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。
Objective To determine the usefulness of serial measurements of the rapid shallow breathing index ( f/VT , RSBI) as a predictor for successfully weaning of patients undergoing prolonged mechanical ventilation ( gt; 72 hours) . Methods 76 mechanically ventilated patients were prospectively analyzed. 120-min spontaneous breathing trial was conducted after the patients having fullfiled the traditional weaning criteria, and RSBI were continuously monitored by the ventilator at five time points ( 5, 15, 30,60, and 120 min) . A repeated measure of general linear model in SPSS 15.0 was conducted to analyze the data. Results 62 patients completed 120-minute spontaneous breath trial and in which 20 patients failed weaning. There was no significant difference of RSBI at five time points during weaning ( P gt;0. 05) . But thevariation trends of RSBI during weaning time were significant different between the successful weaning patients and the failed weaning patients ( P lt; 0. 05) . Conclusions In patients undergoing prolonged mechanical ventilation, the variation trend of RSBI is more valuable than single RSBI in the prediction ofsuccessful weaning.
Objective To assess the correlation between bispectral index (BIS) and richmond agitation sedation scale (RASS) and sedation-agitation scale (SAS) through the spearman correlation coefficient by systematic review. Methods Databases including PubMed, EMbase, Web of Science, The Cochrane Library (Issue 7, 2016), CNKI, VIP, WanFang Data and CBM were searched from inception to July 2016 to collect literature on the correlation between BIS and RASS and SAS. The studies were screened according to the inclusion and exclusion criteria. After extracting data and assessing the quality of the included studies, meta-analysis was conducted using Comprehensive Meta Analysis 3.0 software. Results A total of 12 studies involving 397 patients were included. BIS was positively correlated with RASS score and SAS, and the summary correlation coefficient was 0.742 with 95% CI 0.678 to 0.795 and 0.605 with 95% CI 0.517 to 0.681, respectively. Conclusion BIS has a good correlation with RASS and SAS, which will provide more options for assessing sedation of patients with mechanical ventilation in ICU.
摘要:目的: 评价机械通气对胸腔内脉搏氧饱和度的影响。 方法 :以食道、气管和降主动脉作为胸腔内脉搏氧饱和度的监测位点,将改制后的氧饱和度探头分别固定于上述部位,并连接于同一监护仪上。纯氧通气,待上述氧饱和度容积波波形和读数稳定,停止机械通气30s。以录像的方式记录机械通气停止前后30 s内食道、气管和降主动脉SpO2容积波和读数的变化。同时记录舌SpO2。 结果 :机械通气时,食道、气管和降主动脉三个监测位点均可获得异常高大的SpO2容积波;停止通气时,异常高大的氧饱和度波形消失。食道、气管和降主动脉脉搏容积波变异率分别为112%,74%,302%。降主动脉脉搏容积波的变异率明显高于食道和气管( 〖WTBX〗P <005)。机械通气停止前后30s内食道、气管和降主动脉的SpO2读数变化无显著差异(〖WTBX〗P >005)。 结论 :机械通气对胸腔内食道、气管和降主动脉氧饱和度读数无影响,主要影响是脉搏容积波。且各位点间脉搏氧容积波受呼吸的影响不同。Abstract: Objective: To investigate the impact of mechanical ventilation on pulse oximetry in thoracic cavity. Methods : After dogs anesthesia induction and thoracotomy, pulse oximeters were simultaneously placed at esophagus, trachea, and descending aorta, and connected with the same monitor for SpO2 monitoring. During ventilation with 100% oxygen, the mechanical ventilator was temporarily switched off for 30 seconds after high quality PPG waveforms and SpO2 readings were obtained. SpO2 signals and readings from esophagus (SeO2), trachea (StraO2), descending aorta (SDAO2) shown on the monitoring screen were recorded by the SONY video before and after stopventilation. And StonO2 were also recorded. Results : Abnormally largeamplitude PPG waves were found in normal waves at monitoring sites of esophagus, trachea, and descending aorta in all animals during ventilation; however, they disappeared without ventilator. The variation rate in ventilationinduced PPG amplitude were 112%, 74%, 302% at esophagus, trachea and descending aorta respectively. The PPG amplitude variation rate from SDAO2 was higher than that from SeO2 and StraO2 (〖WTBX〗P <005). However, the SpO2 readings obtained from pulse oximetries in all sites were no significantly statistical difference within 30s before and after temporarily stopventilation (〖WTBX〗P >005). Conclusion : Abnormally amplitude PPG waveforms from oximetry probe placed at esophagus, trachea, and descending aorta were induced by ventilation. The Variation rate in ventilationinduced PPG amplitude was various at different monitoring sites. The SpO2 readings from esophagus, trachea, and descending aorta were not significantly contaminated by ventilation.
Objective To study the clinical feasibility of invasive mechanical ventilation with bilevel positive airway pressure(BiPAP) non-invasive ventilator in the stable patients needing prolonged mechanical ventilation.Methods Eleven patients with respiratory failure admitted in intensive care unit(ICU)of our department,who needed prolonged mechanical ventilation,between Jun 2004 and Nov 2007 were enrolled in the study and followed until death or Jan 2008.The arterial blood gas analysis data,length of stay(LOS),LOS after changing to BiPAP non-invasive ventilator(Synchrony,Harmony,RESPIRONICS,VPAP III ST-A,RESMED),survival time after discharge(or fulfilled the discharge standards) were reviewed retrospectively.Results The settings of inspiratory pressure,expiratory pressure and respiratory rate of non-invasive ventilation were 21.3 (16-26) cm H2O,4 cm H2O,and 16 min-1,respectively.The LOS (or up to the discharge standard) was (91.5±50.2) days.The LOS (or up to the discharge standard) after changing to BiPAP ventilator was (23.5±12.2) days.The mean survival time after discharge (or up to the discharge standard) was (353.1±296.5) days.Four patients were still alive up to the end of the study.The arterial pH,PaCO2,PaO2,and SaO2 were not significant different before and after changing to BiPAP ventilator.Conclusion The mechanical ventilation with BiPAP non-invasive ventilator via tracheotomy tube is an alternative choice for stable patients needing prolonged mechanical ventilation.
建立人工气道实施机械通气是治疗严重呼吸衰竭过程中挽救患者生命最常用的措施之一,然而通过人工气道的机械通气也增加了相关并发症发生的机会,如呼吸机相关性肺炎(VAP)等[1]。多数患者在应用呼吸机进行通气支持治疗中,当呼吸衰竭及其病因的病情缓解或明显改善时就可以解除人工气道和终止通气支持,但20%~30%的患者需要逐渐解除呼吸机的通气支持,谓之撤机(Weaning)[1]。尽管文献中撤机的定义略有不同,但主要指的是需要逐步减弱及停止通气支持和解除人工气道的一个时间过程。有慢性呼吸功能不全的患者撤机尤为困难,撤机困难患者的撤机时间可占总机械通气时间的40%[2]。机械通气时间延长与VAP发生率和病死率增加相关。一般来说,机械通气时间gt;3 d,VAP的发生率增加;机械通气时间gt;5 d,并发的VAP为晚发性医院获得性肺炎(HAP),其感染的病原体多为耐多药细菌,治疗难度加大,病死率高于早发性HAP。因此,对于机械通气患者来说,一旦建立人工气道实施有创通气,就应该积极创造条件,尽快撤机,去除人工气道。然而过快地降低和停止通气支持以及过早的气管拔管,可导致撤机失败和再插管。因此时机不成熟的撤机和延时撤机同样可造成机械通气时间过长,导致VAP发生率和病死率升高,以及医疗费用增加[2]。撤机的模式和方法有多种,但最佳的撤机方式仍有争议[1]。近年来无创通气(NIV)作为一种撤机方式用于临床已引起人们的兴趣和关注,但至今临床研究所得结论并未达到一致,NIV是否可以作为一种常规撤机方式用于临床尚无定论。本文通过总结近年来相关的临床研究,评价NIV用于机械通气撤机的可行性和利弊,探讨需进一步优化研究方案来解决的有关问题。
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 investigate the outcome and prognostic factors of hospital mortality in patients with acute cerebrovascular disease requiring mechanical ventilation.Methods Data from 94 patients with acute cerebrovascular disease in central intensive care unit(ICU) were collected and retrospectively analyzed.Prognostic factors of hospital mortality were analyzed by univariate statistics and multivariate logistic regression.Results Hospital mortality was 53.2%(50/94).There was significance diference in parameters such as APACHE II score,blood glucose,lengh of hospital stay,lengh of ICU stay,time of mechanical ventilation,incision of trachea,lung infections,lesion loci and its naturer between the survival and non-survival groups(all Plt;0.05).Multivariate logistic regression revealed that blood glucose,lung infections,diseased region under tentorium of cerebellum,time of mechanical ventilation were independent prognostic risk factors of hospital mortality(all Plt;0.05).Whereas the lengh of ICU stay was protective factor(Plt;0.05).Conclusion The hospital mortality is considerably high in patients with acute cerebrovascular disease requiring mechanical ventilation. The prognostic factors such as blood glucose and lung infections should be evaluate cautiously and prevented aggressively.
Objective We investigated the effect of supplementation with alanyl-glutamine dipeptide on insulin resistance and outcome in patients with chronic obstructive pulmonary disease (COPD) and respiratory failure. Methods A prospective, randomized, open and controlled trial was conducted. Patients with COPD and respiratory failure were recruited between Jan 2005 to Feb 2006 and randomly assigned to a trial group (n=14) with glutamine dipeptide supplmented parenteral nutrition and a control group (n=16) with isocaloric, isonitrogenic parenteral nutrition. On the third day and fifth day of nutrition treatment, blood glucose was clamped at level of 4.4 to 6.1 mmol/L by intravenously bumped insulin. Blood gas, blood glucose level, insulin dosage were recorded everyday. The outcomes were mortality, length of stay (LOS) in hospital and in ICU, mechanical ventilation times and the costs of ICU and hospital.Results Thirty patients successfully completed the trial. There was no difference in blood gas between two groups, but PaO2 increased gradually. Compared with control group, blood glucose level had trend to decrease in trial group. The average insul in consumption decreased significantly in trial group on the fifth day. There was no statistical difference between two groups in mortality, length of stay in hospital and the costs of hospital. But compared with control group, length of stay in ICU and mechanical ventilation days had trend to decrease in trial group. Conclusion Alanyl-glutamine dipeptide do not improve pulmonary function of patients with COPD and respiratory failure. However, alanyl-glutamine dipeptide attenuated insul in resistance and stabilized blood glucose. This trial does not confirm alanyl-glutamine di peptide can improve outcome in critically ill patients with COPD and respiratory failure between two groups in mortality at the end of 30 days, length of stay in hospital and the costs of hospital. But the length of stay in ICU and the duration of mechanical ventilation does decrease, but not significantly, in the trial group.