ObjectiveTo investigate the clinical value of peripheral blood vitamin D level in predicting the outcome of weaning from mechanical ventilation in critically ill patients.MethodsA total of 130 critically ill patients who undergoing mechanical ventilation for more than 48 hours in our hospital were recruited from June 2014 to June 2017. Serum 25(OH)D3 was detected on admission and before spontaneous breathing test (SBT) meanwhile general clinical data and laboratory examination indexes were recorded. The cases were divided into a successful weaning group and a failure weaning group according to the outcome of weaning from mechanical ventilation. Logistic regression equation was used to analyze the relationship between vitamin D level and failure weaning, and a receiver operating characteristic (ROC) curve was used to analyze the predictive value for failure weaning.ResultsThere were 46 patients with failure weaning among 130 patients (35.38%). Compared with the successful weaning group, the failure weaning group had significantly higher Acute Physiology and Chronic Health EvaluationⅡ score, longer duration in intensive care unit, higher respiratory rate, higher rapid shallow breathing index, higher C-reactive protein, higher N-terminal prohormone of brain natriuretic peptide, higher serum creatinine, and significantly lower albumin (all P<0.05). 25(OH)D3 level classifications on admission and before SBT in the failure weaning group were worse than those in the successful weaning group (P<0.05). 25(OH)D3 levels of the failure weaning group were lower than those of the successful weaning group [on admission: (18.16±4.33) ng/ml vs. (21.60±5.25) ng/ml, P<0.05; before SBT: (13.50±3.52) ng/mlvs. (18.61±4.30) ng/ml, P<0.05]. Multivariate logistic regression analysis showed that 25(OH)D3 levels on admission and before SBT were independent risk factors for failure weaning (OR values were 2.257 and 2.613, respectively, both P<0.05). ROC curve analysis showed that areas under ROC curve were 0.772 and 0.836, respectively, with sensitivities of 80.3% and 85.2%, specificities of 69.0% and 71.0%, respectively.Conclusions25(OH)D3 deficiency or insufficiency is common in critically ill patients. The lower the level of vitamin D, the higher the risk of failure weaning. So it may be an independent predictor of failure weaning.
Acute respiratory distress syndrome is one of the forms of respiratory failure that seriously threaten human life. It has the characteristics of very high morbidity, mortality and hospitalization costs. How to treat acute respiratory distress syndrome to improve the quality of life of patients is particularly important. Mechanical ventilation is an important treatment for acute respiratory distress syndrome. This article will review the progress in mechanical ventilation therapy for acute respiratory distress syndrome, including non-invasive mechanical ventilation and invasive mechanical ventilation (tidal volume, lung recruitment, positive end-expiratory pressure, prone position ventilation, and high-frequency oscillatory ventilation), aiming to provide basis and reference for future exploration of the treatment direction of acute respiratory distress syndrome.
Objective To explore the effect of early rehabilitation treatment on complications and prognosis of elderly patients with sever pneumonia undergoing mechanical ventilation. Methods The patients who meeting the inclusion criteria were randomly divided into an early rehabilitation group and a control group, with 35 cases in each group. On basis of same routine treatment, the early rehabilitation group was treated with early rehabilitation. The early rehabilitation methods included exercise therapy, electrical stimulation therapy, swallowing therapy, cough training and wheelchair-bed transfer training, etc. The patients received individual training methods according to their conditions. The difference of two groups were observed in the rates of ICU-acquired weakness (ICU-AW), ventilator-associate pneumonia (VAP), the incidence of delirium, the mechanical ventilation time, ICU-hospital time, total hospital time, 30-day hospital mortality, extubation fail rate and tracheotomy rate. Results Compare with the control group, the incidence of ICU-AW (14.28% vs. 37.14%), VAP (8.57% vs. 28.57%), and delirium (40.00% vs. 65.71%) in the early rehabilitation group were significantly reduced (all P<0.05). The duration of delirium [(3.50±1.31) dvs. (6.40±1.47) d], the ventilation time [(6.32±2.19) d vs. (9.40±4.43) d], ICU hospitalization time [(10.80±3.64) d vs. (15.31±3.85) d] and total hospitalization time [(22.52±7.56) d vs. (30.22±11.54) d] of the early rehabilitation group were significantly lower than the control group (all P<0.001). The tracheotomy rate and 30-day hospital mortality of the early rehabilitation group were significantly lower than the control group (25.71%vs. 51.42% and 28.57% vs. 54.28%, both P<0.05). There was no significant difference in extubation fail rate (5.71%vs. 11.42%, P>0.05). In the early rehabilitation group, there were no complications such as pipe prolapse, limb injury or serious arrhythmia. Conclusion Early rehabilitation can reduce the incidence of ICU-AW, VAP, delirium in elderly patients with severe pneumonia, help to shorten the mechanical ventilation time, ICU hospitalization time and total hospitalization time, reduce extubation failure rate and tracheotomy rate, so it is safe and effective, and worthy of being popularized and applied.
ObjectiveTo detect the concentration of 8-isoprostane (8-iso-PG) in exhaled breath condensate (EBC) of patients with or at risk for ARDS in ventilation, and investigate its clinical significance.MethodsFifty-five patients with or at risk for ARDS in ventilation admitted between February 2014 and June 2016 were recruited as an experimental group, and simultaneous 30 normal cases were recruited as a control group. Their EBC was collected with EcoScreen condenser. The EBC 8-iso-PG level of the patients between different grades of ARDS (mild, moderate, and sever) or at risk for ARDS was compared, and the correlation of EBC 8-iso-PG with the clinical indicators was analyzed.ResultsThe 8-iso-PG levels in EBC and serum of the patients with or at risk for ARDS in ventilation were higher than those in the control group [EBC: (44.83±11.58) ng/L vs. (19.47±4.06) ng/L; serum: (481.53±444.94) ng/L vs. (19.91±17.60) ng/L] (all P<0.05). The EBC 8-iso-PG of the patients with moderate ARDS (n=15) and severe ARDS (n=7) [(47.18±11.68) ng/L and (50.29±11.06) ng/L] was higher than those with mild ARDS (n=7) or at risk for ARDS (n=26) [(33.04±7.62) ng/L) and (37.17±11.08) ng/L] (all P<0.05). However EBC 8-iso-PG was not different between the patients with mild ARDS and those at risk for ARDS (P>0.05 ). The increased EBC 8-iso-PG could predict ARDS with an area under the receiver operating curve of 0.73. The EBC 8-iso-PG of the patients with or at risk for ARDS was correlated with lung injury score (r=0.418, P<0.01), PaO2/FiO2 (r=–0.378, P<0.05), chest radiograph scores (r=0.410, P<0.05), AaDO2 (r=0.368, P<0.05), and APACHEⅡ score (r=0.718, P<0.05).ConclusionEBC 8-iso-PG can reflect the oxidative stress in lung of ARDS patients in ventilation, and can contribute to the diagnosis and evaluation for moderate and severe ARDS.
ObjectiveTo investigate the condensate pollution in the pipeline of severe pneumonia patients undergoing mechanical ventilation.MethodsFrom January 2017 to January 2019, 120 patients with severe pneumonia treated by mechanical ventilation in our hospital were collected continuously. The lower respiratory tract secretions were collected for bacteriological examination. At the same time, the condensed water in the ventilator exhaust pipe was collected for bacteriological examination at 4, 8, 12, 16, 20 and 24 hours after tracheal intubation and mechanical ventilation. The bacterial contamination in the condensed water at different time points was analyzed and separated from the lower respiratory tract. The consistency of bacteria in secretion and drug resistance analysis of bacterial contamination in condensate water were carried out.ResultsOf the 120 patients with severe pneumonia after mechanical ventilation, isolates were cultured in the lower respiratory tract secretions of 102 patients. One strain was cultured in 88 cases, two strains were cultured in 10 cases, and three strains were cultured in 4 cases. The isolates were mainly Gram-negative bacteria (57.5%) and Gram-positive bacteria (42.5%). The most common isolates were Pseudomonas aeruginosa, Staphylococcus aureus and Acinetobacter baumannii. The contamination rate of condensate water was 5.0% at 4 hours, 37.5% at 8 hours, 60.0% at 12 hours, 76.7% at 16 hours, 95.0% at 20 hours, and 100.0% at 24 hours, respectively. The bacterial contamination rate in condensate water at different time points was statistically significant (P=0.000). The pollution rate at 4 hours was significantly lower than that at 8 hours (P=0.000). Gram-negative bacteria accounted for 57.5% and Gram-positive bacteria accounted for 42.5%. The most common isolates were Staphylococcus aureus, Pseudomonas aeruginosa and Acinetobacter baumannii. The consistency of bacteria in lower respiratory tract and condensate water was 83.3% in severe pneumonia patients undergoing mechanical ventilation. The overall resistance of Pseudomonas aeruginosa, Acinetobacter baumannii and Staphylococcus aureus was higher, but the resistance to imipenem/cilastatin was lower.ConclusionsThe bacterial contamination in the condensate of patients with severe pneumonia during mechanical ventilation is serious. The pollution rate is low within 4 hours. It is consistent with the bacterial contamination in lower respiratory tract and the bacterial resistance is high.
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 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 investigate the predictive value of diaphragm rapid shallow breathing index (D-RBSI) in weaning from mechanical ventilation in patients with chronic obstructive pulmonary disease (COPD).MethodsSeventy-six patients with COPD who were undergoing mechanical ventilation were enrolled in department of critical care medicine of our hospital from March 2016 to March 2017. The patient underwent spontaneous breathing test (SBT) using CPAP mode after weaning screening. When the SBT had started 10 min or the SBT failed, the patients' respiratory rate (RR) and tidal volume were recorded, and the diaphragmatic displacement (DD) of patients was measured by bedside ultrasound. The ratio of RR to DD (RR/DD) was calculated as D-RBSI, and the predictive value of D-RBSI on weaning results in mechanically ventilated patients with COPD was analyzed by receiver operating characteristic (ROC) curve.ResultsTwenty-eight patients failed weaning procedure. There were no significant differences in age and acute physiology and chronic health evaluation II scores between the successful group and the failed group. The DD of the patients in the successful group was greater than that of the failed group [(22±6) mm vs. (13±5) mm, P<0.001]. RBSI and D-RBSI of the successful group were lower than those of the failure group [RBSI: (40±14) breaths/(min·L)vs. (52±20) breaths/(min·L), P=0.003; D-RBSI: (0.95±0.51) breaths/(min·mm) vs. (1.79±0.83) breaths/(min·mm), P<0.001)]. There was a good correlation between the RBSI and D-RBSI in the two groups (R2=0.778, P<0.001). The area under the ROC curve predicted the weaning result by D-RBSI was higher than RBSI (0.85vs. 0.75, P<0 001="" the="" cutoff="" value="" of="" d-rbsi="">1.13 breaths/(min·mm) to predict weaning failure had a sensitivity of 0.82, and a specificity of 0.81.ConclusionThe rapid shallow breathing index of diaphragm can be effectively used to predict the weaning result of COPD patients during mechanical ventilation.
Objective To analyze the risk factors for duration of mechanical ventilation in critically ill patients. Methods Ninety-six patients who received mechanical ventilation from January 2011 to December 2011 in intensive care unit were recruited in the study. The clinical data were collected retrospectively including the general condition, underlying diseases, vital signs before ventilation, laboratory examination, and APACHEⅡ score of the patients, etc. According to ventilation time, the patients were divided into a long-term group ( n = 41) and a short-term group ( n = 55) . Risk factors were screened by univariate analysis, then analyzed by logistic regression method.Results Univariate analysis revealed that the differences of temperature, respiratory index, PaCO2 , white blood cell count ( WBC) , plasma albumin ( ALB) , blood urea nitrogen ( BUN) , pulmonary artery wedge pressure ( PAWP) , APACHEⅡ, sex, lung infection in X-ray, abdominal distention, and complications between two groups were significant.With logistic multiple regression analysis, the lower level of ALB, higher level of PAWP, lung infection in X-ray, APACHE Ⅱ score, abdominal distention, and complications were independent predictors of long-term mechanical ventilation ( P lt;0. 05) . Conclusion Early improving the nutritional status and cardiac function, control infection effectively, keep stool patency, and avoid complications may shorten the duration of mechanical ventilation in critically ill patients.
Objective To analyze the common causes of ventilator alarms during mechanical ventilation and their management. Methods A total of 104 ventilator alarms that were not instantly solved by first-line residents but referred to pulmonary therapist and attending physicians during September 2007 and August 2008 in the MICU of our hospital were analyzed retrospectively. Results Of all the 104 ventilator alarms, 27 ( 26%) were due to problems of ventilation circuits; 18 were due to patient effortagainst ventilator secondary to anxiety, horror or pain; 15 were due to inappropriate ventilator parameters;13 were due to airway problems; 5 were due to ventilator malfunction; 4 were due to worsening clinical status; 22 were due to other causes. Conclusion During mechanical ventilation, accurate assessment andprompt management of ventilator alarms are of great importance to patient safety and ventilation efficacy.