Clinical Research Directory

Effectiveness of Ventilation Modes in Intensive Care: A Comparison of Mandatory Minute Ventilation and Synchronized Intermittant Mandatory Ventilation Using Bioelectrical Impedance Tomography

Synchronized Intermittent Mandatory Ventilation (SIMV) is a commonly used ventilatory mode available in many modern ventilators, frequently applied in intensive care units for patients requiring invasive mechanical ventilation. SIMV delivers a preset tidal volume or pressure at a predetermined respiratory rate and synchronizes with the patient's spontaneous breathing efforts, thereby enhancing patient-ventilator interaction and contributing to rehabilitation. Mandatory Minute Ventilation (MMV) is a hybrid mode combining features of SIMV and Pressure Support Ventilation (PSV), guaranteeing a preset minute ventilation (tidal volume × respiratory rate). It synchronizes support based on the patient's spontaneous efforts and compensates in cases of insufficient minute ventilation. Electrical Impedance Tomography (EIT) is a non-invasive, radiation-free imaging technique that enables real-time monitoring of pulmonary ventilation and perfusion by applying alternating electrical currents through surface electrodes. EIT has demonstrated strong correlation with findings from computed tomography, nitrogen washout, PET, and SPECT imaging modalities. This study aims to evaluate the effectiveness of MMV compared to SIMV in mechanically ventilated, hemodynamically stable adult patients (\>18 years old) in the intensive care unit. Patients must not require vasopressors, have a FiO₂ ≤ 60%, PEEP ≤ 8 cmH₂O, or receive neuromuscular blocking agents. Patients will be monitored under both SIMV and MMV modes, separated by a 12-hour interval. To minimize carry-over effects, a one-hour washout period will be implemented before data collection with EIT. Key parameters including PO₂/FiO₂ ratio, PaCO₂, and EtCO₂ will be assessed. The sequence of ventilatory mode application will follow a crossover study design.