View clinical trials related to Respiratory Disease.
Filter by:Use of caffeine citrate in late-preterm infants with respiratory distress is questionable. Oliphant and colleagues found in a recently published study that caffeine therapy use in late-preterm infants at a loading dose of 20 and 40 mg/kg and maintenance dose of 10 and 20 mg/kg/day reduces the incidence of intermittent hypoxia events by 61 and 67% respectively. The investigators hypothesized that caffeine will improve respiratory drive, prevent apnea, shorten the hospital stay and improve arousal state in late preterm infants. The investigators aim to study the effect of caffeine citrate on late preterm babies as regard duration of respiratory support, duration of hospital stay, respiratory morbidity, incidence and frequency of apnea.
A major obstacle in precision medicine is the unavailability of biomarkers that are easy to access, non-invasive, measurable with high-performance techniques, fast, easy to use, reproducible, inexpensive and easily deployable on a large scale. The analysis of exhaled air (volatolomics) is an "omics" approach devoted to the analysis of volatile organic compounds (VOCs) eliminated by the pulmonary route with real-time detection, at the patient's bedside. The reference technology for the analysis of VOCs is mass spectrometry (MS). Several types of mass spectrometers can be used, and, in the absence of a consensual and standardized method, have practical methods for carrying out different analyzes which also lead to the generation of specific signals whose nature, complexity and exhaustiveness of information generated are heterogeneous. The clinical studies carried out to date use one of the analytical techniques available, without the choice necessarily being guided by objective factors. The objective of this study is to fill this gap and compare the information obtained by three mass spectrometry techniques available to our team (proton transfer reaction - mass spectrometry (PTR-MS), Soft Ionization by Chemical Reaction in Transfer (SICRIT) , two-dimensional gas chromatography-mass spectrometry (GCxGC-MS)) for volatolome analysis. The comparative analysis of the different signals will make it possible to determine the interests and limits of each technique and thus to direct preferentially towards one, the other, or combinations of them for the realization of future clinical studies. One of the main challenges also consists in establishing the concordance of the signals generated by the different technological approaches, some employing prior chromatographic separation, others not, and some employing soft ionization methods while those of others are on the contrary hard. Thus, the availability of datasets obtained on the same population with these complementary approaches will allow significant progress for the identification of the COVs of interest in clinical studies, beyond the simple comparison of the analytical performances of the different methods.
Aims of the study: 1. To deliver a scalable wellbeing programme to the local population of Imperial College Healthcare NHS Trust, focusing on movement. 2. To describe the natural history of long-term conditions using digital data from a smartwatch. 3. To identify digital information that is routinely collected by a smart watch that can be used to predict outcomes in patients with long term conditions. 4. To identify factors that determine whether participants engage with and improve in a movement programme. Adult patients who are registered to the Imperial NHS Care Information Exchange (CIE), an NHS patient-facing electronic health record, are eligible to participate in the study. Participants will receive a smart watch for self-monitoring of their movement and wellbeing and be asked to wear the device as much as possible. They will be asked to download a smartphone application called Connected Life, which displays movement and information on heart rate, breathing and oxygen levels to both the participant and the research team (digital data). Participants will receive secure login details for the Connected Life application from the research team, to ensure data privacy. The research team will look at participants' health records, and attempt to identify associations between the digital data and clinical information. This will allow the research team to identify digital data that predicts the onset and natural history of long term conditions, which may potentially allow for earlier diagnosis for future patients. The primary outcome of the study is the identification of trends in movement based on step-count data recorded by the smartwatch.
The goal of this randomized controlled trial is to evaluate the impacts of an attachment-based intervention (Attachment Biobehavioral Catch-Up (ABC) and Home Book-of-the-Week (HBOW) program on emerging health outcomes (i.e., common childhood illnesses, body mass index, and sleep) in low-income Latino children (N=260; 9 months at enrollment). It is hypothesized that children randomized to ABC will have better health outcomes in comparison to the HBOW control group.
Premature infants are susceptible to complications related to infrequent and non-standardized oral care. Although the benefits of frequent standardized oral care are known to reduce oral dysbiosis (increased level of potentially pathogenic bacteria) and its associated complications in critically ill adults leading to established evidence-based guidelines, no such information exists for VLBW infants. The proposed study will prospectively follow 168 VLBW infants for 4 weeks following birth.
Vapendavir (VPV) is potent virostatic antiviral agent active against all known enterovirus species. VPV binds to the viral capsid, thereby inhibiting viral attachment to the target cell and, independently, preventing release of viral RNA (ribonucleic acid) into the cell. Alt VPV-101 is meant to investigate vapendavir in patients with chronic obstructive pulmonary disease (COPD) who develop a rhinoviral infection. This is a Phase 1, open-label, unblinded study. The primary objective of this study is to characterize single and multiple dose (plus a loading dose) plasma PK profiles of VPV in healthy participants (Group A) and participants with COPD (Group B). Group A is an open-label, 2-sequence, and up to a 3-period, cross-over study to assess the single-dose PK parameters and safety of VPV. Healthy participants may opt to participate in only the first 2 periods, all 3 periods or BID dosing, but it is preferred that participants complete all 3 periods. Group B is an open-label, multi-dose investigation of VPV PK parameters and safety in participants with COPD. Post-dose, follow up will continue for a minimum of 14 days and a maximum of 30 days, depending on which Group the participant is in and which periods said participant completes. There is a target for up to 24 adult participants comprised of healthy participants and participants with COPD.
The goal of this randomized clinical trial is to investigate the optimal supportive treatment of bronchiolitis in infants from 0-12 months of age. The main question[s] it aims to answer are: - To investigate whether isotonic saline should be used as supportive treatment for children with bronchiolitis, and if so, identify the optimal route of administration. The primary outcome is duration of hospitalization. - To investigate the current epidemiology of the viral pathogens causing bronchitis in children in Denmark, and to assess whether children infected with specific pathogens might benefit from treatment with isotonic saline. The children are randomized after inclusion through computer randomization to one of the 3 arms in the study: 1. Nebulized isotonic saline 2. Nasal irrigation with isotonic saline 3. No treatment with saline The investigators will compare treatment with saline (both methods) with no treatment, and the investigators will also compare the two methods of delivery of saline (nebulized vs. nasal irrigation).
Pulmonary rehabilitation is an exercise and education programme that helps improve breathlessness and quality of life for people living with lung and breathing problems. It improves exercise levels and breathlessness and is a recommended treatment for people with lung diseases and symptoms. Standard pulmonary rehabilitation programmes involve individuals attending group classes at hospitals or community centres, twice a week for 8 weeks. These classes are supervised by physiotherapists. At the moment, there are long waiting times for pulmonary rehabilitation in the NHS. Some patients may prefer more pulmonary rehabilitation based in their own home. This might be because they find it difficult to travel to classes. Some would like to do more home pulmonary rehabilitation in between supervised classes or continue pulmonary rehabilitation after the 8-week supervised programme. The blending between supervised classes and home pulmonary rehabilitation is known as HYBRID PULMONARY REHABILITATION. Hybrid pulmonary rehabilitation is not being provided routinely in the NHS, but the NHS would like to see it used more as it might help reduce waiting times and give patients more choice on how to access pulmonary rehabilitation. The study will assess the feasibility of a larger study to provide strong evidence on patients' uptake and adherence to the hybrid programme, and the impact on patients' health outcomes and service delivery. The investigators will also look at what measures would be best to use in a larger study. The study will recruit up to 100 patients. These individuals will be aged 18 years or older, have respiratory disease and a referral for pulmonary rehabilitation. Individuals with reasons why they cannot exercise will be excluded. Participants will be provided with an application (App) that can be installed on a mobile phone. This App is called Active+me REMOTE and is made by a company called Aseptika Ltd (www.activ8rlives.com). Active+me REMOTE provides live online, video exercise classes; pre-recorded exercise classes; a walking programme; educational talks; and a care plan personalised for the user. Data will be collected at the beginning and end of the hybrid pulmonary rehabilitation programme and will include routinely collected data as part of usual care. Additional data will be collected via the App and trial surveys. The investigators will ask staff and patients about the experiences of the new way of delivering rehabilitation and explore how cost effective it is.
A prospective basic science study for collection of training and testing data for development of Lifelight® Junior
Rigid bronchoscopy usually requires deep general anesthesia, but the duration of the procedure is relatively short. Remimazolam, a recently developed anesthetics, showed faster recovery from anesthesia and stable hemodynamics compared to propofol, the most popular anesthetics. However, few studies have investigated the usefulness of remimazolam for rigid bronchoscopy. Therefore, the investigators compared the usefulness of propofol and remimazolam in total intravenous anesthesia for rigid bronchoscopy.