View clinical trials related to Respiratory Insufficiency.
Filter by:The goal of this observational study is to estimate the prevalence of the use of protective ventilation with low tidal volume ventilation in the transition of spontaneous ventilation modes in patients with hypoxemic acute respiratory failure in ICUs in Latin America and its association with patient outcomes. The main questions it aims to answer are: - what is the prevalence of the use of low tidal volume ventilation (VT <8 mL/kg of predicted body weight) in the first 24 hours of spontaneous ventilation modes in patients with hypoxemic acute respiratory failure? - Is there an association between the rate of adherence to low tidal volume ventilation in spontaneous ventilation modes and the ability to stay off ventilatory support and mortality? Participants are patients with acute respiratory failure under mechanical ventilation. Investigators will collect data on the ventilatory parameters of participants - 24 hours before they begin to be ventilated with spontaneous modes of ventilation - during the first 24 hours of spontaneous ventilation Investigators will collect several patient-centered clinical outcomes at 28 days after study inclusion, including ventilator-free days and mortality
Mechanical ventilation is essential in the management of patients in Intensive Care. The approach to patients with prolonged weaning is challenging.In this context, it is vital to implement "diaphragmatic protection" strategies, which consist of programming the level of ventilator assistance focused on sustaining the muscular effort within an objective range. The reference method for measuring inspiratory effort is the Pressure-Time Product (PTP) of the esophagus. Recently, Bertoni et al. proposed the measurement of Occlusion Pressure as a non-invasive method, without the need to assess esophageal pressure, to estimate the magnitude of the effort and program assistance. Although it is a validated measurement for quantifying effort, it does not consider the duration of the effort performed by the patient, as well as the respiratory rate, two fundamental variables in terms of tolerance to the load. Therefore, the investigators propose the following study that will seek to validate the measurement of PTP in from the Occlusion Pressure, but considering inspiratory time and respiratory rate to obtain PTP per breath and per minute.
The purpose of the study is to conduct a pilot randomized trial of a program designed to enhance equitable communication and emotional support for families of critically ill patients in order to determine feasibility, acceptability, and participant experience with the program. The primary study procedures include: chart abstraction, questionnaires, meetings with ICU support counselors, meetings with ICU physicians and care team, audio recordings of these meetings (optional), and interviews with study participants (optional). Study participants include: 70 critically ill patients with acute respiratory failure (enrolled with the consent of their Legally Authorized Representative) and their primary surrogate decision makers as well as ICU support counselors and ICU care teams (physicians, nurses, social workers).
Coronavirus disease (COVID-19) can result in severe hypoxemic respiratory failure that ultimately may require invasive mechanical ventilation in the Intensive Care Unit (ICU). Although lifesaving, invasive mechanical ventilation is associated with high mortality, severe discomfort for patient, long-term sequelae, stress to loved-ones and high costs for society. During the ongoing pandemic high number of invasively ventilated COVID-19 patients overwhelmed ICU capacity. Non-invasive respiratory support, such as high flow nasal oxygen (HFNO) or non-invasive ventilation (NIV) have the potential to reduce the risk for invasive mechanical ventilation and in selected cases ICU admission. However, data from different studies are conflicting and studies performed in COVID-19 patients are of limited quality. Furthermore, identification of early predictors of HFNO/NIV treatment failure may prevent unnecessary delay of initiation of invasive ventilation, which may be associated with adverse clinical outcome. The development and validation of a prediction model, that incorporates readily available clinically data may prove pivotal to fine-tune non-invasive respiratory support. The overall aim of the NORMO2 project is to investigate the role and risks of HFNO and NIV to improve outcome in hospitalized hypoxemic COVID-19 patients.
The purpose of this study is to evaluate the effect of an 8-week walking program on blood pressure in inactive older adults with respiratory impairment, a condition where lung function is sub-optimal for a person's age. Older adults with respiratory impairment have greater risks of death by cardiovascular disease (CVD) compared to those without respiratory impairment, and this may be partly driven by higher resting blood pressure. One way to lower blood pressure is to increase the number of daily steps achieved throughout the course of everyday life ('lifestyle steps'), and previous research shows that an additional 3,000 lifestyle steps/day is effective for achieving this. However, whether an increase in daily lifestyle steps is effective for reducing blood pressure in senior-community dwelling older adults with respiratory impairment is unknown. Understanding how increasing daily steps impacts blood pressure in this understudied population is important for informing future strategies for tackling cardiovascular disease risk in those with lung dysfunction.
This is study aim to compare between high flow nasal canula (HFNC) and non invasive positive pressure ventilation (NIPPV) in reducing the rate of reintubation in mechanically ventilated patient with successful weaning
Unfractionated heparin (UFH) is worldwide anticoagulation used and recommended anticoagulation in patients with ECMO support. However, it is accompanied with incidence of bleeding or thrombotic compliaction at about 40-60% and high mortality. Because ECMO produce primary haemosthasis pathology, there is a theory that prophylaxis of thrombosis with low molecular weight heparin (LMWH) e.g. Enoxaparin might be sufficient to prevent ECMO throbosis and thrombosis development in patients. We decided to performed retrospective observation study and analysis of data, from may 2019 until august 2023, in all patients who were put on VV ECMO and to analysis incidence of bleeding, thrombotic and neurologic complications.
The hypothesis is that Nasal High Flow therapy for patients with Hypercapnic Acute Respiratory Failure without acidosis, in addition to standard treatment would improve the care.
COVID-19 infection was identified in Wuhan, China at the end of 2019 and turned into a pandemic in a short time. In our country, the pandemic continues at full speed and patients are being treated in various clinical pictures. In its clinical classification, the World Health Organization (WHO) divides COVID-19 disease into four stages: mild symptomatic disease, pneumonia, severe pneumonia, acute respiratory distress syndrome (ARDS), sepsis and advanced stage with septic shock. Case reports and cross-sectional studies report a list of more than 200 different symptoms in the development of post COVID-19 syndrome. Shortness of breath, persistent smell and taste disturbances, fatigue and neuropsychological symptoms (headache, memory loss, slowed thinking, anxiety, depression and sleep disturbances) are the most commonly reported symptoms. Musculoskeletal symptoms such as pain (myalgia), muscle weakness, arthralgia and fatigue are also common. Exercise endurance tests are used to predict the prognosis of the disease in chronic lung diseases, to determine functional exercise capacity, to evaluate the response of the disease to treatment and to interpret the results of clinical trials. Covid-19-induced lung infections and long periods of isolation may have negative effects on respiratory muscle strength, pulmonary function values and physical activity level. It has been reported that only one week of bed rest can cause serious muscle loss of up to 20%. Covid-19 infection increases the likelihood of asthma-like symptoms. In some cases, pneumonia and increased dyspnea are also seen. When volleyball players with Covid-19 infection were examined, respiratory muscle strength and fev1/fvc values were lower than expected. When looking at the interaction between infections and sleep, it was observed that different infections had different effects on sleep, with some infections increasing the amount of sleep while others decreased it. The increase in inflammatory mediators associated with systemic infection is thought to increase the amount of REM sleep and total sleep duration, perhaps in an effort to conserve energy and counteract infection. Some infections have a negative effect on the immune system, reducing the amount of sleep. Covid infection is also thought to have negative effects on sleep. The symptoms of COVID-19 in the chronic phase can further negatively affect physiological, psychological and social outcomes, physical activity and ultimately muscle performance and quality. Post-infection physical function and fitness can worsen even two years after the disease. In COVID-19 patients recovering 3 months after hospital discharge, limitations were mainly related to reduced muscle mass, low oxidative capacity or both, rather than cardiac or respiratory exercise limitation. Symptoms experienced during Covid-19 infection are thought to have negative effects on exercise endurance. In order to meet the metabolic needs of the musculoskeletal system muscles during exercise, cardiac output, ventilation, pulmonary and systemic blood flow, oxygen and carbon dioxide exchange in a way to maintain acid-base balance and oxygenation, and their compatible response to each other are required. Exercise endurance assessments are an important parameter to determine the functional level of the patient. Eighty-eight percent of individuals with Covid-19 infection showed a decrease in respiratory muscle strength in the evaluation performed 5 months later. The direct effect of respiratory muscles may cause permanent dyspnea problems. Muscle strength, exercise capacity, dyspnea perception, fatigue severity perception, pain, balance, kinesiophobia, psychosocial and cognitive status, quality of life should be routinely evaluated in the post-COVID-19 period in patients admitted to the clinic, and a targeted functional rehabilitation program should be prepared in the light of these evaluations, taking these parameters into consideration during the rehabilitation process.
The goal of this pilot randomized cross-over study is to compare the effect of a full-face mask with expiratory washout to a conventional full face mask on non-invasive ventilation (NIV) in patients with acute hypercapnic, and acute hypoxemic, respiratory failure. The main questions it aims to answer are: - Does a mask with expiratory washout improve minute ventilation in patients using non-invasive ventilation compared with a conventional single-limb NIV mask - How does a mask with expiratory washout affect respiratory variables compared with a dual-limb NIV mask. Participants already prescribed NIV will undergo 3 arms of the investigation in a randomized order: - Single-limb NIV with investigation mask (with expiratory washout) - Single-limb NIV with conventional mask - Dual-limb NIV with conventional mask