View clinical trials related to Lung Diseases.
Filter by:The main goal of this prospective non-interventional exploratory study is to characterize the tumor micro-environment of advanced NSCLC in single-cell resolution, prior to immune checkpoint blockade exposure, and correlate the findings to clinical outcome. This approach will allow to generate new hypotheses regarding mechanism of action of ICI and (primary) resistance mechanisms. The long-term goal is that these novel mechanistic insights will be translated to a clinical setting to develop better biomarkers of ICI efficacy. Importantly, since the investigators will also sequentially profile the immune composition of peripheral blood, this research offers an opportunity to develop circulating (non-invasive) biomarkers. A second aim is to characterize the immune cell composition of bronchoalveolar lavage (BAL) fluid from these ICI-treated cancer patients if they would develop ICI-pneumonitis. These mechanistic insights can directly lead to putative diagnostic biomarkers and therpeutic targets. Since single-cell profiling of blood samples will also be performed, circulating biomarkers of ICI toxicity can also be identified, making non-invasive diagnosis feasible.
Up to a third of patients who recovered from SARS coronavirus (SARS-CoV) had a 20% decline in lung function with a long term reduction in exercise capacity and SF-36 health status a year after infection. Similar outcomes are now being reported in COVID-19 patients, with interstitial lung disease (fibrosis) and long term lung function decline being a common feature. Anti-fibrotic monocytes/macrophages are important for the clearance of partially degraded collagen fragments of fibrotic extracellular matrix, in particular fibrillary-type collagen. MON002 is an autologous monocyte product, cultured in vitro prior to intravenous delivery into patients with post-COVID-19 lung fibrosis.
Interstitial lung disease (ILD) is a restrictive lung disease characterized by impaired lung function, exercise limitation and skeletal muscle dysfunction. There is limited data on skeletal muscle function in ILD, most of which are focused on the lower limb muscles. The aim of this study were to evaluated the change of pectoralis muscle strength and relationship of pulmonary function with pectoralis muscle strength.
The primary objective of this study is to investigate if using Hospital Fit 2.0 as part of the usual care physiotherapy treatment of patients hospitalised at the department of Internal Medicine and the department of Pulmonology in MUMC+ will result in an increase in the amount of PA performed compared to patients who do not use Hospital Fit 2.0 as part of the physiotherapy treatment.
Since the beginning of the pandemic caused by SARC-CoV 2, more than 81 million cases have been diagnosed and caused around 1,7 million deaths. Currently, a drug is being sought for the treatment of coronavirus. The worldwide effort to create an effective and safe COVID-19 vaccine is beginning to yield results. Several vaccines now have been authorized around the globe; many more remain in development. Nonetheless, in the absence of effective pharmacological treatment and given the virus's transmission capacity, different alternatives have been proposed to stop the transmission of the virus. Therefore, these preventive measures against transmission are expected to remain in force for some time. The transmission of the virus occurs from person-to-person; different studies conclude that transmission occurs by aerosols from respiratory droplets. The optimal distance between people to stop person-to-person transmission is uncertain. For this reason and given that there is no effective drug, transmission prevention is of great importance especially for pandemic mitigation in community settings. The World Health Organization (WHO) established simple precautions to prevent the spread of the virus such as physical distancing, wearing a mask, keeping rooms well ventilated, avoiding crowds, cleaning your hands, and coughing into a bent elbow or tissue. For this reason, the use of the mask has been proposed in several countries, being mandatory in many of them, for use in the health environment and daily use. The WHO recommends different types of masks depending on the person, where it will be used, or the population incidence in the area. Wearing a medical /surgical mask is recommended for people over 60, those who have underlying medical conditions, feel unwell, and/or look after an ill family member. For health workers, respirator masks (such as FFP2, FFP3, N95, N99) should be used in settings where procedures are generating aerosols. The use of a mask could imply an inspiratory and expiratory restraint and generate a feeling of discomfort in many people. It is responsible for an increase in the inspiratory and expiratory pressures generated. This feeling of discomfort and the increment of pressures causes shallow and forced breathing and increases the respiratory accessory musculature activation. Person et al. observed that the subjects who used a mask felt dyspnea clinically and significantly higher than those who did not use it. However, to our knowledge, no study has analyzed the parameters of physical effort, respiratory parameters, self-perceived dyspnea, and muscle activation using different types of masks in healthy subjects. For this reason, the present study hypothesis is that there are no changes between wearing and not-wearing a mask (surgical or N-95) in the effort and ventilatory parameters, even though there may be an increase in the tone of the cervical muscles or the perception of dyspnea using a face mask. This study aims to observe the effect that the surgical mask and the N-95 mask have in the distance walked, in the oxygenometry, in the heart rate, in the sensation of dyspnea, and the tone of the inspiratory accessory muscles during the 6 minutes walking test. Procedure After verifying that the subjects meet the inclusion criteria and sign the consent, they will be given a registration number. An investigator will observe the number in a random list and included the participant in one of the three groups (without a mask, with a surgical mask, and with N95 mask). This researcher will make an initial registration of demographic data (gender, age, weight, height, cardiorespiratory pathology, smoker, number of cigarettes per day, a sport performed, hours of daily sport, and days of sport per week). Before the test, all the subjects will have to remain for 30 minutes without a mask, breathing normally. This phase will be called the resting phase. Subsequently, the subjects will go to the area where the 6MWT will be carried out. Each one of them will be performed the test according to the group to which they will be assigned. An investigator, blinded to the subsequent assessment, will encourage the participants to take the 6MWT according to the recommendations mentioned above. After performing the 6MWT, all subjects will go to the assessment area. All the subjects will wear a surgical mask so that the researcher can not know to which group they have been assigned. Besides, this researcher will not have access to the registration number or the 6-minute walking test area. At the end of each resting phase, SpO2 and baseline HR will be recorded. After every 6MWT, the HR, SpO2, and self-perceived dyspnea will be recorded. The muscle tone will also be assessed with the MyotonPRO in middle scalene and SCM. Subjects will have the option of retaking the test, going through all the phases mentioned above.
A Phase 2, Randomized, Partially-blinded, Parallel Group, Dose-ranging Study to Assess the Pharmacodynamics, Relative Bioavailability, and Safety of Three Doses of Tiotropium Bromide Inhalation Solution in Subjects with Chronic Obstructive Pulmonary Disease
The main goal of this study is to develop a noninvasive signature for pulmonary vascular remodeling in Group 3 PH patients, using hyperpolarized 129Xe magnetic resonance imaging (129Xe MRI). Such a signature may identify Group 3 PH responders to PAH-specific therapies. PAH's unique 129Xe MRI signature has been shown in previous studies. Past studies have lacked a pathologic "ground truth" correlate of these signatures, which could be provided by comparing them with the pathology of lung explant tissue from patients who have undergone a lung transplant. This signature could be validated in a cohort of patients with Group 3 PH in future studies.
Open-label, non-randomized, phase II multi-centre controlled clinical trial. 51 non-resectable stage IIIA-IIIB non-small cell lung cancer patients will be enrolled in this trial to evaluate the efficacy of the treatment (Atezolizumab + Induction chemotherapy (CT) + CT-Radiotherapy) in terms of the Progression Free Survival at 12 months
Lung structural abnormalities are complex, time-consuming, and may lack reproducibility to evaluate visually on CT scans. The study's aim is to perform automated recognition of structural abnormalities in CT scans of patients with chronic lung diseases by using dedicated software.
This is a randomised, placebo-controlled, double-blind 3-way crossover study in which PUR1800, or placebo is dosed daily for 14 consecutive days in adult subjects with stable COPD over three discrete TPs. Subjects will be randomised to one of the following 3 treatment sequences: Sequence Period 1 Period 2 Period 3 1. Placebo PUR1800 250 μg PUR1800 500 μg 2. PUR1800 250 μg Placebo PUR1800 500 μg 3. PUR1800 250 μg PUR1800 500 μg Placebo Since this is the first study in humans in which the iSPERSE formulation is being administered, the 3 treatment sequences are designed in order to ensure that the lower dose of PUR1800 (250 μg) is administered prior to the administration of the higher dose of PUR1800 (500 μg).