) is burdened by high mortality. Data are lacking about non-ICU patients. Aims of this study were to: (i) assess the incidence and prevalence of CAPA in a respiratory sub-intensive care unit, (ii) evaluate its risk factors and (iii) impact on in-hospital mortality. Secondary aims were to: (i) assess factors associated to mortality, and (ii) evaluate significant features in hematological patients. MATERIALS AND METHODS: This was a single-center, retrospective study of COVID-19 patients with acute respiratory failure. A cohort of CAPA patients was compared to a non-CAPA cohort. Among patients with CAPA, a cohort of hematological patients was further compared to another of non-hematological patients. RESULTS: Three hundred fifty patients were included in the study. Median P/F ratio at the admission to sub-intensive unit was 225 mmHg (IQR 155-314). 55 (15.7%) developed CAPA (incidence of 5.5%). Eighteen had probable CAPA (37.3%), 37 (67.3%) possible CAPA and none proven CAPA. Diagnosis of CAPA occurred at a median of 17 days (IQR 12-31) from SARS-CoV-2 infection. Independent risk factors for CAPA were hematological malignancy [OR 1.74 (95%CI 0.75-4.37), p = 0.0003], lymphocytopenia [OR 2.29 (95%CI 1.12-4.86), p = 0.02], and COPD [OR 2.74 (95%CI 1.19-5.08), p = 0.014]. Mortality rate was higher in CAPA cohort (61.8% vs 22.7%, p < 0.0001). CAPA resulted an independent risk factor for in-hospital mortality [OR 2.92 (95%CI 1.47-5.89), p = 0.0024]. Among CAPA patients, age > 65 years resulted a predictor of mortality [OR 5.09 (95% CI 1.20-26.92), p = 0.035]. No differences were observed in hematological cohort. CONCLUSION: CAPA is a life-threatening condition with high mortality rates. It should be promptly suspected, especially in case of hematological malignancy, COPD and lymphocytopenia.