Objective To compare the sequential efficacy of high-flow nasal cannula oxygen therapy (HFNC) with non-invasive mechanical ventilation (NIV). Methods Randomized controlled trials comparing the efficacy of NIV sequential invasive mechanical ventilation with HFNC were included in the Chinese Journal Full-text Database, VIP Journal database, Wanfang Database, Chinese Biomedical Literature Database, PubMed, Cochrane Library and Embase. Meta-analysis was performed using RevMan5.4 software. Results A total of 2404 subjects were included in 19 studies. Meta-analysis results showed that compared with NIV, HFNC had a statistically significant difference in reducing patients' re-intubation rate in invasive mechanical ventilation sequence [relative risk (RR)=0.65, 95% confidence interval (CI) 0.50 - 0.86, Z=3.10, P=0.002]. HFNC showed statistically significant difference compared with NIV in reducing lung infection rate (RR=0.40, 95%CI 0.21 - 0.79, Z=2.67, P=0.008). HFNC was significantly different from NIV in terms of length of stay in Intensive Care Unit (ICU) (MD=–5.77, 95%CI –7.64 - –3.90, Z=6.05, P<0.00001). HFNC was significantly different from NIV in improving 24 h oxygenation index (MD=13.16, 95%CI 8.77 - 17.55, Z=5.87, P<0.00001). There was no significant difference in ICU mortality between HFNC and NIV (RR=0.70, 95%CI 0.45 - 1.08, Z=1.61, P=0.11). Conclusion Compared with NIV, sequential application of HFNC in invasive mechanical ventilation can improve the reintubation rate and pulmonary infection rate to a certain extent, reduce the length of ICU stay and improve the 24 h oxygenation index, while there is no difference in ICU mortality, which is worthy of clinical application.
ObjectiveTo investigate the effects of arterial blood gas index control during invasive mechanical ventilation on prognosis in COPD patients with type Ⅱ respiratory failure. MethodsSeventy-six COPD patients with hypercapnic respiratory failure who underwent invasive mechanical ventilation were recruited in the study. The patients were divided into group A with conventional arterial blood gas index control [pH of 7.40±0.05,PaO2 of (70±5)mm Hg,PaCO2 of (55±5)mm Hg],and group B with low index control [pH of 7.35±0.05,PaO2 of (60±5)mm Hg,PaCO2 of (60±5)mm Hg]. Two groups were compared on the required parameters of invasive mechanical ventilation,the duration of invasive mechanical ventilation,the incidence rate of sequential therapy in noninvasive mechanical ventilation,ventilator associated pneumonia and secondary intubation,etc. ResultsThe required parameters of invasive mechanical ventilation in group B including tidal volume (VT) and pressure support (PS),the duration of invasive mechanical ventilation,the incidence rate of sequential therapy in noninvasive mechanical ventilation,ventilator associated pneumonia and secondary intubation were all significantly lower than those in group A (P<0.05). ConclusionThe strategy to permit a lower PaO2 and carbon dioxide retention to a certain extent at lower FiO2,VT and PS levels in invasive mechanical ventilation can reduce the duration of invasive mechanical ventilation and the occurrence of ventilator associated complications,and improve the prognosis in COPD patients with type Ⅱ respiratory failure.