View clinical trials related to Respiratory Tract Diseases.
Filter by:This is a Phase IIb, randomized, controlled, observer-blinded, clinical trial to evaluate safety and immunogenicity of COVID-19 Vaccine HIPRA in adult healthy volunteers in Vietnam
The COVID-19 pandemic caused by SARS-CoV-2 since December 2019 has caused more than 210 million cases worldwide as of September 1, 2021. New Caledonia (NC) is an ultramarine French territory in the South Pacific so far relatively spared by this pandemic thanks to the establishment of a health lock. The vaccination campaign started locally on 20/01/2021 with the exclusive use of Pfizer's COMIRNATY mRNA vaccine. Vaccination is now offered to anyone over the age of 12. Vaccination against COVID-19 will be mandatory in New Caledonia as of October 31, 2021 for certain exposed populations and for the entire adult population as of December 31, 2021. Clinical trials of COVID-19 vaccines, including those of mRNA vaccines, have taken care to maintain ethnic diversity within their samples. Efficacy studies have not shown a significant difference in the efficacy of Pfizer COMIRNATY vaccine in white, black American, or Hispanic populations. The response of non-European non-Asian Oceanian populations to Pfizer COMIRNATY vaccination has not been specifically studied at this time. According to the 2019 census in New Caledonia, 41.2% of the population identified themselves as Kanak (Melanesian), 24% as European, 8.3% as Wallisian-Futunian (Polynesian), 11% as mestizo, and 8% as belonging to other communities including Tahitian (Polynesian), Indonesian, Ni-Vanuatu (Melanesian), and Vietnamese communities (8). Some recent data are in favor of a significant variability of susceptibility to pathogens in Oceanian populations, stemming from a genetic inheritance from Neanderthal man and his cousin Denisova man. In a context of vaccine hesitancy, it is therefore important to ensure that the immune response of the New Caledonian population (Melanesian, Polynesian, European or other communities) to vaccination against COVID-19 is similar to that of populations studied in large clinical trials.
The need for multiple night testing is well recognized in sleep medicine because of a considerable and relevant night-to-night variability. In a study with multiple recordings using WatchPAT®, the OSA severity of 24% of patients was misclassified when using one night compared to the average of three nights. On average, pAHI varied by 57% from night-to-night. The variability of pAHI could partially be explained by the variability of time spent in the supine position with more time supine leading to a higher pAHI (Tschopp et al 2021). Smith (2007) suggested that the AHI should be indicated with a confidence interval to indicate the uncertainty regarding its true value. The Minimal Detectable Difference (MDD) is of special interest in sleep medicine, especially when assessing treatment effects. MDD was found to be 12.8/h and the standard error of measurement was 4.6/h for 4 nights of polysomnography (Aarab et al. 2008). For WatchPAT®, measuring two and three nights showed a small reduction in MDD from 19.1/h to 18.0/h (Tschopp et al. 2021, in press). Only one study using pulse oximetry assessed the night-to-night variability over 14 days (Stöberl A. et al 2017). The study confirmed the enormous variability and focused mainly on its impact on OSA severity. While the night-to-night variability has been extensively studied for polysomnography, respiratory polygraphy, and WatchPAT®, little is known about the optimal number of nights to be recorded. There is convincing evidence from the literature, that the recording of multiple nights is the only way to assess the severity of the patient's disease with clinically reasonable accuracy. Moreover, the MDD with only one night's recording is astonishingly high. The question is how many nights should be recorded to achieve acceptable diagnostic accuracy. The precision of the OSA measurement depends on the clinical situation. For example, to diagnose severe OSA, a higher variability might be acceptable without influencing the treatment decision. However, when comparing treatment effects, the MDD should be as small as possible. The recording of multiple nights might be cumbersome for patients (e.g. with polysomnography or respiratory polygraphy) as well as costly. These factors have to be taken into consideration for the clinically feasible number of recordings. Sleepiz One Connect offers the unique opportunity for a contactless recording of breathing combined with conventional pulse oximetry and is a minimally invasive diagnostic tool that allows measurements over several nights. Studies with multiple night recordings will offer a basis for diagnostic recommendations in future guidelines. The study aims to investigate the variability of obstructive sleep apnea at-home sleep apnea testing. By investigating the variability, we want to quantify the improvement in diagnostic accuracy by additional measurements. The hypothesis is that additional recordings offer a significant improvement in diagnostic accuracy by reducing the variability. The reduction in variability will diminish with each additional recording.
The COVID-19 pandemic is a novel medical challenge, particularly because of the systemic nature of this disease. Indeed, COVID-19 affects several organs and systems at once. The brain is affected in several ways: direct infection of nerve cells by SARS-CoV-2, inflammation of the central nervous system, severe systemic inflammation damaging nerve cells, global cerebral ischaemia related to respiratory failure, thromboembolic events related to increased intravascular coagulation and severe psychological stress. As a result, COVID-19 sometimes manifests as neurological and neuropsychiatric symptoms such as dizziness, sleep disturbances, cognitive deficits, delirium, or severe depression. Sudden loss of smell is a common symptom associated with COVID-19 and SARS-CoV-2 infection of neurons in the olfactory system has been reported in both hamsters and humans. The vast majority of COVID-19 patients recover their olfactory function within a few weeks. However, a significant minority of infected individuals (1 in 5 cases) still suffers from olfactory disorders (anosmia, hyposmia and/or parosmia) several months after the primary infection. These olfactory disorders are frequently associated with depressive behaviour and cognitive complaints. In PET scans, it is even possible to correlate this cognitive dysfunction with hypometabolism of certain brain regions, including the olfactory gyrus. This project proposes, during one year, to evaluate and follow the evolution of the olfactory capacities of patients suffering from persistent smell disorder since one year (+/- 4 months) following COVID-19. The issue is to study the link between viral persistence in the olfactory sensory organ, chronic inflammation, and central damage to the olfactory system. The follow-up of the evolution of olfactory and neurocognitive capacities, in an integrative way by means of molecular, physiological and behavioural approaches, will inform us on the specificities of "COVID-long" and on the level of peripheral and/or central damage of the olfactory system.
Some components of the diet could promote the growth of certain bacterial strains present in the intestine, which are closely associated with benefits for host health. An intestinal commensal Parabacteroides goldsteinii (Pg) was highlighted to be significantly negatively associated with severity of COPD. Furthermore, the investigators identify the potential prebiotics (PHGG) which may enrich the abundance of P. goldsteinii and increase the probiotic effect of P. goldsteinii. The investigators designed a randomized control study, which enroll adults diagnosed with COPD. Then the two groups will receive PHGG or not. Stool samples will be collected. The ameliorative efficacy will be evaluated by questionnaire and lung function test. Intestinal microbiota and metabolome will be analyzed and the correlation with lung function indices will be further investigated.
This is a prospective, observational cohort registry that aims to collect data on pulmonary structure and function in healthy people and those with respiratory disease, using structural and functional pulmonary 1H-MRI and hyperpolarized 129Xe-MRI. Outcome measures generated from MRI may include but are not limited to measures of regional ventilation, pulmonary microarchitecture, and regional gas exchange. Additionally, one of the goals of the registry is to facilitate the development of novel image analysis techniques that have not yet been invented. These data will be stored along with demographic data, clinical data, and pulmonary function testing (PFT) data. This is an open registry. Eligible local and international investigators/institutions can apply for access.
The protocol, in accordance with the objectives of ORCHESTRA project - Work Package 2, aims at investigating the characteristics and determinants of COVID-19 long-term sequelae. This goal will be reached through the harmonization of follow-up strategies across the participating cohorts to allow a standardized collection of data on COVID-19 long-term sequelae. The result will be a platform including a set of data and biomaterials from large scale international cohorts, that will be uniformly recorded, prospectively tracked and analysed. The ultimate goal will be that of providing evidence to contribute to the optimization and improvement of the management and prevention of COVID-19 sequelae. The follow-up will be organized in multiple levels of tests, according to the capability of each cohort, and will include questionnaires to collect demographic, epidemiological and clinical data, physical examination, radiological exams and biological sampling. The long-term follow-up will also allow the assessment of long-term immunological response to SARS-CoV-2 infection and its association to the vaccination and to different treatment strategies, including monoclonal antibodies.
This observational study aim to characterise patients admitted to hospital with an acute respiratory condition, or acute worsening of their chronic lung condition. This will enable identification of predictors of future risk, as well as develop potential interventions targets.
This study is designed to test the efficacy and safety of combinations of two well-understood agents - famotidine and celecoxib in patients hospitalized with moderate-to-severe COVID-19 (based on World Health Organization [WHO] Ordinal Scale for Clinical Improvement). Both famotidine and celecoxib separately demonstrate clinical activity in mitigating COVID-19 disease symptoms or severity, and appear to have separate and complementary mechanisms of action.
Non-Invasive Positive Pressure Ventilation (NIPPV) provides un-synchronized positive pressure and considered to be superior to nCPAP in preventing extubation failure. Recently, Non-Invasive Ventilation Neurally-Adjusted Ventilatory Assist (NIV-NAVA) was introduced to NICU. NAVA is a ventilation mode that uses the electrical activity of the patient's diaphragm (Edi-signal) to guide both timing and magnitude of the support. However, it is unknown whether NIV-NAVA is superior to NIPPV in preventing extubation failure and preventing BPD. Hence, the investigators aim to compare the effect of NIPPV and NIV-NAVA on diaphragm function in premature infants with RDS or evolving BPD. Our hypothesis is that infants treated with NIV-NAVA will have improved diaphragmatic function and lung scoring.