Home Testing of Respiratory Illness
Influenza -Like IllnessInfluenza A3 moreThe main goal of this research study is to use data from activity trackers (such as Fitbits), lab tests, and surveys to see if activity, sleep, and heart rate data can tell the difference between when someone has a respiratory illness (e.g., flu) and when they are feeling healthy. The research will also study an investigational flu@home test and app. If successful, results from the study could be used in the future to better identify people with respiratory illness. In addition, this study will test the accuracy of an at-home flu test kit compared to laboratory test results.
In Situ Simulation Training in Transferring Critically Ill COVID-19 Patients
Simulation of Physical IllnessCOVID-19 Respiratory InfectionThis study aimed to determine the role of in situ simulation training during a pandemic by using standard and high-fidelity mannequins to improve interprofessional communication, skills, and teamwork in transferring critically ill COVID-19 patients.
Profiling Recovery of Those Discharged Into the Community With COVID-19
InfectionsRespiratory3 moreCurrently, there are few studies that have been established that consist of a variety of established and coherent approaches that sought to profile the determinants of recovery, nor used interrogative procedures to understand lasting physical impairment. In this context, measurements obtained from an assessment of cardio-respiratory responses to physiological stress could provide an important insight regarding the integrity of the pulmonary-vascular interface and characterisation of any impairment or abnormal cardio-respiratory function [4]. Indeed, current approaches are being developed to support patients using previous knowledge from other acute respiratory infections (e.g. Acute Respiratory Distress Syndrome; ARDS and Middle Eastern Respiratory Syndrome; MERS), approaches that do not consider the novel challenges presented by COVID-19. The knowledge obtained from the proposed research plan will inform the development of COVID-19 specific rehabilitation and clinical management guidelines which can be implemented globally to increase patient wellbeing, physical capacity, and functional status which will be directly related national and international health and wellbeing, economical and societal impacts.
Using Telemedicine to Optimize Teamwork and Infection Control of Critical and Highly-infectious...
Critical IllnessInfections4 moreSince 2000, various emerging infectious diseases have repeatedly caused serious impact on the health of the global population and the healthcare systems. With the growing international transportation and improving accessibility of the healthcare systems, hospitals have been inevitably the first sentinels dealing with emerging infectious diseases. The biological disasters, such as the Severe Acute Respiratory Syndrome (SARS) in 2003, the Middle East Respiratory Syndrome (MERS) outbreak in South Korean in 2015, and the Coronavirus disease 2019 (COVID-19) outbreak this year, challenged our vulnerable healthcare systems and caused great loss of lives. Regarding the ongoing global epidemics and possible community outbreaks of the COVID-19, the management of biological disasters for an overcrowded emergency department should be planned. In the early 2020, the emergency department used a double-triage and telemedicine method to treat non-critical patient with suspected COVID-19. This application reduced the exposure time of the first responders and reserve adequate interview quality. However, for the critical patients treated in the isolated resuscitation rooms, the unique environment limited the teamwork and communication for the resuscitation team. These factors might led to poorer quality of critical care. The investigators designed a telemedicine-teamwork model, which connected the isolation room, prepare room and nursing station by an video-conferencing system in the emergency department. This model try to break the barriers of space between the rooms and facilitate the teamwork communications between each unit. Besides, by providing a more efficient workflow, this model could lower the total exposure time for all workers in the contaminated area. This study was conducted to evaluate the benefits of the telemedicine-teamwork model and provide a practical, safe and effective alternative to critical care of the patients with suspected highly infectious diseases.
Effects of Body Position on Diaphragmatic Activity in Patients Requiring Noninvasive Ventilation...
Noninvasive VentlationCOVID-19 Respiratory Infection1 moreThe present investigation aims to assess the diaphragmatic thickening fraction, reflecting the diaphragmatic activity, during supine (baseline) and at 1 hour following prone position in patients assisted through non invasive ventilation due to hypoxemic acute respiratory failure related to COVID-19. Also, the impact of lung aeration and comfort were ascertained in the same setting
Study on Safety and Effectiveness of Ergoferon in the Treatment of Flu / ARVI in Outpatients.
Viral Respiratory InfectionThe observational study to get the additional data of the safety and effectiveness of Ergoferon in the treatment of influenza/ARVI in adult and pediatric outpatients.
Counseling of Pregnant Women During Corona
Respiratory Tract InfectionsCorona virus is known as covid 19 And is transmitted through droplet infection
Study of the Use of the Ingaron in Volunteers for the Prevention of COVID-19
COVID-19 Respiratory InfectionThe main purpose of this study is to evaluate the effectiveness of the prophylactic use of Ingaron (INN: recombinant interferon gamma human, lyophilisate for solution for intranasal administration 100,000 IU) in the regimen of 3 drops in each nasal passage intranasally every other day for 10 days with a break of 7 days (2 10-day cycles) in volunteers.
A Rapid Test for Acute Respiratory Illness
Respiratory Tract Infection AcuteTranscriptome2 moreThe primary purpose of this study is to support the development of a host response test for acute respiratory illness to identify bacterial, viral or NB/NV etiologies as compared to a clinical adjudication reference standard. Secondary objectives include: Evaluate the effect of age on the performance of the HR-ARI test Evaluate the effect of race/ethnicity on the performance of the HR-ARI test Evaluate the effect of geography on the performance of the HR-ARI test
Microdosing of BAC ONE to the Distal Lung
Bacterial Respiratory InfectionsCritically ill patients are often ventilated in dedicated critical care units to provide respiratory support. Despite best practice patients can often develop a condition called adult respiratory distress syndrome (ARDS), which is characterised by deterioration in their respiratory function, and changes on chest x-ray. The correct management for ARDS is identifying the underlying condition causing the deterioration and identifying appropriate targeted therapy. One such cause is pneumonia, caused by a bacterial infection in the lungs of a ventilated patient. The patients may have been ventilated due to pneumonia but they may also develop pneumonia whilst ventilated. Ventilator associated pneumonia (VAP) has significant mortality. Despite all the clinical and laboratory data at the investigators' disposal there remains great difficulty in the accurate diagnosis of pneumonia and therefore treatment is often given empirically. Therefore, there is an urgent clinical need for accurate methods to diagnose the presence of bacteria deep in the lung in ventilated critically ill patients. As such, the investigating team have developed and synthesised an imaging agent called BAC ONE. BAC ONE will be instilled directly into the lungs of 12 patients (with and without lung infection) to assess whether it can label bacteria in the human lung.