Objective To study the diagnostic value of MRI for pulmonary embolism, so as to provide information for clinical decision. Methods The trials about MRI in the diagnosis of pulmonary embolism were searched in the following databases such as PubMed, EMbase, The Cochrane Library, CBM, CNKI and VIP. The data of the included trials were extracted, the methodological quality was evaluated in accordance with the quality assessment of diagnostic accuracy studies (QUADAS), and then meta-analysis was conducted using Meta-Disc 1.4 software. The weighted sensitivity and specificity were aggregated, as well as the summary receiver operating characteristic (SROC) curve. Further, the area under the curve (AUC) was calculated to evaluate the value of MRI in the diagnosis of pulmonary embolism. Results A total of 6 English articles involing 595 patients were included. The results of heterogeneity test revealed that there was statistical heterogeneity among the results of studies. According to the random effects model, the weighted sensitivity and specificity were 0.87 (95%CI 0.80 to 0.91), and 0.98 (95%CI 0.96 to 0.99), respectively; and the AUC was 0.988 7. Conclusion MRI is a better non-invasive method as a routine examination for pulmonary embolism. It shows fairly high sensitivity and specificity, and has a good clinical value.
Objective To investigate the prognostic value of B-type natriuretic peptide (BNP) for short-term all-cause mortality in patients with acute pulmonary embolism (APE). Methods Such databases as PubMed, EMbase, Central Register of Controlled Trials, CBM, and CNKI (from the date of their establishments to March 2010) were searched. The level of BNP and N-terminal pro-B-type natriuretic peptide (NT-proBNP) was collected to conduct eligible cohort study for assessing their effects on APE prognosis. Quality assessment and data extraction were performed in those clinical trials in line with the inclusion criteria. Then, RevMan 5.0 software was applied to carry out meta-analyses. Results Sixteen relevant studies with 1 126 APE patients were included. Nine studies reported BNP level and seven studies reported NT-pro BNP level. There was less satistical and clinical Heterogeneity among the groups (P=0.94, I2=0; P=0.99, I2=0). The meta-analyses results showed: the BNP or NT-pro BNP level was closely related with the short-term all-cause mortality. SPE was 0.52, + LR was 1.87, –LR was 0.20, PPV was 0.16, NPV was 0.98, SROC area under the curve was 0.830 5, SE (AUC) = 0.033 5.Conclusion While elevated BNP levels can help to identify APE patients at a higher risk of death, the high negative predictive value of normal BNP levels is more useful for doctors to identify patients with less likelihood of adverse events so as to conduct a selective follow-up.
To assess the efficacy and safety of thrombolytic therapy. Electronic search was applied to the Cochrane Airways Group register (MEDLINE, EMBASE, CINAHL standardized searches) with the date up to 2003 April. Hand searched respiratory journals and meeting abstracts. All randomized controlled trials comparing thrombolytic therapy with heparin alone or surgical intervention (eg. embolectomy) met the inclusion criteria. Two reviewers independently selected trials, assessed trial quality and extracted the data.
ObjectiveTo investigate the risk factors,characteristics and prognosis in Tibetan patients with venous thromboembolism. MethodsTibetan patients with VTE from plateau area,admitted in West China Hospital from January 2010 to December 2012,were recruited in the study. The VTE diagnosis was confirmed by CT pulmonary angiogram (CTPA) or vascular ultrasound examination. Risk factors,clinical symptoms,signs and laboratory tests were retrospectively investigated and follow-up by telephone interview was conducted. Results31 Tibetan VTE patients with 16 males and 15 females were included. The investigation of risk factors revealed that 15 patients suffered from obese(48.3%),10 patients suffered from highly viscous hyperlipidemia(32.3%). The most common clinical symptom was dyspnea(29%),followed by chest pain(19.4%),hemoptysis(16.1%) and cough(12.9%). The common signs were lower extremity edema(73.3%) and lung rale(36.7%). All the patients received anticoagulation therapy,and inferior vena caval filters were implanted in 2 patients. In two years' follow-up after discharge,2 patients died of tumor,2 died of pulmonary embolism,6 patients suffered from chronic embolization syndrome with lower extremity edema or pain,1 patient suffered from pulmonary hypertension after embolization,and thrombus in 20 patients disappeared or recanalized. ConclusionTibetans long-termly reside in high altitude areas with the eating habits of high-fat diet,which may increase the incidence of acquired risk factors such as viscous hyperlipidemia and obesity. There are no specific clinical symptoms and signs among Tibetan VTE patients,with dyspnea as the most common symptom and lower extremity edema as the most common sign. Patients with risk factors which can be eliminated in a short term have better prognosis.
肺栓塞( PE) 的确诊依赖于肺动脉的影像学检查。电子计算机断层扫描肺动脉造影( CTPA) 诊断PE 的敏感性和特异性高[ 1] , 而且该项检查是无创技术, 患者痛苦小, 并发症少, 已成为诊断PE 的一线技术[ 2,3] 。随着CT 仪器的不断升级和改进以及检查技术的不断研究, CT 在PE 中的应用不再仅限于PE 的定性诊断, 还用于肺动脉栓塞程度的量化、右心室改变的诊断、患者预后判断以及下肢深静脉血栓形成( DVT) 的诊断等。
Objective To assess the predictive value of alveolar dead space fraction ( ADSF) for severity and reperfusion of acute pulmonary embolism( APE) . Methods 39 consecutive patients with APE were enrolled in a perspective study from July 2004 to March 2007. All patients were divided into a large pulmonary embolism group ( LPE) and a small pulmonary embolism group ( SPE) based to the mass and location of the embolus. The patients of the LPE group received thrombolytic therapy and anticoagulation,while the patients of the SPE group received anticoagulation only. CTPA or lung scintigraphy was performed before and after treatment to confirm the resolve condition of the embolism after treatment. Pressure of endexpired carbon dioxide ( PETCO2 ) and blood gas analysis ( including PaCO2 ) were measured at the time of run-in and 30 days after treatment by bedside. ADSF was calculated by PET CO2 and PaCO2 . Results Among 39 APE patients, there were 18 patients in the LPE group, while 21 in the SPE group. The ADSF of the LPE group before treatment were higher than that of the SPE group ( 0. 34 ±0. 078 vs. 0. 18 ±0. 027,P lt;0. 05) . The ADSF decreased significantly after treatment in the patients with full reperfusion ( 0. 09 ±0. 04 vs. 0. 28 ±0. 11, P lt;0. 01) . Conclusion As a bedside test, ADSF can reflect the mass of embolism and the reperfusion condition, and is useful in monitoring the disease.
Objective To explore the value of CT obstruction index ( CTI) on CT pulmonary angiography( CTPA) in estimating the severity of acute pulmonary embolism. Methods 27 patients with pulmonary embolism were retrospectively studied. Pulmonary embolism was diagnosed by CTPA. The correlations between CTI and arterial blood gas and shock index ( SI) were assessed by Spearman rank correlation analysis. Blood gas values and SI were comparatively evaluated belowand above different CTI cutoffvalues( 30% , 40% , 50% , and 60% , respectively) . Results A significant correlation was found between CTI and PaO2 ( r = - 0. 416, P =0. 031) , and also between CTI and P( A-a) O2 ( r =0. 468, P =0. 014) . PaO2 ( P =0. 027) and P( A-a) O2 ( P = 0. 034) were significantly different between pulmonary embolism patients above and below the CTI 60% cutoff value( P lt;0. 05) . Conclusions CTI is an effective index to evaluate the severity of pulmonary embolism. CTI gt;60% might be an indicator of higher severity.
【Abstract】 Objective To improve the knowledge of pulmonary embolism with normal D-dimer levels. Methods Nine consecutive patients of established pulmonary embolism with a normal D-dimer concentration admitted from January 2004 to December 2009 were analyzed retrospectively. Results Pulmonary embolism was confirmed in the 9 patients with a normal D-dimer concentration. Pulmonary embolismwas confirmed in only one patientwith an unlikely probability of pulmonary embolism. Wells score was 3 and the localization of the emboli was segmental emboli. In other 8 patients with a likely clinical probability of pulmonary embolism, the complaints of those patients existed between 1 hour and 2 months.Wells score was between 4. 5 and 7. 5, with a median of 6. 0. D-dimer concentration was between 0. 1 and 0. 5 mg/L, with a median of 0. 3 mg/L. The localization of the emboli was sub-segmental emboli in 3 cases,segmental emboli in 4 cases, and central emboli in 2 cases. Conclusions Our findings indicate that it is essential to examine the patient and assess the clinical probability at the first, then the D-dimer concentration should be taken into account. In patients with a likely clinical probability, a normal D-dimer test result can not exclude pulmonary embolism, and additional imaging testing is necessary.