View clinical trials related to Noninvasive Ventilation.
Filter by:Mask ventilation is fundamental to airway management at the start of surgical procedures requiring general anesthesia. For general anesthesia, medications are provided that affect the entire body and lead to a loss of consciousness. Medical professionals perform mask ventilation by placing a plastic mask over a subjects mouth and nose to provide enough oxygen for the placement of a breathing tube. In this study, we expect that a 45 degree rotation of the head will increase the efficiency of mask ventilation.
Nutritional status in critically ill pediatric patients is considered a fundamental prognostic factor in terms of mortality, morbidity, complications and outcome. Many studies report how predictive equations most commonly applied are inaccurate, therefore under or over estimating the body energy requirements. For this reason, actual measurement of resting energy expenditure (REE) through indirect calorimetry (IC) is considered to be a better approach. Currently, IC is not validated during the use of non-invasive ventilation. Aim of the present study is to validate the measurement of REE with IC in pediatric patients undergoing non-invasive ventilation through a single-limb circuit with intentional leak.
The decision about the initiation of enteral nutrition therapy in critically ill patients with oxygen therapy needs with HFC and / or NIMV is a matter of debate at present. Despite the benefits associated with this practice in critically ill patients, the scarcity of clinical studies in patients with sufficient methodological quality, as well as the absence of specific recommendations on enteral nutrition therapy in this type of patient, generates controversy in the professionals involved in critical patient care.
Obesity is omnipresent problem in everyday anesthesiology practice associated with low level of blood oxygen (hypoxemia) during analgo-sedation. Overweight outpatients are often scheduled for colonoscopy usually undergo analgo-sedation. In obese patients, intravenous analgo-sedation often diminish respiratory drive causing hypoxemia. To avoid hypoxemia, low-flow nasal oxygenation (LFNO) of 2-6 L/min is applied via standard nasal catheter to provide maximum 40 % of inspired fraction of oxygen (FiO2). LFNO comprises applying cold and dry oxygen which causes discomfort to nasal mucosa of patient. LFNO is often insufficient to provide satisfying oxygenation. Insufficient oxygenation adds to circulatory instability - heart rate (HR) and blood pressure (BP) disorder. On the other side, high-flow nasal oxygenation (HFNO) brings 20 to 70 L/min of heated and humidified of O2/air mixture up to 100% FiO2 via specially designed nasal cannula. Heated and humidified O2/air mixture is much more agreeable to patient. HFNO brings noninvasive support to patients' spontaneous breathing by producing continuous positive pressure of 3-7 cmH2O in upper airways consequently enhancing oxygenation. Investigators intend to analyze effect of HFNO vs. LFNO on oxygen saturation during procedural analgo-sedation for colonoscopy in obese adult patients. Investigators expect that obese patients with preserved spontaneous breathing, oxygenized by HFNO vs. LFNO, will be less prone to hypoxemia thus more respiratory and circulatory stable during procedural analgo-sedation for colonoscopy. Obese patients with applied HFNO should longer preserve: normal oxygen saturation, normal level of CO2 and O2, reflecting better respiratory stability. Investigators expect obese participnts to have more stable HR and BP, reflecting improved circulatory stability. There will be less interruption of breathing pattern of obese patients and less necessity for attending anesthesiologist to intervene.
Analgo-sedation is standard procedure in anesthesiology practice and is often given for colonoscopy in the setting of daily hospital. Ideally, patients should be sedated with preserved spontaneous breathing and adequate blood O2 saturation. To maintain adequate oxygenation, low-flow O2 (2-6 L/min) is usually delivered through standard nasal catheter which can provide inspired fraction (FiO2) of 40% (low-flow nasal oxygenation - LFNO). Coldness and dryness of LFNO applied may be uncomfortable to patient. Standardly applied intravenous anesthetics can lead to transient ceasing of breathing and O2 desaturation despite LFNO. Respiratory instability can also potentiate circulatory instability - undesirable changes in heart rate (HR) and blood pressure (BP). Unlike LFNO, high-flow heated and humidified nasal oxygenation (HFNO) is characterized by the oxygen-air mixture flow of 20 to 70 L/min up to 100% FiO2. Warm and humidified O2, delivered via soft, specially designed nasal cannula, is pleasant to patient. HFNO develops continuous positive pressure of 3 to 7 cmH2O in upper airway which enables noninvasive support to patient's spontaneous breathing thus prolonging time of adequate O2 saturation. Aim of this study is to compare effect of HFNO and LFNO on oxygenation maintenance before, during and after standardized procedure of intravenous analgo-sedation in normal weight patients of ASA risk I, II and III. Investigators hypothesize that application of HFNO compared to LFNO, in patients with preserved spontaneous breathing during procedural analgo-sedation, will contribute to maintaining of adequate oxygenation, consequentially adding to greater circulatory and respiratory patients' stability. Investigators expect that patients who receive HFNO will better maintain adequate oxygenation regarding improved spontaneous breathing. Also patients will have shorter intervals of blood oxygen desaturation, less pronounced rise in blood CO2 level and lesser fall of blood O2 level, less change in HR and BP. Investigators will have to exactly estimate partial and global respiratory insufficiency (blood CO2 and O2 levels) associated with LFNO and HFNO, which will be done by blood-gas analysis of 3 arterial blood samples collected before, during and after analgo - sedation via previously, in local anesthesia, placed arterial cannula. Possible complications will be explained in written uniformed consent and by anesthesiologist.
Acute left heart failure (ALHF) is a sudden attack or deterioration of abnormal left heart function, which may impair myocardial contractility and increase cardiac loading, further result in decreased cardiac output, abrupt elevation of pulmonary and systemic circulation pressure, consequently trigger in acute pulmonary congestion, acute pulmonary edema and cardiac shock . Hypoxia and severe dyspnea may pose fatal threats for the patients suffered from ALHF should be alleviated as soon as possible, and thus oxygen therapy and ventilation support are regarded as important therapeutic measures for these patients. According to 2017 Chinese College of Emergency Physicians(CCEP) acute heart failure clinical guideline, invasive ventilation should be recommended to those patients whose symptoms still get worsening despite timely treatments. Intubation may increase the risks of infection and multiple organ failure, so timely extubation contributes to reduce the duration of mechanical ventilation and the rate of complications. But if extubation failure occurs, the patient often requires re-intubation that may induce the outset of complications, extend the length of stay and increase mortality. Heart failure proves to be high risk factor for extubation failure on the basis of previous studies. It is recommended to apply sequential non-invasive ventilation (NIV) if the patient receiving invasive ventilation for more than 24 hours and having high risk for extubation failure on the basis of 2017 American Thoracic Society(ATS) clinical guideline. It is worthy to note that NIV has many shortcomings, for example, it may induce dry oropharyngeal cavity, skin injury caused by mask oppression, gaseous distention, vomiting, respiratory aspiration, air leak, drying sputum, difficulty in coughing up phlegm and claustrophobia. As an emerging technology, high flow nasal oxygen (HFNO) has many advantages in airway humidification, tolerance and compliance which also can effectively improve pulmonary oxygenation function of patients with respiratory failure. Which therapeutic measure should be recommended for the patients with ALHF after extubation, NIV or HFNO? It is still unclear according to the latest management guidelines. So one perspective study will be launch to compare the difference between HFNO-group patients with NIV-group patients in re-intubation rate within 48 hours, oxygenation index, length of ICU stay, total hospital stay, mortality and compliance for evidence-based medicine.
Readmission to hospital is one of the most important problems in chronic obstructive pulmonary disease (COPD) patients who developed chronic respiratory failure. Patients receiving long-term oxygen therapy (LTOT) and noninvasive ventilation (NIV) constitute the most vulnerable group because of the need for comprehensive care. However, because of lack of health care support systems in Turkey, many advanced COPD patients are hospitalized due to preventable problems such as insufficient knowledge about the therapies, nonadherence to therapy and technical issues related to LTOT/NIV equipment. The aim of this multicenter randomized trial is to find out whether a structured discharge and follow-up protocol reduce the rate of unplanned, COPD-related hospital readmissions over 90 days in patients receiving LTOT or NIV.
The investigator aimed to manage noninvasive ventilation in patients with hypoxemic respiratory failure.
Objective: To prove that initiation of chronic ventilatory support at home, in patients with chronic hypercapnic respiratory failure due to neuromuscular disease (NMD) or thoracic cage problem is not inferior compared to initiation in a hospital based setting. In addition we believe that the start at home is cheaper compared to an in-hospital start. Hypothesis: Initiation of chronic ventilatory support at home is effective, safe and cost effective compared to a hospital-based initiation. Study design: A nationwide non-inferiority multi-center randomized parallel active control study. Study population: Patients with chronic respiratory insufficiency due to a neuromuscular disease (NMD) or thoracic cage problem who are referred for chronic ventilator support. Intervention: The start of HMV at home Standard intervention to be compared to: The start of HMV is normally in a clinical setting as recommended in the national guideline. Outcome measures: Primary: PaCO2. Secondary: Health related quality of life; lung function; nocturnal transcutaneous carbon dioxide assessment and saturation, and costs Sample size calculation/data analysis: This is a non-inferiority trial based on PaCO2 as primary outcome. A difference in favor of the hospital care group of smaller than 0.5 kPa will be labeled as non-inferior. To retain 72 evaluable patients, and allow for drop-outs, we will include 96 patients in total. Cost-effectiveness analysis: A cost analysis will be conducted alongside the clinical trial. Costs of the initiation of HMV at home and in the hospital will be estimated form a societal perspective over a time horizon of 6 months. Time schedule: After an initial phase of 6 months recruitment will start and will take 24 months. Thirty-six months after the start of the study the last assessments will be done and analysis and writing of the papers will start. After 42 months the study will end.
The primary objective of this study is to study the effect of therapeutic education on patient adherence for at-home continuous positive airway pressure (CPAP) or at-home non-invasive ventilation. This first study will use data already present in the Association for Home Assistance and Rehabilitation (APARD) database to compare patients who received therapeutic education with a control group who did not.