Pulmonary complications after cardiac surgeries are common. It is one of the most crucial concerns of cardiac surgeons and anesthesiologists. These adverse events may vary from a mild respiratory dysfunction to acute respiratory distress syndrome (ARDS). One of the most public reasons of these complications is atelectasis that would result in hypoxia and pneumonia. Any of these adverse events rises the prevalence of morbidity and mortality. The chief inducing causes for atelectasis are CPB and dropped blood perfusion and ventilation of the lungs. The ventilation arrest is related with a high frequency of retained bronchial sections, local atelectasis, decrease in arterial O2 concentrations as a effect of surge in arteriovenous shunt, declined lung compliance, pulmonary edema and hence increased risk of nosocomial infections. Electrical Impedance Tomography (EIT) is a non-invasive, radiation-free, real time bedside imaging modality, which provide the assessment of regional gas volume and lung ventilation. EIT has been experienced in quite a lot of animal and clinical applications including optimization of mechanical ventilator strategies and recognition of respiratory adverse events. Besides, EIT has been used to recognize ideal PEEP by detection of homogenous ventilation in non-dependent and dependent lung regions. Homogeneous ventilation is key for inhibition of ventilator-induced lung injury.
The aim of this study is to use four different ventilatory strategies 【Group R : IMV(intermittent mandatory ventilation) Regular Ventilation with Tidal volume with 7ml/ kg (Predicted body weight) ; Group RP, Regular Ventilation with Tidal volume with 7ml/ kg (Predicted body weight) + PEEP : 6 cm H2O ;Group RI : Regular Ventilation with Tidal volume with 7ml/ kg (Predicted body weight) + Reverse IE ratio ventilation( I:E=1:1) ;Group RPI: Regular Ventilation with Tidal volume with 7ml/ kg (Predicted body weight) + PEEP : 6 cm H2O + Reverse IE ratio ventilation( I:E=1:1)】 to compare the beneficial in decreasing the incidence of post-operative pulmonary dysfunction after cardiac surgery including of the data of EIT, GAS , Lactate , PFR:PaO2/FiO2 ratio , cardiac index (CI) , BMI..etc . EIT were measured at two perioperative timepoints 1. after intubation at the onset of anesthesia with mechanical ventilation with 7ml/ kg (Predicted body weight) 2. at the end of surgery.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
HEALTH_SERVICES_RESEARCH
Masking
SINGLE
Enrollment
50
Ventilation strategies with 4 kinds of ventilator mode since weaning cardiopulmonary bypass (CPB), Four group were control EtCO2 between 35~45mmHg by adjusting respiratory rate, EIT Measurements were performed under supine position
Department of Anesthesiology, Tri-Service General Hospital
Taipei, Neihu Dist, Taiwan
The correlation between Different ventilation mode and the relevant value of EIT
Compare the correlation between Different ventilation mode and the relevant value of EIT in the population of open heart surgery patient
Time frame: since weaning cardiopulmonary bypass (CPB) to the end of surgery
The demographic characteristics and relevant value of EIT
Campare the demographic characteristics and relevant value of EIT in the population of open heart surgery patient
Time frame: since weaning cardiopulmonary bypass (CPB) to the end of surgery
If the different ventilation mode setting can improve clinical outcome
Identify the different ventilation mode setting in open heart surgery patient if can improve clinical care benifit.
Time frame: since weaning cardiopulmonary bypass (CPB) to the end of surgery
The correlation between heart function & oxygenation and different ventilation mode
Survey the correlation between heart function \& oxygenation and different ventilation mode
Time frame: since weaning cardiopulmonary bypass (CPB) to the end of surgery
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