To evaluate the development prevention and treatment of pneumonic injury after operation on aged patients with abdominal infection. We analyzed 77 aged patients (>60 y) admitted from Jan. 1991 to Dec. 1992: 38 cases of which with abdominal infection (infection group), 39 cases without abdominal infection (non-infection group). All patients were given oxygen therapy and continuous SaO2 monitoring. Results: There were 28 patients with hypoxemia (SaO2<95%) in infection group, with an occurrence rate of 73.7%. In non-infection group (12 patients), the rate of hyoxemia was 30.8%, which has significant difference between two groups (P<0.001). All patients with hypoxemia were given oxygen therapy and 31 patients′ SaO2 was elevated. The efficient rate was 77.5%. Other 9 patients developed ARDS, the rate was 2.5% (9/40). In the infection group 8 patients developed ARDS with an occurrence rate of 21.1%. There was one patient with ARDS in the non-infection group, the rate was 2.6%. There was significant difference between two group (P<0.05). Conclusions: The results suggest that hypoxemia is liable to occur in aged patients with abdominal infection after operation and these patients were liable to develop ARDS. Oxygen therapy and SaO2 monitoring is the important managements to these patients in prevention of pneumonic injury.
Objective To investigate the preventive effect of simvastatin,a 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitor,on hypoxic pulmonary hypertension and the relation between it and the angiotensin Ⅱ receptor-1(AT1R) expression in pulmonary arteriole.Methods Thirty male Sprague-Drawley rats were randomly allocated into three groups:a control group,a hypoxic group and a simvastatin preventive group.The animal model of hypoxic pulmonary hypertension was established by exposing the rats to normobaric hypoxic condition(8 h×6 d×3 w),and the preventive group were treated with simvastatin 10 mg/kg before hypoxic processing while the control and hypoxic groups were treated with sodium chloride.The mean pulmonary pressure(mPAP),serum cholesterol concentration,right ventricular hypertrophy index [RV/(LV+S)],percentage of the wall thickness in the external diameter(WT%),percentage of the wall area in the total vascular area(WA%),and the AT1R expression in pulmonary arterioles were measured.Results When compared with the hypoxic group,in the preventive group,the mPAP and RV/(LV+S)obviously reduced [(22.6±3.86)mm Hg vs (29.3±2.27)mm Hg,(25.13±0.75)% vs (33.18±1.58)%,Plt;0.01 respectively],the indices of wall thickness of rat pulmonary arteriole and area also decreased significantly [WT%:(15.98±1.96)% vs (25.14±1.85)%;WA%:(54.60±3.94)% vs 74.77±4.52)%;Plt;0.01 respectively],and the positive degree of AT1R still lessened noticeably(1.23±0.09 vs 1.57±0.13,Plt;0.01).All of the indices above in the hypoxic group increased markedly compared with the control group(Plt;0.01 respectively).However,the differences of serum cholesterol among three groups were not significant(Pgt;0.05).Conclusions Simvastatin can suppress the expression of AT1R in pulmonary vessel and prevent hypoxic pulmonary hypertension.
在过去二十年间,麻醉技术和手术技术的改进使肺部恶性肿瘤患者的手术死亡率大大降低,但术后并发症仍是主要问题。肺切除术后的常见并发症是肺部并发症[1],主要表现是低氧血症,尤其在肺功能减退的肺切除患者中发病率更高[2]。目前国内对低氧血症的诊断缺乏统一的诊断标准,一些作者采用Russell等[3]提出的标准,吸空气氧的情况下,患者动脉血氧饱和度(SpO2)≤92%,大于30 s就可诊断为术后低氧血症。也有作者建议[4]将一次或以上血气检查PaO2lt;8 kPa或PaO2/FiO2lt;300 mm Hg(1 mm Hg=0.133 kPa)作为诊断低氧血症的标准。30%~50%的术后患者可发生低氧血症,一般认为这样的低氧血症是一过性的,对大多数患者是无害的[5]。但如果合并心脑或其他器官动脉硬化或其他原因的血管阻塞,这种低氧血症就是很危险的[6]。常见低氧血症的原因是肺萎陷不张和误吸、心源性肺水肿、静脉输入液体过量、通气血流比例失调和急性肺损伤/急性呼吸窘迫综合征(ALI/ARDS)[7],其中ALI/ARDS是肺切除术后患者死亡的主要原因[8-10]。
单肺通气技术( OLV) 广泛应用于开胸手术, 该技术使手术侧肺萎陷, 非手术侧单肺通气, 目的是防止手术侧肺分泌物或血液流入健侧肺, 确保气道通畅, 防止交叉感染, 避免手术侧肺膨胀, 使肺保持安静以利于手术操作, 减轻对肺实质的损伤。随着手术日益走向微创时代, 对该技术的需求大量增加。
Objective To observe the effects of peritoneal ventilation with pure oxygen in the rabbits with hypoxaemia and hypercapnia induced by mechanical controlled hypoventilation. Methods Sixteen rabbits were invasively ventilated after trachea incision. Hypoxaemia and hypercapnia were induced by hypoventilation which was implemented both by degrading ventilation parameters and respiratory depression induced by intravenous infusion of muscle relaxant. Then pure oxygen was insufflated into the peritoneal cavity and arterial blood gases were measured every 30 minutes for two hours. Results The PaO2 was ( 52. 50 ±3. 46) mmHg at baseline and increased to ( 76. 46 ±7. 79) mm Hg, ( 79. 62 ±9. 53) mm Hg,( 78. 54 ±7. 18) mmHg, and ( 81. 1 ±8. 3) mm Hg, respectively at 30, 60, 90, and 120 minutes after the peritoneal ventilation with pure oxgen( all P lt; 0. 05) . Meanwhile PaCO2 was ( 63. 84 ±9. 09) mm Hg at baseline and ( 59. 84 ±14. 22) mmHg, ( 59. 16 ±15. 5) mmHg, ( 60. 02 ±7. 07) mmHg, and ( 61. 38 ±6. 56) mm Hg, respectively at 30, 60, 90, and 120 minutes after the peritoneal ventilation with pure oxgen with no significant change( P gt;0. 05) . Conclusion Peritoneal ventilation can obviously improve hypoxaemia induced by mechanical controlled hypoventilation, whereas hypercapnia remains unchanged.
Objective To investigate the prevalence and risk factors of venous thromboembolism ( VTE) in patients with acute exacerbation of COPD ( AECOPD) . Methods The patients with AECOPD admitted fromJune 2006 to February 2010 in Beijing Tongren Hospital were included for analysis. VTE was investigated in all patients ( whether or not clinically suspected) by a standardized algorithm based on D-dimer testing, 4-limb venous ultrasonography, and the patients with clinically suspected pulmonarythromboembolism ( PTE) received ventilation/perfusion scan and ( or) computed tomography pulmonary angiography ( CTPA) . Results The total number of patients with AECOPD was 282, and the prevalence of VTE was 6% ( 17 /282) . Among the hypoxemia group( n = 84) , there were 16 patients with DVT with a prevalence of VTE of 19. 1% ( 16/84) in which 3 cases developed with PTE. In the non-hypoxemia group ( n =198) , the prevalence of VTE was 0. 5% ( 1/198) , and there was no case with PTE. The incidence of VTE in the hypoxemia group was significantly higher than that in the non-hypoxemia group( P lt; 0. 01) .Logistic analysis showed that lower PaO2 was the risk factor for VTE ( P lt; 0. 01 ) . Conclusions The incidence of VTE in AECOPD was 6% , mainly in the form of lower limb DVT. Hypoxemia was the risk factor for VTE in patients with AECOPD.
Objective To explore the daytime variables which are predictive to nocturnal hyoxemia among COPD patients unqualified for long-term oxygen therapy ( LTOT) . Methods Forty-eight stable COPD patients with SaO2≥90% were enrolled in this study and regarded as patients unqualified for LTOT. All patients underwent lung function examination during daytime. Their nocturnal oxygen saturation was monitored with overnight pulse oximetry ( OPO) . ResultsDaytime oxygen saturation was positively correlated with nocturnal mean SaO2 ( r =0. 79, P lt;0. 0001) , and negatively correlated with time spend with saturation below 90% ( TB90) ( r = - 0. 75, P lt; 0. 0001) . No significant relationship was found between lung function parameters and nocturnal SaO2 . The patients with daytime oxygen saturation between 90% and 95% were more likely to have lower nocturnal oxygen saturation and longer TB90 ( P lt;0. 05) .Conclusions Daytime oxygen saturation may effectively predict the occurrence of nocturnal hyoxemia in stable COPD patients unqualified for LTOT. To reduce COPD complications and improve prognosis, we suggest a relative indication of LTOT for patients with daytime oxygen saturation between 90% and 95% and with nocturnal hyoxemia.
Objective To determine risk factors associated with postoperative hypoxemia after surgery for acute aortic dissection. Methods We retrospectively analyzed clinical data of 116 patients with acute aortic dissection who underwent endovascular stent-graft exclusion or open surgery in Qingdao Municipal Hospital from February 2007 to February 2012. All the 116 patients were diagnosed as acute aortic dissection by CT angiography (CTA),including 60 patients with Stanford type A aortic dissection and 56 patients with Stanford type B aortic dissection. According to whether they had postoperative hypoxemia,all the 116 patients with acute aortic dissection were divided into hypoxemia group[arterial partial pressure of oxygen (PaO2) /fraction of inspired oxygen (FiO2) <200 mm Hg]:33 patients including 28 males and 5 females with their age of 52.7±11.4 years; and non-hypoxemia group(PaO2/FiO2≥200 mm Hg):83 patients including 66 males and 17 females with their age of 55.0±13.8 years. Perioperative clinical data were analyzed and compared between the two groups. Multivariate logistic regression was performed to identify risk factors of postoperative hypoxemia after surgery for acute aortic dissection. Results The incidence of postoperative hypoxemia after surgery for acute aortic dissection was 28.4% (33/116). Perioperative death occurred in 13 patients(11.2%,including 8 patients in the hypoxemia group and 5 patients in the non-hypoxemia group). Univariate analysis showed that preoperatively the percentages of patients with body mass index(BMI) > 25 kg/m2,smoking history,duration from onset to operation <24 h,preoperative PaO2/FiO2≤300 mm Hg,and patients undergoing open surgery in the hypoxemia group were significantly higher than those in the non-hypoxemia group(P<0.05). Deep hypothermic circulatory arrest(DHCA) ratio,blood transfusion in 24 hours postoperatively,mechanical ventilation time,length of ICU stay and hospital stay in the hypoxemia group were significantly higher or longer than those in the non-hypoxemia group(P<0.05). Logistic multivariate regression identified BMI>25 kg/m2(RR=98.861,P=0.006),DHCA(RR=22.487,P=0.007),preoperative PaO2/FiO2≤300 mm Hg(RR=9.080,P=0.037) and blood transfusion>6 U in 24 hours postoperatively(RR=32.813,P=0.003) as independent predictors of postoperative hypoxemia for open-surgery patients,while BMI>25 kg/m2 (RR=24.984,P=0.036) and preoperative PaO2/FiO2 ratio≤300 mm Hg (RR=21.145,P=0.042) as independent predictors of hypoxemia for endovascular stent-graft exclusion patients. Conclusion Postoperative hypoxemia is a common complication after surgery for acute aortic dissection. Early interventions for obesity and preoperative hypoxemia,and reducing perioperative blood transfusion may decrease the incidence of postoperative hypoxemia after surgery for acute aortic dissection.
Objective To investigate the application of sequential noninvasive ventilation (NIV) in weaning patients off mechanical ventilation after coronary artery bypass grafting (CABG). Methods From July 2007 to July 2009, 52 patients who underwent CABG with mechanical ventilation for no less than 24 hours and P/F Ratio lower than 150 mm Hg were divided into two groups with random number table. In the sequential NIV group (SNIV group), there were 19 patients including 16 males and 3 females whose ages were 69.26±8.10 years. In the prolonged mechanical ventilation group (PMV group), there were 33 patients including 28 males and 5 females whose ages were 70.06±7.09 years. Clinical data of these two groups were compared and the influence of NIV on the circulation and respiration of the patients were observed. Results The SNIV group weaned off mechanical ventilation earlier than the PMV group (26.46±3.66 h vs. 38.65±9.12 h, P=0.013). The SNIV group held shorter total ventilation time (29.26±21.56 h vs.54.45±86.57 h,P=0.016), ICU stay time (2.44±2.99 d vs. 4.89±7.42 d, P=0.028) and postoperative hospital time (10.82±4.31 d vs. 14.01±19.30 d, P=0.039) than the PMV group. Furthermore, the SNIV group had lower pneumonia rate (5.26% vs. 30.30%, P=0.033) and total postoperative complication rate (10.53% vs.45.45%, P=0.030) than the PMV group. However, there was no significant difference (Pgt;0.05) between the two groups in the successful weaning rate, repeated tracheal intubation rate, tracheotomy rate and mortality 30 days after operation. After NIV, SNIV group had no significant change in heart rate, central vein 〖CM(1585mm〗pressure, pulmonary arterial pressure and pulmonary arterial wedge pressure than the baseline value, while systolic pressure (129.66±19.11 mm Hg vs. 119.01±20.31 mm Hg, P=0.031), cardiacindex [3.01±0.30 L/(min.m2) vs. 2.78±0.36 L/(min.m2), P=0.043] and P/F Ratio (205.95±27.40 mm Hg vs. 141.33±9.98 mm Hg, P=0.001) were obviously elevated. Conclusion Sequential NIV is a effective and safe method to wean CABG patients off mechanical ventilation.