View clinical trials related to Interstitial Lung Disease.
Filter by:Interstitial lung disease (ILD) is a collective term for a group of diseases where the lungs become scarred causing breathlessness. This research project will assess if remote digital monitoring of frequent spirometry and pulse oximetry can provide an additional way to monitor ILD and provide information to support virtual consultations. Outcomes in the remote monitoring group will be compared with usual care alone over 12 months. Patients taking part will be randomly allocated to remote digital monitoring or to usual care (with an equal chance of either). Remote monitoring will be performed using an app provided by patientMpower Ltd which patients will be able to download onto a smartphone or tablet. The study team will provide a spirometer and oximeter for patients to measure their lung function (spirometry) and oxygen saturations. These devices link to the app via Bluetooth to record all measurements. Patients will be asked to do these measurements three times a week. Clinical teams will be asked to review all measurements at least once a fortnight. Health outcomes will be described and compared between the two groups.
A fan blowing cool air to the face has been shown to alleviate breathlessness in malignant and non-malignant disease at rest and during exercise, however the underlying physiological mechanisms remain unknown. This random order, three-condition design study will explore physiological mechanisms of breathlessness relief with fan-to-face therapy during constant-rate exercise in people with cardiorespiratory disease.
The primary objective of this study is to evaluate the safety and tolerability of the long-term use of TPIP in participants with PH-ILD from Study INS1009-211 (NCT05176951) and other lead-in studies of TPIP in participants with PH-ILD.
The purpose of this study is to explore the role of a stream of cool air to the face, through fan-to-face therapy, as a novel adjunct non-pharmacological therapy to enable symptomatic adults with cardiopulmonary disease to exercise at higher intensities for longer durations and maximize the psycho-physiological benefits of a supervised exercise training program. The investigators hypothesize that, compared to no fan, fan-to-face therapy will result in relatively greater improvements in exercise endurance time and intensity ratings of perceived breathlessness during constant-load cardiopulmonary exercise testing on a treadmill at 75% of peak power output following a 5-week exercise training period.
The goal of this physiological interventional prospective study is to evaluate the improvement of the previously demonstrated correlation between PaO2/ FiO2 and Lung Ultrasound score (LUSS) in patients admitted in the ICU with an intesrtitial syndrom (IS) on the ultrasound of all aetiologies at inclusion and at twenty four and forty eight hours. The main question it aims to answer is if the LUSS is a valid tool to evaluate the severity of the IS Participants will initially have an arterial blood gas to evaluate the PaO2/FiO2 and in the ten minutes a lung ultrasound to evaluate the LUSS. This will be repeated at twenty four and forty eight hours.
The objective of our project is to find procedures and/or parameters to predict the diagnostic recovery (≥ 60% of the administered fluid volume) of bronchoalveolar lavage (BAL) fluid before bronchoscopy and to assess the impact of using non-invasive mechanical ventilation (NMV) or continuous positive airway pressure (CPAP) to achieve diagnostic recovery in patients with chronic obstructive pulmonary disease (COPD) and interstinal lungs disease for whom BAL performed during ordinary bronchoscopy turns out to be non-diagnostic.
This cohort study aims to use the open-source RADAR-base mHealth platform to collect and analyze datasets associated with lung disease. This will include continuous data collected from wearable devices (e.g. heart rate, oxygen saturation, respiratory rate), including pulse oximeters, spirometer, mobile phones, digital tests, and smart phone symptom questionnaires.
The interstitial lung diseases (ILD) are a heterogenous group of conditions with varying degrees of inflammation and scarring (fibrosis) of the lungs. ILD progression is unpredictable, making prognostication challenging. A proportion of patients will develop inexorably progressive disease termed progressive fibrosing ILD (PF-ILD). Forced vital capacity (FVC), a lung function variable, is routinely used to monitor disease progression. However FVC can be a poor disease marker as it can be influenced by patient effort and can be difficult to perform. High resolution computed tomography (HRCT) is a necessary investigation for suspected fibrotic-ILD, making it a promising tool for research. A quantitative-CT (qCT) approach uses computer software to analyse HRCT scans and has advantage over visual radiologist assessments which are limited by inter/intra-observer variance. The investigators will undertake a feasibility study to determine whether baseline and longitudinal qCT can predict and quantify disease progression in fibrotic-ILD. The endothelial glycocalyx (EG) is a mesh-like layer that lines the small blood vessels. Injury to this layer has been implicated in non-thoracic fibrotic diseases. Telomeres are repetitive genetic sequences which cap chromosomes preventing their damage during cell replication. Prematurely shortened leucocyte telomere lengths (LTL) have been demonstrated in a wide range of ILDs. We will evaluate role of measuring EG health and LTL in disease prognostication. Adult participants with fibrotic-ILD from 3 centres in England will be recruited alongside healthy controls. Case (disease) participants will undergo investigations at 0, 6 and 12 months from recruitment including: - HRCT with quantitative analysis (qCT) - Lung function testing - EG and LTL measurement - Health related quality of life assessments The primary outcome will assess the correlation of disease progression status measured by standard of care (FVC) with baseline qCT and EG assessment. Healthy controls will only undergo EG assessment at all time points. Feasibility outcomes will be assessed including recruitment, consent and attrition rates. The results will inform a subsequent multi-centre study to assess the clinical benefit of disease monitoring with the measures assessed in this study.
This is an Expanded Access Program (EAP) for eligible participants with Pulmonary Hypertension associated with Interstitial Lung Disease (PH-ILD) designed to provide access to Inhaled Treprostinil. Availability will depend on territory elegibility.
The purpose of this research study is to find out more about the drug treprostinil via inhaler and the mechanisms of why patients with pulmonary arterial hypertension related to Interstitial Lung disease (PAH-ILD) have limitations during exercise. The investigator is studying treprostinil's effect on patients with PAH-ILD during exercise and its effect on their quality of life after using it for 3 months.