View clinical trials related to Chronic Pulmonary Aspergillosis.
Filter by:This is a single center open-label feasibility trial involving a single study visit for participants. The purpose of the study is to demonstrate the feasibility of [68Ga]Ga-DFO-B PET/CT (gallium-68-deferoxamine) for the visualization of pulmonary Aspergillus infection. The incidence of fungal infections is on the rise and are associated with significant mortality. Diagnosis pulmonary aspergillosis can be can be challenging, often requiring invasive tests such as bronchoscopy and lung tissue biopsies. Molecular imaging, specifically using radiolabeled siderophores like [68Ga]Ga-DFO-B, offers a non-invasive and location-specific approach to visualize and evaluate infections. Siderophores, critical for pathogenic microbes like Aspergillus fumigatus, play a role in iron acquisition. Preclinical studies with radiolabeled deferoxamine (DFO-B) demonstrated distinct accumulation at infection sites. Additionally, [68Ga]Ga-DFO-B PET/CT may differentiate between Aspergillus infection and cancer, making it a promising non-invasive diagnostic tool for pulmonary aspergillosis.
This study explores the role of treatment with interferon-gamma to improve outcomes in chronic pulmonary aspergillosis (CPA). CPA is a progressive infection caused by the fungus Aspergillus affecting patients with chronic lung disease like Chronic Obstructive Lung Disease (COPD) or previously treated tuberculosis (TB). It causes gradual destruction of lung tissue by slowly enlarging cavities, frequent secondary infections and poor quality of life. Because of its indolent nature and nonspecific x-ray findings, it often remains unrecognised for years. Around 3600 people live with CPA in the United Kingdom. Mortality from CPA may be up to 40% in five years. Treatment for CPA relies on antifungals for prolonged periods, but only around 60% of patients improve. It is often long-term or lifelong as the response is slow and some patients experience relapses. In addition, only one class of oral antifungal drugs is licensed for CPA, and they are associated with side effects and high cost. Better treatments are needed for CPA. We do not know why many patients do not respond to treatment. Maybe CPA patients have a weakened immune system and are more susceptible to Aspergillus. Our data suggest that CPA patients produce lower amounts of ΙFNγ, a substance that facilitates the immune system's response against Aspergillus. We have also shown that, when given to patients with CPA who have failed to improve on antifungal treatment, interferon-gamma leads to improvement in important patient-centred outcomes like flares of lung disease or hospital admissions. Interferon-gamma is already in use in the National Health Service of the United Kingdom for other indications. Therefore, its use in CPA should be explored. However, CPA is a rare condition and the tolerability of interferon-gamma is not fully established in these patients. To understand whether a large-scale study is feasible in CPA, we first need preliminary data in smaller numbers of patients. We propose a randomised trial of interferon-gamma in addition to antifungals in CPA. Patients with CPA starting antifungal treatment will be eligible. Participants (25 per group) will be randomly assigned to interferon-gamma for 12 weeks (in addition to antifungals) or antifungals only. To test whether the treatment works, we will use measurements of the cavities on chest CT scan and scores on a quality-of-life questionnaire. We will assess for tolerability of treatment at intervals similar to clinical practice. Criteria for progression to the large-scale study will be set based on the proportion of patients willing to participate, and on the proportion who complete the treatment. Data collected on those parameters will allow us to determine the number needed for a definite study. If the large-scale study confirms our observations that interferon-gamma improves outcomes in CPA, then treatment duration can be shortened and relapses avoided. In addition, interferon-gamma can then be explored in other chronic lung disease.