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Respiratory Tract Diseases clinical trials

View clinical trials related to Respiratory Tract Diseases.

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NCT ID: NCT06321471 Not yet recruiting - Asthma Clinical Trials

AeviceMD for Pediatric Asthma Management

APAM
Start date: March 2024
Phase: N/A
Study type: Interventional

A wearable remote patient monitor (AeviceMD) is to be used to monitor the respiratory health of pediatric asthma patients in this pilot study. Patients prescribed with AeviceMD should be able to gain better control over their disease during home management. Physicians should be able to optimize treatment for these patients using objective data collected from and of these patients outside of the clinic. The AeviceMD should also be used as a remote auscultation device for teleconsultations.

NCT ID: NCT06315374 Not yet recruiting - Clinical trials for Chronic Pulmonary Disease

3D-Printed Aerosolized Medication Delivery Assist Device in Patients With Chronic Respiratory Diseases

Start date: March 30, 2024
Phase: N/A
Study type: Interventional

The purpose of this study is to investigate the auxiliary benefits of three-dimensional printed activating assistive devices for soft-mist inhaler on patients' utilization habit.

NCT ID: NCT06314451 Recruiting - Respiratory Disease Clinical Trials

Cross-condition Validation of the Steroid PRO

Start date: June 1, 2022
Phase:
Study type: Observational

Testing a questionnaire about treatment with steroids for skin, lung or gastric conditions

NCT ID: NCT06310629 Recruiting - Respiratory Failure Clinical Trials

Oxygenation Efficacy of "Intrinseque Health" Non-Rebreathing Mask ("IHNRM")

Start date: February 22, 2024
Phase: N/A
Study type: Interventional

Based on early bench-testing data and subsequent clinical case studies in the U.S., "Intrinseque Health" non-rebreathing mask (IHNRM) has delivered virtual elimination of air entrainment and preferential delivery of all available oxygen first into the alveolar spaces by sequential opening of valves in its controller manifold, even at oxygen flow as low as 10 LPM, patient can attain high alveolar oxygen concentration of 75% or more-far higher than attainable with face mask or nasal cannula. Numerous intubated patients emerging from the operating room require intensive critical care specialist supervision in order to transition to the regular care. This would enable higher patient turnover and more efficient utilization of hospital resources, if patient can be transited to the regular care earlier by using a device that supports high oxygenation. This will enable a faster, safe and smooth extubation in critical care, and earlier discharge from intensive care ward. This study is anticipated to take only around 2.5 hour per patient to complete. Patients meeting the inclusion and exclusion criteria of this study are placed on IHNRM and monitored until steady state of SpO2 of 95% or higher on 7-10 LPM has been maintained for at least 2 hours, when they can be discharged from the post-anesthesia care unit (PACU) to the regular care ward. The study is the parallel design study. 60 patients will be randomly selected to use the IHNRM, and 30 subjects will be placed on HFNC. Blood oxygen concentration (SpO2), respiratory rate, end tidal CO2 concentration (EtCO2), and vital sign will be recorded in the study. The endpoint of the study is to compare the effect after using between "IHNRM" and HFNC.

NCT ID: NCT06308926 Not yet recruiting - Clinical trials for Acute Respiratory Distress Syndrome

MRG-001 as an Immunoregulatory and Regenerative Therapy for ARDS Patients

SUMMIT
Start date: July 1, 2024
Phase: Phase 2
Study type: Interventional

This is a phase IIa, dose-ranging, proof-of-concept study of MRG-001 in patients with ARDS. The aim is to determine the safety and preliminary efficacy of MRG-001 across two dose ranges.

NCT ID: NCT06297005 Recruiting - Pregnancy Related Clinical Trials

The Impact of E-cigarettes During Pregnancy on Childhood Health Outcomes Study

ECHO
Start date: October 9, 2023
Phase:
Study type: Observational

Tobacco smoking in pregnancy is now widely accepted as having adverse health outcomes for both the mother and fetus. Tobacco smoking in pregnancy is associated with increased incidence of miscarriage, stillbirth and preterm birth as well as low birthweight, respiratory infections, wheeze and asthma in childhood. E-cigarettes are a popular method for trying to quit smoking in Ireland and there has been an explosion in the use of e-cigarettes over the past ten years. However, there is currently insufficient evidence on their long-term safety and effectiveness as a smoking cessation tool. E-cigarettes contain varying combinations of compounds and flavours which are used differently in different e-cigarette types, with unknown long-term effects. Research has shown that pregnant women perceive e-cigarettes to be a healthier option when compared with tobacco smoking. But, there is very little known about the long-term health impact of exposure of unborn babies to e-cigarettes during pregnancy. The ECHO study will determine what the long-term health outcomes are in children born to mothers who use e-cigarettes during pregnancy. Specifically, we will focus on birth, nutritional, brain development and respiratory outcomes in children. To answer this research question, the ECHO study will recruit infants born to women who use e-cigarettes during pregnancy across three maternity hospitals and follow them up over 2 years. We will invite women at their booking visit to take part in this research study. We plan to also recruit a similar number of both non-smoking and tobacco smoking pregnant women for comparison. We will record a detailed record of e-cigarette and tobacco use by women during pregnancy as well as checking smoking using special monitoring tools. After the baby is born, we will perform growth measurements, neurocognitive assessments and a respiratory questionnaire at 6 months, one year and two years of age.

NCT ID: NCT06295900 Recruiting - Diabetes Mellitus Clinical Trials

The Effect of Aromatherapy Massage on Sleep Quality

Start date: January 5, 2024
Phase: N/A
Study type: Interventional

Sleep disturbance is one of the most common complaints of patients admitted to ICU. Insufficient sleep in intensive care units may be associated with environmental reasons such as excessive light at night, loud warning sounds and mechanical ventilation alarms, as well as non-environmental factors, including the situation at the time of admission. Sleep assessment is subjective in nature, so it is difficult to perform in the ICU. Since communication with the patient is prevented, clear information about perceived rest and disturbing factors cannot be provided. For this reason, night rest is an issue that is often forgotten and ignored. This study applied a mixture of lavender, medicinal chamomile and neroli oil (in 20 ml of sweet almond oil; lavender oil 2 drops, medicinal chamomile 4 drops, neroli oil 6 drops) to patients who were monitored in intensive care on high-flow and oxygen, once a day for three days. This study will be conducted to determine the effect of aromatherapy massage applied for a total of 30 minutes on sleep quality.

NCT ID: NCT06292338 Not yet recruiting - Clinical trials for Neonatal Respiratory Distress

Lung Sonar in Neonatal Respiratory Disorders

Start date: May 1, 2024
Phase:
Study type: Observational

This study aimed to determine the value of chest ultrasonography in comparison to other tools as chest x-ray and ABG in diagnosis and follow up of neonates with respiratory disorders.

NCT ID: NCT06291584 Recruiting - Sedentary Behavior Clinical Trials

Effects of Exercises on Functional Capacity

Start date: October 1, 2023
Phase: N/A
Study type: Interventional

In this study, the researchers aim to investigate the effects of strengthening and respiratory exercises on the face and online on functional capacity.

NCT ID: NCT06271213 Recruiting - Healthy Clinical Trials

The Gut-Lung Axis and Respiratory Illness in Children

Start date: February 4, 2024
Phase:
Study type: Observational

The goal of this single-centre observational study conducted at the Royal Hospital for Children in Glasgow, Scotland, is to employ a multi-omics approach to investigate the "gut-lung axis" in health and disease. Part A is a cross-sectional study design investigating the postulated bidirectional link between the gut and lung microbiomes in children suffering from respiratory or gastrointestinal conditions. Children with no GI or respiratory issues attending for orthopaedic care will be used as a benchmark for a healthy gut-lung axis. The main questions we aim to answer are: - What does a healthy gut-lung axis look like? - Do children with respiratory issues show an altered gut microbiome? - Do children with GI issues show an altered lung microbiome? Part B is a longitudinal study design, that aims to assess the effects of biologics on the gut-lung axis by comparing the gut and lung microbiomes in children with asthma at two time-points who are indicated to start biologics therapy (Asthma treatment) or will not receive biologics therapy (asthma control). Participants will provide: - airway samples (to investigate the lung microbiome) - blood samples (to assess inflammatory and metabolic factors which may mediate communication between the two sites) whilst under general anaesthetic for a treatment related to their standard of care - stool samples (to assess gut microbiome) - dietary information (food diary and/or food frequency questionnaire) to assess relationships between diet and the gut-lung axis.