View clinical trials related to Respiratory Insufficiency.
Filter by:The purpose of this study is to determine if the use of a silver-coated endotracheal tube (ETT) can reduce the incidence and/or delay the time of onset of VAP when compared to a non silver-coated ETT in patients who have been mechanically ventilated for >= 24 hours.
The purpose of this two-year project is to pilot test an intervention to change sedation management in pediatric patients supported on mechanical ventilation for acute respiratory failure in the pediatric intensive care unit (PICU). While ensuring patient comfort is an integral part of pediatric critical care, analgesic and sedative use in this patient population is associated with injury; specifically, comfort medications may depress spontaneous ventilation and prolong the duration of mechanical ventilation. Additionally, drug tolerance develops over time and may precipitate iatrogenic abstinence syndrome (chemical withdrawal) when the patient no longer requires sedation. Alternatively, suboptimal comfort management contributes to the patient not breathing synchronously with the ventilator and/or self-removal of breathing tubes. Our group has developed and validated a nurse-implemented sedation algorithm (set of specific instructions) to guide titration of comfort medications that may optimize patient comfort and reduce the risk of under-medication, but this algorithm needs to be evaluated further. We hypothesize that pediatric patients managed per sedation protocol will experience fewer days of mechanical ventilation than patients receiving usual care. This research has the potential of revolutionizing sedation practices that are driven by and synchronized to patient needs.
Heart failure is a common reason for respiratory failure in ICU patients. The rapid and accurate differentiation of heart failure from other causes of respiratory failure remains a clinical challenge. BNP levels are significantly higher in patients with congestive heart failure as compared to patients with respiratory failure due to other causes. Therefore, rapid measurement of BNP might be very helpful in establishing or excluding the diagnosis of heart failure in patients with respiratory failure in the ICU. The aim is to test the hypothesis that a BNP guided diagnostic strategy would improve the evaluation and management of patients presenting with primary (on admission) or secondary (while in the ICU) respiratory failure in the ICU and thereby reduce total treatment time and total cost of treatment. Primary endpoints are time to discharge and total cost of treatment. Secondary endpoints are ICU length of stay, ICU cost, in-hospital mortality, 30-day mortality, cost-effectiveness, 6 and 12 month mortality, 6 and 12 month dyspnea score.
Patients may be very agitated during the weaning period from mechanical ventilation. Administration of loxapine, a neuroleptic that does not notably affect ventilatory drive, may help in obtaining an adequate level of cooperation and, therefore, in reducing the duration of mechanical ventilation.
The purpose of this study is to compare the mechanical and infectious complications of peripheral versus central venous catheters in critically ill patients. Group allocation will be performed by randomization.
Repair of tetralogy of Fallot (TOF), the most common form of cyanotic congenital heart disease, usually involves surgery on the outflow of the right ventricle (RV) and the pulmonary valve in order to relieve obstruction to blood flow from the RV to the lungs. This procedure often leads to regurgitation (leakage) of the pulmonary valve, which puts the burden of handling a larger than normal amount of blood flow on the RV. Over the years, that extra burden leads to enlargement of the RV and to a decrease in its function. Treatment often includes surgical insertion or replacement of a new pulmonary valve. Replacement of the damaged pulmonary valve aims to minimize the leakage and help the RV function better. This study is designed to compare two methods of how the operation (called pulmonary valve replacement [PVR]) is performed. In the first method, a new valve is inserted and only the area of the old valve is operated on; this is the standard PVR. The second method involves inserting the new valve in the same way as the standard method but, in addition, areas of the right ventricular wall that are scarred and not functioning well are removed (PVR plus right ventricular remodeling). This study will evaluate which method is more effective based on the size and function of the RV measured by cardiac magnetic resonance imaging (CMR) six months following surgery, as compared to its size and function before the operation.
To evaluate indications for the use and efficacy of extracorporeal membrane oxygenators (ECMO's) for the support of patients with potentially reversible acute respiratory failure.