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 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 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.
目的:分析长期机械通气患者脱机成败原因,提高脱机成功率。方法:针对本院2003年5月至2008年10月近6年ICU172例长期机械通气患者成败原因进行分析。结果:总脱机成功率90.69%。脱机失败率 9.31%。结论:长期机械通气患者多存在多种因素的共同参与,如营养不良、全身衰弱、呼吸功能不全、通气泵衰竭和心理因素等,增加了脱机的难度,进而出现撤机困难。
目的探讨纤维支气管镜(纤支镜)在体外循环术后机械通气患者中的应用。 方法回顾性分析2014年1~12月行纤支镜检查76例体外循环术后机械通气患者的临床资料,男45例、女31例,年龄21~71(42.8±6.3)岁。其中行二尖瓣置换术35例,主动脉瓣置换术11例,二尖瓣置换术+主动脉瓣置换术17例,冠状动脉旁路移植术5例,升主动脉+主动脉全弓或半弓人工血管置换术8例。术前心功能Ⅱ级25例、Ⅲ级39例、Ⅳ级12例。术前合并中、重度肺动脉高压13例,感染性心内膜炎5例。 结果76例患者中气道大量分泌物59例,气道严重充血、水肿明显9例,痰痂阻塞气管导管3例,血痂阻塞气管导管2例,导管部分闭塞2例,气道轻微渗血1例。59例经纤支镜检查吸出气道分泌物后,肺部湿啰音较检查前明显减轻,呼吸状态明显好转;其余17例也经纤支镜检查进行准确诊断和有效处理。本组患者在纤支镜检查中顺利完成痰液标本采集共31例,未发生缺氧、心律失常和出血等操作并发症。 结论体外循环术后机械通气患者行纤支镜检查,在维持呼吸道通畅、正确指导抗生素应用、辅助诊断治疗中有积极作用。
Objective To explore the effect of budesonide nebulization in the treatment of mechanically ventilated patients with chronic obstructive pulmonary disease(COPD).Methods A total of 25 intubated and ventilated COPD patients complicated with respiratory failure was randomly divided into two groups.The control group consisted of 12 patients received salbutamol nebulization on the routine treatment.The budesonide group consisted of 13 patients received budesonide plus salbutamol nebulization on the routine treatment.Variables such as tumor necrosis factor-α(TNF-α) and interleukin-8(IL-8) in the bronchoalveolar lavage fluid(BALF) , incidence of ventilation-associated lung injury(VALI) , days of mechanical ventilation ,, days of hospitalization and survival rate were measured and compared.Results The survival rate and incidence of VALI were not different significantly between the two groups.However , the levels of TNF-α and IL-8 in BALF of the control patients were significantly lower than those in the budesonide group[ ( 1.2±0.2 ) mg/L vs ( 1.5±0.4 ) mg/L ,( 85.7±26.5 )( 125.6±30.4 ), both Plt;0.05).And the days of mechanical ventilation and hospitalization were statistically shorter in the budesonide group compared with the control group[ (7.2±2.5 ) d vs ( 10.5±6.2 ) d , (10.5±4.7 ) d vs (15.8±6.6 ) d , both Plt;0.05].Conclusion Our data suggest that nebulization of budesonide can suppressed the pulmonary inflammation and decreased days of the mechanical ventilation and hospitalization in mechanically ventilated COPD patients.
ObjectiveTo analyze hospitalized patients of respiratory diseases with mechanical ventilation (MV). MethodsHospitalized patients with or without MV were enrolled into the current study from January 2010 to December 2014. Patients' characteristics including age and sex, type of illness and costs of hospital treatment were retrospectively analyzed. ResultsA total of 9,539 patients were hospitalized into Department of Respiratory Medicine, The General Hospital of Shenyang Military Area Command in the past 5 years. Of them, 1,531 (16.0%) patients were treated with MV, 764 of the 1,531 (49.9%) patients received non-invasive mechanical ventilation (NIMV), 135 of the 1,531 (8.8%) received invasive mechanical ventilation (IMV), and 632 of the 1,531 (41.3%) received NIMV plus IMV. The percentage of patients older than 65 years in the three groups as above were 71.3%, 63.0% and 72.2%, significantly higher than the Non-MV group's 47.7% (P<0.05); the percentage of males were 52.7%, 82.2% and 63.3% respectively, the later two groups was significantly higher than the Non-MV group's 59.2% (P<0.05); the percentage of ICU admission were 67.0%, 70.4% and 82.8%, significantly higher than the Non-MV group's 24.0% (P<0.05); the percentage of type Ⅰ respiratory failure were 12.4%, 29.6% and 12.4%, the later two groups was significantly higher than the Non-MV group's 13.2% (P<0.05); the percentage of type Ⅱ respiratory failure were 76.6%, 17.8% and 47.0%, all were significantly higher than the Non-MV group's 7.6% (P<0.05). Twenty-one kinds of common co-morbidities for respiratory hospitalized patients were analyzed and it was found that MV patients were likely to have more co-morbidities. Compared to Non-MV group, IMV group had more co-morbidities of type Ⅰ or type Ⅱ respiratory failure caused by pneumonia, bronchiectasis and other infectious diseases and concomitant with hypoalbuminemia, gastrointestinal bleeding and liver and kidney dysfunction and cerebrovascular disease, with statistically significant differences (P<0.05); NIMV group had more co-morbidities of type Ⅱ respiratory failure caused by chronic bronchitis, emphysema, pulmonary heart disease and other chronic airway diseases, and concomitant with coronary heart disease, heart failure, cerebrovascular disease and renal dysfunction, with statistically significant differences (P<0.05); the co-morbidity spectrum of NIMV plus IMV group was between those of IMV and NIMV groups, but more similar to that of IMV group. The high risk factors for IMV were pneumonia, hypoalbuminemia, gastrointestinal bleeding, and cerebrovascular disease; for NIMV were chronic bronchitis, emphysema, pulmonary heart disease, type Ⅱ respiratory failure and cardiac dysfunction. Cost analysis showed that average cost of Non-MV, NIMV, IMV, and NIMV plus IMV patients were 16 359 yuan, 31 872 yuan, 66 924 yuan, and 98 648 yuan respectively, in which the expense of NIMV plus IMV patients was vastest. ConclusionsHospitalized patients receiving MV therapy tend to be older, stay in ICU, complicated with respiratory failure and multiple co-morbidities. Respiratory failure by chronic obstructive airways disease is more often treated with NIMV, but respiratory failure by lung infection often need IMV.
In the clinical practice, the mechanical ventilation is a very important assisting method to improve the patients' breath. Whether or not the parameters set for the ventilator are correct would affect the pulmonary gas exchange. In this study, we try to build an advisory system based on the gas exchange model for mechanical ventilation using fuzzy logic. The gas exchange mathematic model can simulate the individual patient's pulmonary gas exchange, and can help doctors to learn the patient's exact situation. With the fuzzy logic algorithm, the system can generate ventilator settings respond to individual patient, and provide advice to the doctors. It was evaluated in 10 intensive care patient cases, with mathematic models fitted to the retrospective data and then used to simulate patient response to changes in therapy. Compared to the ventilator set only as part of routine clinical care, the present system could reduce the inspired oxygen fraction, reduce the respiratory work, and improve gas exchange with the model simulated outcome.
ObjectiveTo investigate the risk factors associated with failure of weaning from invasive mechanical ventilation in gerontal patients with acute exacerbation of chronic obstructive pulmonary disease (AECOPD). MethodsA retrospective study was conducted on 76 patients aged 65 years and older with AECOPD who received invasive mechanical ventilation and met the weaning criteria from July 2012 to June 2014. The subjects who passed the spontaneously breathing trial (SBT) and did not need mechanical ventilation within 48 h were enrolled into a weaning success group. The subjects who did not pass the SBT or needed mechanical ventilation again within 48 h were enrolled into a weaning failure group. The risk factors associated with failure of weaning were studied by univariate and multivariate Logistic regression analysis. ResultsThere were 53 subjects in the weaning success group and 23 in the weaning failure group. The incidences of sepsis, multiple organ dysfunction syndrome (MODS), fungal infection, hypoproteinemia, duration for mechanical ventilation > 14 d, the prevalences of aeropleura, cardiac failure, diabetes, coronary heart disease and hepatic insufficiency were higher in the weaning failure group than those in the weaning success group (P < 0.05). Logistic analysis revealed that MODS (OR=8.070), duration for mechanical ventilation > 14 d (OR=17.760), cardiac failure (OR=4.597) and diabetes (OR=13.937) were risk factors of weaning failure (P < 0.05). ConclusionMODS, duration for mechanical ventilation > 14 d, cardiac failure and diabetes were associated with the failure of weaning from invasive mechanical ventilation in gerontal patients with AECOPD.