Description

Detailed Description:

Many patients in intensive critical care require mechanical ventilation. Once the underlying reasons for intubating critically ill patients have been addressed, healthcare providers aim to allow patients to return to breathing spontaneously and to safely remove the endotracheal tube (ETT) at the earliest appropriate time. Unnecessarily delaying the removal of the ETT (extubation) may cause diaphragm muscle weakening or introduce ventilator induced pneumonia (VAP), ventilator induced lung injury (VILI) and ventilator induced diaphragm dysfunction. Thus, it is important to determine when a patient is ready to be weaned from mechanical ventilation in a timely manner.

Spontaneous breathing trials (SBTs) can be used to aid in assessing a patient's readiness for extubation. There is currently no clear consensus on which technique is the most beneficial as there are uncertainties about how different SBT strategies impact both gas exchange and the work of breathing (WOB) before and after extubation. At Toronto General Hospital (TGH), patients are placed on a zero positive end expiratory pressure (ZEEP) SBT trial. It has been argued that the resistance from ETT increases WOB while a patient is on ZEEP, and this added effort may be eased through the use of low levels of pressure support or CPAP, which could potentially improve the success of extubation processes. Additionally, maintaining some amount of positive end expiratory pressure (PEEP) during SBT might improve oxygenation and WOB.

This study aims to understand how the zero positive end expiratory pressure (ZEEP) trial affects lung function and breathing effort in lung transplant patients who require mechanical ventilation in the ICU. The use of tools such as Esophageal and gastric balloon (NutriVent, Sidam, Mirandola, Italy), EIT (Drager PulmoVista 500), Pneumotachograph, FluxMed respiratory monitor, and Respiratory muscle ultrasound will be used to measure lung function, respiratory mechanics, muscle function, arterial blood gas, gastric pressure and esophageal pressure.

After enrolling 27 participants, this study has been amended to address an additional new objective - the validation of non-invasive occlusion maneuvers to estimate expiratory muscle pressure. Expiratory activity is a phenomenon that can provide important insights during mechanical ventilation and during an SBT trial. EELV might decrease due to expiratory muscle activity, possibly impairing gas exchange and increasing lung elastance due to collapse. Currently, the use of a gastric balloon is the gold standard method to assess expiratory effort and enable quantification of expiratory muscle pressure by expiratory variation of gastric pressure (∆Pga). However, the gastric balloon is an invasive tool that presents several downsides, as a high cost and the need for expertise in balloon calibration and waveform analysis. This highlights the need for non-invasive methods to detect and quantify expiratory muscle activity. The ability of occlusion maneuvers to detect presence of expiratory muscle effort measured with the gold standard (gastric pressure) will be assessed with receiver operating characteristic curves. A total of 40 patients will be enrolled to address this objective, in addition to the 27 patients already enrolled, for a total of 67 patients. Of the first 27 patients enrolled, only 15 underwent study procedures. Going forward, a patient will be considered enrolled if they undergo study procedures.