View clinical trials related to Respiratory Insufficiency.
Filter by:Amyotrophic lateral sclerosis (ALS) is a rare and serious neurodegenerative disease causing degeneration of motor neurons. . It leads to a progressive paralysis of the muscles involved in voluntary motricity. In France, its incidence is 2.5/100,000 inhabitants per year. The death of patients is mainly caused by a progressive attack of the respiratory muscles. Indeed, the thorax is no longer actively mobilized to the maximum amplitude, it will lose its flexibility. A restrictive syndrome sets in followed by alveolar hypoventilation. Bronchial congestion may be concomitant. Management is then based on non-invasive ventilation (NIV). This step, which is difficult for patients to accept psychologically, must be delayed as much as possible. However, to date, there are no precise recommendations on preventing the appearance of this restrictive syndrome and on slowing down the deterioration of lung function in patients. The pressure relaxer (RLX) is an instrumental aid allowing on the one hand to mobilize the thorax thanks to hyper insufflations, and on the other hand to increase the effectiveness of the cough. The use of this device in physiotherapy is part of the HAS recommendations to promote decluttering. However, we believe that RLX in patients with ALS, through the pulmonary alveolar recruitment it induces, could be relevant at an earlier phase, for the prevention of the decline in pulmonary functions: the restrictive syndrome, bronchial congestion and alveolar hypoventilation. So ultimately, the quality of life and survival of these patients would be improved. It is in this context that this multicenter randomized controlled study RELAX'SLA takes place in order to evaluate the effects of the early use of the pressure relaxer on the respiratory impairment of patients with ALS.
Weaning from invasive mechanical ventilation (MV) constitutes a fundamental procedure in intensive care, covering up to 50% of time spent on ventilation (1). Endotracheal tube (ETT) removal might be an important but delicate step in intensive care setting. Failure and subsequent need for re-intubation can occur in up to 20% of cases leading to a significant increase in mortality rates (24%), longer hospital stay and prolonged need for ventilation. Comorbidities such as obesity, COPD and cardiac related diseases might further increase this risk reaching up to 60% of failure in extubation. In this scenario, accurate predictors of weaning failure are far welcomed. The recurrence of respiratory failure after extubation might considerably raise rates of failure, probably due to increased work of breathing in patients after ETT removal. Most recent guidelines on the use of non-invasive ventilation (NIV) suggest using NIV after ETT removal in subjects with high risk of failure. NIV could contribute to reduce work of breathing hence preventing the onset of respiratory failure after extubation. Therefore, measuring inspiratory effort and its variation in weaned patients might help in identifying patients with significant risk of failing extubation. Esophageal pressure swings (DeltaPES) can be measured through a nasogastric tube with a pressure transducer located in the inferior part of the esophagus. DeltaPES is an extremely precise and accurate method to quantify inspiratory effort, however its use in daily clinical practice is limited due to the invasive nature of the maneuver, elevated costs and need for considerable clinical training of operators. Physiological studies have shown a correlation between nasal pressure measured at nostril entrance and esophageal pressure (which in turn is a measure of respiratory effort . Therefore, measuring nasal pressure could represent a method to quantify inspiratory effort non-invasively, proving to be useful in daily clinical practice.
Fibroblast growth factor 23 (FGF23) is a key hormone of the mineral metabolism produced in bone and acting on the kidney to lower phosphatemia. FGF23 is subject to inactivating proteolytic cleavage which results in the presence of C-terminal and N-terminal fragments heretofore described as inactive. We recently showed an increase in FGF23Ct in sickle cell patients, its association with left ventricular mass as well as a direct, pro-hypertrophic effect of FGF23Ct on rat cardiomyocytes. Data from the literature suggest that hypoxia (linked or not to anemia) is responsible for an increase in the production and cleavage of FGF23, either via the hypoxia inducible factor (HIF1α) or via the increase in erythropoietin (EPO). We hypothesize that the FGF23Ct / FGF23i ratio is increased in response to chronic tissue hypoxia, in the absence of anemia, in patients with chronic respiratory failure (CRF) either due to a direct response to hypoxia via the stimulation of HIF1α, or indirectly via the increase in the circulating concentration of EPO. This elevation, if proven, could contribute to the increased risk of heart disease seen in some populations of CRF. We propose to test this hypothesis by assaying FGF23Ct and FGF23i in a cohort of adult CRF patients before and after initiation of oxygen therapy. The object of the present study is to study the FGF23Ct / FGF23i ratio in incident patients presenting with a non treated CRF as well as the modifications of this ratio under oxygen therapy and to study the correlations between FGF23 Ct and FGF23 and i) oxygen saturation and PaO2 ii) echocardiographic parameters and iii) EPO concentrations. Three visits are planned: Baseline (before initiation of oxygen therapy), and two visits after initiation of oxygen therapy, at 3 months (M3) and at 12 months (M12). For each visit, anthropometric and clinical data, treatment and biological results will be collected. FGF23 intact , FGF23 C-terminal and Erythropoietin will be measured. A cardiac ultrasound will be performed at baseline and at M12.
Acupuncture is a treatment intervention used globally for a wide variety of disorders. Its efficacy has been established over the course of 3000 years, originating in Asia and diversifying worldwide.The scientific basis for acupuncture remains unclear. Nonetheless, acupuncture releases neurochemical substrates, such as endorphins, serotonin, and norepinephrine.Acupuncture is considered to be a safe treatment when applied by a certified acupuncturist.Acupuncture has already been deployed in the treatment of sepsis or muscle weakness.Studies have revealed that acupuncture significantly improved grip strength and respiratory muscle strength in chronic obstructive pulmonary disease participates.Neuromuscular electrical stimulation (NMES) is an alternative to mobilize and exercise because it does not require active patient participation and can be used on bedridden patients.The investigators designed a study to compare the effects of acupuncture, electroacupuncture, and neuromuscular electrical stimulation on mechanical ventilation patients with weaning difficulties
To compare the outcomes of HFNC and HVNI in COVID-19 patients with acute respiratory failure as regard need for mechanical ventilation, changes of arterial blood gases (ABG) parameters, duration of ventilatory support and delay between admission and intubation
The incidence of pulmonary complications such as pulmonary atelectasis, pneumonia (including ventilator-associated pneumonia), and acute respiratory failure is high in critical care patients. The incidence of ventilator-associated pneumonia can be as high as 27% amongst mechanically ventilated patients. Studies have shown that 16% of critically ill patients have been reported to develop acute respiratory failure, which is associated with prolonged intensive care unit stay, resulting in significantly higher mortality than non-respiratory failure patients. Increased morbidity and mortality contribute to the burden on the health care system and lead to poor health-related outcomes. Multimodal physiotherapy plays a role in the management of these critically ill patients. High frequency percussive ventilation (HFPV) is used in patients with underlying pulmonary atelectasis, excessive airway secretions, and respiratory failure. HFPV is a non-continuous form of high-frequency ventilation delivered by a pneumatic device that provides small bursts of sub-physiological tidal breaths at a frequency of 60-600 cycles/minute superimposed on a patient's breathing cycle. The high-frequency breaths create shear forces causing dislodgement of the airway secretions. Furthermore, the HFPV breath cycle has an asymmetrical flow pattern characterized by larger expiratory flow rates, which may propel the airway secretions towards the central airway. In addition, the applied positive pressure recruits the lung units, resulting in a more homogeneous distribution of ventilation and improved gas exchange. In acute care and critical care settings, HFPV intervention is used in a range of patients, from spontaneously breathing patients to those receiving invasive mechanical ventilation where HFPV breaths can be superimposed on a patient's breathing cycle or superimposed on breaths delivered by a mechanical ventilator. The most common indications for HFPV use are reported as removal of excessive bronchial secretions, improving gas exchange, and recruitment of atelectatic lung segments. This study aims to assess the lung physiological response to HFPV in terms of aeration and ventilation distribution.
In patients suffering from acute respiratory failure, ineffective cough and the consequent retention of secretions are common clinical problems, which often lead to the need for tracheostomy for the sole purpose of aspiration of secretions from the airways. Mechanically ventilated critically ill patients often have impaired mucus transport which is associated with secretion retention and subsequent development of pneumonia. The accumulation of tracheobronchial secretions in ventilated patients in ICU is due not only to an increased production, but also to a decreased clearance. In the event that secretions occlude a bronchus, an atelectasis of the lung parenchyma is created downstream. Therefore, it is often necessary to perform a flexible bronchoscopy (FOB) to proceed with the removal of the secretion plug. After its removal, the lung is supposed to be reventilated and recruited. In intubated ICU patients, the application of a recruiting maneuver (RM) is commonly used to reopen the collapsed lung in patients with Acute Respiratory Distress Syndrome or in case of atelectasis in other clinical conditions. However, no studies have so far investigated the role of the application of a RM after a FOB performed to remove a secretion plug in intubated ICU patients. This observational and physiological study aims to assess if the application of a RM would modify the lung aeration soon after an FOB to remove secretion plug (first outcome). Moreover, the study aims to assess if EIT could be an additional bedside imaging tool to monitor modifications of lung ventilation and aeration during and after a flexible bronchoscopy, as compared with both chest-X-ray and lung ultrasound.
The Acute Respiratory Distress Syndrome (ARDS) is defined by a recent (within 1 week) respiratory failure, not fully explained by cardiac failure or fluid overload. ARDS is also characterized by bilateral opacities at the chest imaging, with an alteration of the oxygenation while positive end-expiratory pressure equal or greater than 5 cmH2O is applied. Severe ARDS is characterized by a high mortality. In the most severe ARDS patients, venovenous extracorporeal membrane oxygenation (vv-ECMO) is increasingly accepted as a mean to support vital function, although not free from complications. In patients with severe ARDS, prone position has been used for many years to improve oxygenation. In these patients, early application of prolonged (16 hours) prone-positioning sessions significantly decreased 28-day and 90-day mortality. More recently, prone position and ECMO have been coupled as concurrent treatment. Indeed, the addition of prone positioning therapy concurrently with ECMO can aid in optimizing alveolar recruitment, and reducing ventilator-induced lung injury. Nowadays, few data exist on respiratory mechanics modifications before and after the application of prone position in patients with severe ARDS receiving vv-ECMO. The investigators have therefore designed this observational study to assess the modifications of mechanical properties of the respiratory system, ventilation and aeration distribution, and hemodynamics occurring during ECMO before and after prone position in patients with severe ARDS.
High velocity nasal insufflation (HVNI), a form of HFNC that utilizes a small bore nasal cannula to generate higher velocities of gas delivery than HFNC which uses large bore cannula, has the ability to accomplish complete purge of extra thoracic dead space at flow rates of 35 litres/min and may be able to provide ventilatory support in patients with respiratory failure in addition to oxygenation support in patients with overlap syndrome. This study aims to evaluate the effectiveness of HVNI compared to NIMV in management of respiratory failure in patients with obesity hypoventilation syndrome and overlap syndrome.
The objective of the clinical investigation presented is to guarantee the safety and usability of the RESPIRA ADVANCED medical device in patients undergoing mechanical ventilation in the ICU, both stable patients and in the weaning phase. Through the clinical investigation, the reliability and durability of the device, the adequacy of the ventilatory parameters and their consistency over time, and the response of the patients wills be checked. During the entire course of the patient's participation in the study, the patient will be closely monitored following the protocol specifications, to guarantee safety and evaluate the effectiveness of the device.