Objective To investigate the effect of a real-time compliance dashboard to help reduce ventilator-associated pneumonia ( VAP) with ventilator bundle. Methods 240 patients who were admitted into the intensive care unit ( ICU) of Shougang Hospital of Peking University and had received mechanical ventilation ( MV) for over 48 hours, between January 2010 and November 2011, were studied prospectively. The patients were divided into two groups by random number table, ie. a dashboard group ( n = 120) with implementation of a real-time compliance dashboard to help reduce VAP with ventilator bundle, and a control group ( n=120) with implementation of usually routine order to help reduce VAP with ventilator bundle. The success rate of ventilator bundle implementation, incidence of VAP, duration of MV, duration within ICU, mortality within 28 days, cost within ICU were compared between two groups. Results Compared with the control group, the success rate of ventilator bundle implementation obviously increased ( 81.6% vs. 52.5%) , incidence of VAP ( 14. 5/1000 days of MV vs. 36.2 /1000 days of MV) , duration of MV [ 5( 4,7) days vs. 8( 6,11) days] , duration within ICU [ 8( 6,12) days vs. 13( 8,16) days] , mortality of 28 days ( 12.6% vs. 28.6% ) , and cost within ICU ( 36,437 vs. 58,942) in the dashboard group obviously reduced ( Plt;0.05) . Conclusions Implementation of a real time compliance dashboard to help reduce VAP with ventilator bundle can obviously improve medical personnel compliance and reduce incidence of VAP, duration of MV, duration within ICU, mortality and cost in ICU than those of routine medical order to help reduce VAP with ventilator bundle.
Objective To analyze the clinical features and treatment of severe H1N1 influenza.Methods The clinical data of 34 patients with severe H1N1 influenza admitted to intensive care unit from October to December 2009 were reviewed. Results The patients aged 3 months to 60 years with an average of ( 13. 9 ±4. 5) years, of which 24 patients were younger than 7 years old. Fever( 30 cases) , cough( 32 cases) , progressive shortness of breath( 19 cases) were the main symptoms. White blood cell count was normal in 21 cases, increased in 6 cases, and decreased in 7 cases. Lymphocyte count was normal in 16 cases, increased in 12 cases, and decreased in6 cases. Chest X-ray films showed bilateral or unilateral patchy pulmonary fuzzy shadows in28 cases. Chest CT showed diffuse interstitial lesion in1 case, pleural effusion in 2 cases, and bronchiectasis in 1 case. The hepatic and myocardial enzymogramparameters were all abnormal.30 cases were treated by oseltamivir and ribavirin, 4 cases by methyllprednisolone, and 6 cases by gamma globulin. 8 cases underwent routine intubation and mechanical ventilation, and 5 cases received non-invasive mechanical ventilation. All 34 patients were cured. Conclusions Lung, heart, and liver are the major target organs in severe H1N1 influenza. Mechanical ventilatory support is an important treatment for severe H1N1influenza.
Objective To investigate the therapeutic effects of biphasic positive airway pressure (Bilevel) ventilation and volume ventilation plus [VV+,including volume control plus (VC+) and volume support (VS)] on respiratory failure in patients with chronic obstructive pulmonary disease (COPD).Methods 63 patients with COPD complicated by acute respiratory failure were intubated and underwent mechanical ventilation for at least 24 hours.At the first patients were underwent assist-control (A/C) ventilation for 2 to 4 hours to obtain the suitable basic ventilatory parameters.Meanwhile,the hemodynamics and oxygen dynamic parameters were measured.Then the patients were randomly allocated to three groups with 21 patients in each group and the ventilation mode was switched to Bilevel,VC+ and A/C mode correspondingly.The setting parameter was identical in three modes.In the process of weaning,patients in Bilevel group were ventilated with Bilevel and pressure support ventilation (PSV) mode at each pressure level,and subdivided into Bilevel and PSV 1 group accordingly.In VC+ group,the mode was switched to VS and PSV mode and subdivided into VC+ group and PSV 2 group,respectively.Every mode was run for 30 minutes while the ventilation function,blood gas exchange and lung mechanics index were measured.Results In the initial stage,the airway peak pressure (PIP) of Bilevel and VC+ mode obviously decreased,and the respiratory compliance was higher compared to the A/C mode. The effectiveness of Bilevel and A/C was equivalent in improving alveolar ventilation and oxygenation.The difference in the change of circulation function and blood gas between the two groups were not significant (Pgt;0.05).In the process of weaning,the effectiveness of Bilevel and VV+ was equal to PSV.The changes of breathing mode and blood gas between the two groups had no significant differences.Conclusions Bilevel and VV+ mode ventilation can be used in the whole mechanical ventilation for acute respiratory failure due to COPD with lower PIP,higher respiratory compliance compared to A/C model and similar performance as PSV during mechanical ventilation withdrawn.
ObjectiveTo explore the incidence, treatment and prognosis of neonatal respiratory failure (NRF). MethodsThe clinical data of 421 neonates with NRF treated between January 2011 and December 2013 were retrospectively analyzed. ResultsThe incidence and the mortality of NRF was 4.8% and 14.5%, respectively. The main primary disease of NRF was neonatal respiratory distress syndrome (36.1%) and aspiration pneumonia (29.0%). Mechanical ventilation was the main treatment for NRF (77.2%). Premature (χ2=12.216, P<0.001), low birth weight (χ2=8.932, P=0.003) and the neonatal asphyxia (χ2=6.199, P=0.013) were closely related to the prognosis of NRF, which were the risk factors of the death of NRF. ConclusionNRF is a disease with high incidence and high mortality; make effective prevention and treatment measures are important to improve the success rate of therapy for NRF.
Objective To compare the humidification effect of the MR410 humidification system and MR850 humidification system in the process of mechanical ventilation. Methods Sixty-nine patients underwent mechanical ventilation were recruited and randomly assigned to a MR850 group and a MR410 group. The temperature and relative humidity at sites where tracheal intubation or incision, the absolute humidity, the sticky degree of sputum in initial three days after admission were measured. Meanwhile the number of ventilator alarms related to sputum clogging and pipeline water, incidence of ventilator associated pneumonia, duration of mechanical ventilation, and mortality were recorded. Results In the MR850 group,the temperature of inhaled gas was ( 36. 97 ±1. 57) ℃, relative humidity was ( 98. 35 ±1. 32) % , absolute humidity was ( 43. 66 ±1. 15) mg H2O/L, which were more closer to the optimal inhaled gas for human body.The MR850 humidification system was superior to the MR410 humidification system with thinner airway secretions, less pipeline water, fewer ventilator alarms, and shorter duration of mechanical ventilation. There was no significant difference in mortality between two groups. Conclusions Compared with MR410 humidification system, MR850 humidification system is more able to provide better artificial airway humidification and better clinical effect.
ObjectiveTo systematically review the effects of ulinastatin on postoperative intensive care unit (ICU) stay time and mechanical ventilation time in patients with cardiopulmonary bypass (CPB). MethodsWe searched databases including MEDLINE, EMbase, Web of Science, The Cochrane Library (Issue 5, 2014), CBM, CNKI, WanFang Data and VIP from inception to May, 2014, to collect randomized controlled trials (RCTs) of ulinastatin for patients with CPB. Meanwhile, conference papers, dissertation and references of included studies were also retrieved manually to collect additional studies. Two reviewers independently screened literature, extracted data and assessed the risk of bias of included studies. Then, meta-analysis was performed using RevMan 5.2.0 software. ResultsA total of 7 RCTs involving 299 patients were included. The results of meta-analysis showed that:(1) There was no difference between two groups in ICU stay time (MD=-5.40, 95%CI -17.75 to 6.94, P=0.39); (2) The time of mechanical ventilation of the urinastatin group was significantly shorter than that of the saline group (MD=-6.58, 95%CI -10.61 to -2.56, P=0.000 1). The results of subgroup analysis showed that:in the CPB time >100 min subgroup, the time of mechanical ventilation of the urinastatin group was significantly shorter than that of the saline group (MD=-13.85, 95%CI -21.28 to -6.42, P=0.000 3); however, in the CPB time <100 min subgroup, there was no significant difference between two groups in the time of mechanical ventilation (MD=-1.39, 95%CI -3.22 to 0.45, P=0.14). ConclusionCurrent evidence shows, compared with saline, the administration of urinastatin during CPB can reduce postoperative mechanical ventilation time, but cannot reduce ICU stay time. Due to limited quality and quantity of the included studies, more high quality studies are needed to verify the above conclusion.
Objective To evaluate the effects of different inspiratory flow waveforms on the respiratory function of patients with severe exacerbation of asthma during mechanical ventilation. Methods Twenty-one patients with severe exacerbation of asthma were ventilated with square waveform and decelerating waveform respectively for 30 minutes when the tidal volume was set at 6 mL/ kg, 8 mL/ kg and 10 mL/ kg in ICUof Zhejiang Hospital of Integrated Traditional Chinese and Western Medicine fromJanuary 2006 to December 2007. Meanwhile shunt fraction ( Q·S /Q·T ) , dead space value ( VD/VT ) , airway peak pressure ( Ppeak ) , plateau pressure ( Pplat) ,intrinsic positive end-expiratory pressure( PEEPi) and arterial blood gas analysis were measured. Results The Q ·S /Q·T in the decelerating waveformgroup was less than that of the square waveform group( P lt;0. 05) when tidal volume was set at 6 mL/ kg. When tidal volume was set at 10 mL/ kg, PEEPi and VD /VT in the decelerating waveform group were higher than those of the square waveform group. On the contrary, the Ppeak was lower than that of square waveform group( P lt; 0. 05) . Conclusion For patients with severe exacerbation of asthma treated with mechanical ventilation, decelerating waveform is preferable at low tidal volume( 6 mL/ kg) , and square waveform is preferable at high tidal volume( 10 mL/kg) .
Objective To establish a rabbit model of ventilator-induced lung injury. Methods Fourty healthy New Zealand rabbits were randomly divided into 3 groups: ie. a routine 8 mL/kg tidal volume group( VT8 group) , 25 mL/kg large tidal volume group( VT25 group) , and 40 mL/kg large tidal volume group( VT40 group) . VT25 and VT40 group were further divided into 2 hours and 4 hours ventilation subgroups. Arterial blood gas, lung mechanical force and hemodynamic parameters were monitored. Lungtissue was sampled for evaluate lung wet/dry ratio and lung injury by HE stain. Bronchoalveolar lavage fluid ( BALF) was collected for measurement of protein concentration, total and differential cell counts. Results Compared with VT8 group, lung injury score in both VT40 and VT25 groups were elevated significantly, ofwhich 4 hour VT40 subgroup was the highest. Lung pathology examination of VT40 group revealed apparent alveolar deformation, interstitial and alveolar space exudation, inflammatory cells infiltration, pulmonary consolidation and alveolar hemorrhage. Lung pathology examination of VT25 group showed pulmonary intervalthickening, inflammatory cells infiltration, while alveolar intravasation was mild. Blood gas analysis showed that PaO2 /FiO2 was deteriorated with time in VT25 and VT40 groups, and PaO2 /FiO2 at the 3 hours in VT40 group( lt; 300 mm Hg) had met the acute lung injury standard, while which in VVT25 group was above 300 mmHg. Lung wet/dry ratio, BALF protein concentration, total nucleated cell and neutrophilic leukocyte were elevated in both VT25 and VT40 groups, of which 4 hours VT40 group was the highest. Conclusion Using 4 hours ventilation at a tidal volume of 40 mL/kg can successfully establish the rabbit model of ventilator-induced lung injury.
Objective To evaluate the diagnostic value of soluble triggering receptor expressed on myeloid cells-1 ( sTREM-1 ) in endotracheal aspirate and plasma of patients with ventilator-associated pneumonia ( VAP) . Methods The consentration of sTREM-1 in plasma and endotracheal aspirate, and serum high-sensitivity C-reactive protein ( hs-CRP) were measured by enzyme-linked immunosorbent assay ( ELISA) in 68 patients with VAP ( VAP group) , 50 patients underwent ventilation without VAP ( non-VAP group) , and 50 healthy individuals ( control group) . The sensitivity and specificity of each parameter were calculated. Results In the patients with VAP, sTREM-1 in plasma and endotracheal aspirate before treatment were significantly higher than that in the non-VAP group [ ( 143.62 ±46.82) pg/mL vs. ( 68.56 ±16.24) pg/mL, ( 352.86 ±92.57) pg/mL vs. ( 126.21 ±42.28) pg/mL, Plt;0.05] ; sTREM-1 in plasma and endotracheal aspirate on the 3rd and the 7th day during treatment were significantly decreased ( Plt;0. 05) . By ROC analysis, the cut-off value of sTREM-1 in endotracheal aspirate were 193.64 pg/mL, with sensitivity and specificity of 93.84% and 89.51% respectively. The areas under ROC curve of sTREM-1 in endotracheal aspirate were 0.912. Clinical diagnostic value of sTREM-1 in endotracheal aspirate was better than plasma sTREM-1 and serum hs-CRP ( areas under ROC curve were 0. 768 and 0. 704 respectively) . Conclusions sTREM-1 may be helpful for evaluating the therapeutic effect in patients with VAP. The diagnostic value of sTREM-1 in endotracheal aspirate may be superior to plasma sTREM-1 and serum hs-CRP.
Objective To observe the serumlevel of neuron-specific enolase( NSE) in patients with pulmonary encephalopathy and its changes after treatment with mechanical ventilation. Methods Twentyone patients with pulmonary encephalopathy were enrolled. Glasgow coma scale( GCS) , serumNSE level, and arterial blood gas were evaluated at three time-points: before mechanical ventilation, after 12 hours mechanical ventilation, and the moment of consciousness. Results 18 patients recovered consciousness, and 3 patients remained in persistent coma and died. GCS and arterial blood gas improved obviously after 12 hours mechanical ventilation. Meanwhile, the serumNSE concentration decreased significantly after 12 hours mechanical ventilation [ ( 24. 54 ±6. 65) μg/L] and at the moment of consciousness [ ( 14. 19 ±2. 91) μg/L] compared with before mechanical ventilation( P lt; 0. 05, P lt; 0. 01) . Conclusion Dynamic measurment of serumNSE may be a useful biomarker for assessing the severity of cerebral injury and predicting prognosis.