View clinical trials related to Respiratory Failure.
Filter by:This study evaluates the effects of prone positioning on homogenization of ventilation.
This study will look at whether accounting for the amount of pressure generated by the chest wall and abdomen in a obese patient, using a measurement called transpulmonary pressure, can help shorten the amount of time patients spend on the ventilator. By decreasing the amount of time patients spend on the ventilator, they are less likely to develop complications such as infections, weakness or more procedures.
Clinical trial evaluating the efficacy and safety of salbutamol for the treatment of neonates with a gestational age between 32 and 42 weeks with transient tachypnoea of the newborn (TTN).
The Hospital Airway Resuscitation Trial (HART) is a cluster-randomized, pragmatic trial of advanced airway management with a strategy of first choice supraglottic airway vs. first choice endotracheal intubation during in-hospital cardiac arrest.
Diseases of the lungs can be life-threatening. When these organs fail to adequately work, treatments to support their function are offered, often in Intensive Care Units (ICU). Respiratory failure patients may need sedation and placement of a tube in their windpipe so that a mechanical ventilator can take over their breathing until they have recovered enough to breathe again on their own. One problem that occurs in patients under mechanical ventilation is that parts of the lung tissue tend to collapse (atelectasis), reducing the amount of the lung that is able to transfer oxygen and carbon dioxide effectively and even progressing to pneumonia. To address this problem, ICU doctors often perform a procedure named 'recruitment manoeuvre', which involves briefly inflating the patient's lungs with enough pressure to try to open up the collapsed areas of lung. However, fundamental aspects of the change in the functioning of the heart and lungs that occur during and after such manoeuvre are not fully understood. In this study, funded by the University of Oxford, the investigators wish to study patients with respiratory failure who are receiving mechanical ventilation. Participants will be recruited at the ICU of the Royal Berkshire Hospital having their cardiopulmonary data collected over the course of a day. During this period, some patients will be assessed to determine whether they may benefit from a recruitment manoeuvre using a pressure-volume curve. As this assessment is not perfect, the investigators wish to study which features of this curve predict a successful recruitment. The investigators will do this by evaluating the volume of the lung before and after the recruitment manoeuvre is performed using a device named Optical Gas Analyser. A better understanding of the effects of the recruitment manoeuvre will help the investigators to determine how and when such manoeuvres should be performed in critically ill patients.
In patients undergoing spontaneous breathing (SB) deep sedation there is a re-distribution of ventilation towards lungs non-dependant areas (ventral areas in supine position). Non-invasive ventilation (NIV), offering positive pressure, should favour a better ventilation of dependant areas (dorsal areas in supine position), making ventilation more homogeneous and increasing functional residual capacity. Electrical impedance tomography (EIT) is a non-invasive, non-operator dependent, bedside, radiations-free diagnostic tool, feasible in paediatric patients and repeatable; it allows to study ventilation distribution, and it can measure and calculate also parameters that are related to the homogeneity of ventilation and the response to certain therapeutic maneuvers, such as anaesthesia or PEEP-application. Uses of EIT in paediatric age are described in literature, but it has never been described as being used in Non-Operating Room Anaesthesia, nor in other cases of SB deep sedation. In addition, the impact of NIV on the distribution of ventilation in healthy paediatric patients undergoing deep sedation has never been described.
Evaluation of the safety and efficacy of using the Lumena mask, compared to commercially-available, commonly used Oro-nasal masks.
Respiratory physiology involves a complex interplay of elements including control of breathing, respiratory drive, pulmonary mechanics, distribution of ventilation and gas exchange. Body position may also play an important role in respiratory mechanics. While effective methods exist for measuring these variables, they are typically measured in isolation rather than in combination. In pulmonary disease, decreasing mechanical stress and strain and optimizing transpulmonary pressure or the distending pressure across the lung, minimizing overdistention and collapse are central to clinical management. Obesity has a significant impact on pulmonary mechanics and is a risk factor for obstructive sleep apnea (OSA). However, our understanding of these elements is limited even in the general population. The investigators plan to use various validated methods to assess control of breathing, respiratory drive, distribution of ventilation and gas exchange to obtain a better understanding of underlying physiologic signatures in patients with and without obesity and the role of posture/position, with a secondary analysis comparing participants with and without obstructive sleep apnea.
The COSMIC trial will be a multicentred, national, parallel-group, pragmatic vanguard pilot trial.
There is a direct relationship between the sedative agent and the duration of ventilation.