Role of Regional Lung Compliance and Dynamic Transpulmonary Driving Pressure in the Liberation Difficulty in Tracheostomized Patients Receiving Prolonged Mechanical Ventilation

This plan outlines a research project focusing on patients with prolonged ventilator use (PMV), an important manifestation of chronic critical illness (CCI) characterized by prolonged ventilator use after acute illness. This research team has sufficient experience in PMV clinical research and observed that even in the standardized process of weaning from the ventilator, the proportion of patients who successfully weaned from the ventilator was still low. Only 57.9% of the patients were successfully weaned from the ventilator, while the others were Transfer to a long-term care facility or face adverse outcomes. This research project aims to identify important respiratory physiology factors that increase the chances of PMV patients being weaned from ventilators and address a key unanswered question. PMV is often the result of CCI and involves complex clinical challenges such as organ dysfunction, dysregulated immune response, and recurrent infections. Patients' responses to disengagement training vary, often requiring individualized strategies. Conventional lung monitoring using electrical impedance imaging (EIT) can be used to quantify regional hyperinflation and collapse at each level. This method is based on pixel-level changes in respiratory system compliance and depends on whether the patient is fixed or Measured driving pressure, airway pressure (Paw), esophageal pressure (Pes) while accounting for assisted ventilation; EIT monitoring to quantify lung overinflation and collapse Use intrathoracic driving pressure (ΔPLdyn) changes to assess lung compliance at the pixel level change. We will use currently available methods, combining EIT and Pes monitoring, to measure ΔPLdyn in PMV patients. It has been shown in the literature that using ΔPLdyn rather than dynamic airway driving pressure to quantify regional lung overinflation and collapse, that is, compliance changes, is physiologically reasonable and clinically feasible. This method may represent a more accurate assessment of regional lung mechanics associated with the lowest inspiratory effort in the assisted ventilation setting. We hope to understand the changes in regional lung ventilation and compliance of PMV patients during the respirator weaning test through a series of clinical respiratory physiology research processes, in order to find ways to improve the patient's chances of weaning off.