Abstract: Objective To retrospectively compare the difference of the effects of pulmonary thromboendarterectomy (PTE) between distal and proximal types of chronic thromboembolic pulmonary hypertension (CTEPH). Methods The data of 70 patients (including 44 male patients and 26 female patients, the average age was 46.2 years old, ranging from 17 to 72) with CTEPH having undergone PTE from March 2002 to March 2009 in Anzhen Hospital were retrospectively reviewed. We classified them into two different groups which were the proximal CTEPH group (n=51) and the distal CTEPH group (n=19) according to the pathological classification of the CTEPH. Clinical data, hemodynamics blood gas analysis and so on of both groups were compared. Results There was no perioperative deaths in both groups. Compared with the proximal group, cardiopulmonary bypass time [CM(159mm](189.5±41.5 min vs.155.5±39.5 min,P=0.003), aorta cross clamp time (91.3±27.8 min vs.67.2±27.8 min,P=0.002) and DHCA time (41.7±14.6 min vs.25.7±11.6 min,P=0.000) were significantly longer in the distal group. The incidence of residual pulmonary hypertension in the distal group was significantly higher than that in the proximal group (42.1% vs.13.7%,P=0.013), while the incidence of pulmonary reperfusion injury postoperatively in the proximal group was significantly higher than that in the distal group (41.2% vs.10.5%, P=0.021). SwanGanz catheterization and blood gas index were obviously improved in both groups. However, the pulmonary artery systolic pressure (PASP, 67.8±21.3 mm Hg vs.45.5±17.4 mm Hg,P=0.000) and the pulmonary vascular resistance [PVR, 52.8±32.1 kPa/(L·s) vs.37.9±20.7 kPa/(L·s),P=0.024] in the distal group were significantly higher than those in the proximal group and the partial pressure of oxygen in arterial blood of the distal group was significantly lower than that of the proximal group (76.7±8.7 mm Hg vs.88.8±9.3 mm Hg,P=0.000). After operation, 70 patients were followed up with no deaths during the followup period. The time of the followup ranged from 2 to 81 months (32.7±19.6 months) with a cumulative followup of 191.8 patientyears. Three months after operation, 47 patients were examined by pulmonary artery computer tomography angiogram (PACTA) and isotope perfusion/ventilation scan, which showed that the residual occlusive pulmonary artery segment in the proximal group was significantly fewer than that in the distal group (isotope perfusion/ventilation scan: 2.2±11 segments vs. 4.7±2.1 segments, P=0.000; PACTA: 3.5±1.4 segments vs. 4.9±2.0 segments,P=0.009). The New York Heart Association (NYHA) functional class and 6 minute walk distance (6MWD) in the proximal group were significantly better than those in the distal group (1.7±0.5 class vs 2.3±0.4 class; 479.2±51.2 m vs. 438.6±39.5 m, P=0.003). Venous thrombosis in double lower limbs reoccurred in two patients. According to KaplanMeier actuarial curve, the freedom from reembolism at 3 years was 96.7%±2.8%. Bleeding complications occurred in three patients. The linear Bleeding rate related to anticoagulation was 2.47% patientyears. Conclusion Although the early and midlong term survival rate of PTE procedure to treat both proximal and distal types of CTEPH is agreeable, the recovery of the PASP, PVR and 6MWD, and blood gases in patients with proximal type of CTEPH are significantly better than those in patients with distal type of CTEPH. On one hand, anticoagulation can singularly provide enough protection to patients with proximal type of CTEPH, but on the other hand, diuretics and pulmonary hypertension alleviation drug should be added to the treatment regimen for patients with distal type of CTEPH after the procedure of PTE.
Objective To explore and compare the diagnostic value of blood pressure, brain natriuretic peptide (BNP), pulmonary artery systolic pressure (PASP) in evaluating right ventricular dysfunction (RVD) in patients with acute pulmonary embolism (APE). Methods A retrospective study was conducted on 84 APE patients who were diagnosed by computed tomographic pulmonary angiography. The patients were divided into a RVD group and a non-RVD group by echocardiography. Eighteen clinical and auxiliary examination variables were used as the research factors and RVD as the related factor. The relationship between these research factors and RVD were evaluated by logistic regression model, the diagnostic value of BNP and PASP to predict RVD was analyzed by receiver-operating characteristic (ROC) curve analysis. Results The patients with RVD had more rapid heart rate, higher diastolic blood pressure, higher mean arterial pressure, higher incidence of BNP>100 pg/ml and higher incidence of PASP>40 mm Hg (allP<0 05="" upon="" logistic="" regression="" model="" bnp="">100 pg/ml (OR=4.904, 95%CI 1.431–16.806, P=0.011) and PASP>40 mm Hg (OR=6.415, 95%CI 1.509–27.261, P=0.012) were independent predictors of RVD. The areas under the ROC curve to predict RVD were 0.823 (95%CI 0.729–0.917) for BNP, and 0.798 (95%CI 0.700–0.896) for PASP. Conclusions Blood pressure related parameters can not serve as a predictor of RVD. Combined monitoring of BNP level and PASP is helpful for accurate prediction of RVD in patients with APE.
Objective To evaluate the clinical value of computer tomography angiography( CTA) in the diagnosis of anomalous pulmonary artery. Methods Clinical data of 9 patients with anomalous pulmonary artery diagnosed by CTA were retrospectively analyzed, and CTA results were compared with those of echocardiographic examination. Results CTA clearly demonstrated the origin sites and topography of anomalous pulmonary arteries in all 9 patients. One patients presented with left pulmonary artery sling, and 8 patients presented with anomalous right pulmonary artery which originated fromthe proximal ascending aorta. Among them1 patient was with isolated anomalous origin of right pulmonary, and the others were complicated with patent ductus artery( 5 cases) , ventricular septal defect ( 3 cases) , and aortopulmonary septal defect ( 1 case) , etc. Conclusions CTA is highly valuable in the diagnosis of anomalous origin of pulmonary artery and associated abnormities by clearly developing the pathologic anatomic features and complicated cardiovascular malformations
Abstract: Objective To investigate the clinical features, differential diagnosis, surgical treatment and outcome of primary pulmonary artery sarcoma. Methods Between January 1994 and December 2004, 5 patients with primary pulmonary artery sarcoma were identified at operation and treated by surgical resection. Pulmonary valve stenosis were initially diagnosed in 3 patients, and chronic pulmonary embolism were initially diagnosed in 2 patients. Tumor resection from the vascular bed was performed in 1 patient and tumor resection and homograft reconstruction of pulmonary arteries were performed in 4 patients. Results One patient died of postoperative refractory pulmonary hypertension, 2 patients died 4 months after operation because of brain metastases, 1 patient was alive for 9 months after operation with recurrent pulmonary tumor, and 1 patient was alive for 2 years after operation without clinical or radiological signs of tumor recurrence or metastasis. Histological examinations showed 4 malignant mesenchymomas and 1 fibrosarcoma. Conclusions Primary pulmonary artery sarcomas are rare and usually fatal tumors of the cardiovascular system. The diagnosis is difficult and this disease is frequently misdiagnosed as chronic pulmonary hromboembolism and pulmonary valve stenosis. Early diagnosis can be improved by computerized tomography scanning and magnetic resonance imaging. Radical surgical resection was the most effective modality for shortterm palliation. The prognosis of pulmonary artery sarcoma is poor. The survival time after resection varies from several months to several years depending on the presence of recurrence or metastasis.
ObjectiveTo propose a lung artery segmentation method that integrates shape and position prior knowledge, aiming to solve the issues of inaccurate segmentation caused by the high similarity and small size differences between the lung arteries and surrounding tissues in CT images. MethodsBased on the three-dimensional U-Net network architecture and relying on the PARSE 2022 database image data, shape and position prior knowledge was introduced to design feature extraction and fusion strategies to enhance the ability of lung artery segmentation. The data of the patients were divided into three groups: a training set, a validation set, and a test set. The performance metrics for evaluating the model included Dice Similarity Coefficient (DSC), sensitivity, accuracy, and Hausdorff distance (HD95). ResultsThe study included lung artery imaging data from 203 patients, including 100 patients in the training set, 30 patients in the validation set, and 73 patients in the test set. Through the backbone network, a rough segmentation of the lung arteries was performed to obtain a complete vascular structure; the branch network integrating shape and position information was used to extract features of small pulmonary arteries, reducing interference from the pulmonary artery trunk and left and right pulmonary arteries. Experimental results showed that the segmentation model based on shape and position prior knowledge had a higher DSC (82.81%±3.20% vs. 80.47%±3.17% vs. 80.36%±3.43%), sensitivity (85.30%±8.04% vs. 80.95%±6.89% vs. 82.82%±7.29%), and accuracy (81.63%±7.53% vs. 81.19%±8.35% vs. 79.36%±8.98%) compared to traditional three-dimensional U-Net and V-Net methods. HD95 could reach (9.52±4.29) mm, which was 6.05 mm shorter than traditional methods, showing excellent performance in segmentation boundaries. ConclusionThe lung artery segmentation method based on shape and position prior knowledge can achieve precise segmentation of lung artery vessels and has potential application value in tasks such as bronchoscopy or percutaneous puncture surgery navigation.
Objective To explore the correlation between different ultrasound pulmonary artery systolic pressure (PASP) and high-resolution CT (HRCT) pulmonary artery width (PAD) in patients with chronic obstructive pulmonary disease (COPD). Methods A retrospective analysis was conducted on 473 patients with acute exacerbation of chronic obstructive pulmonary disease who were hospitalized in the First Hospital of Lanzhou University from January 2016 to December 2020. They were divided into four groups according to the degree of PASP elevation: PASP normal group: PASP≤36 mm Hg, 182 cases; mildly elevated group: PASP 37 to 50 mm Hg, 164 cases; moderately elevated group: PASP 51 to 70 mm Hg, 89 cases; severely elevated group: PASP>70 mm Hg, 38 cases. The PAD of chest HRCT and the width of the ascending aorta (AAD) on the same plane were measured, and the ratio of PAD to AAD (PAD/AAD) was calculated. The differences of PAD, AAD, PAD/AAD in different PASP groups of COPD were compared. The correlations between PASP, lung function, blood gas analysis and PAD, PAD/AAD were analyzed. Results With the decrease of FEV1%pred, FVC%pred, FEV1/FVC, PaO2 and SaO2 in the patients, PaCO2 increased, PASP gradually increased, PAD and PAD/AAD gradually increased. PAD and PAD/AAD were significantly different between the severely elevated PASP group and the other three groups, and there were significant differences between the moderately elevated group and the normal group, and between the moderately elevated group and the mildly elevated group. PASP and PaCO2 were positively correlated with PAD and PAD/AAD, and FEV1%pred, FVC%pred, FEV1/FVC, PaO2, SaO2 were negatively correlated with PAD and PAD/AAD. Multivariate logistic regression analysis showed that after adjusting for confounding factors, decreased FEV1%pred was an independent risk factor for PAD/AAD>1 in COPD patients. The receiver operating characteristic curve showed that the width of PAD and PAD/AAD had certain predictive value for PASP. Conclusions There is a significant positive correlation between different degrees of ultrasound PASP and PAD and PAD/AAD in patients with COPD. HRCT PAD has certain predictive value for PASP. The heavier the hypoxia and carbon dioxide retention, the worse the pulmonary ventilation function, the higher the pulmonary artery pressure, the greater the possibility of PAD and PAD/AAD.
ObjectiveTo explore the clinical significance of quantitative CT measurement of pulmonary vascular indexes in chronic obstructive pulmonary disease (COPD).
MethodsFifty-three stable COPD patients who were diagnosed in our hospital between May 2013 and February 2015 were recruited in the study. The HRCT results were analyzed, and the pulmonary vascular indexes were measured including the main pulmonary artery diameter (mPAD), axial diagonal mPAD, sagittal mPAD, right pulmonary artery diameter (RPAD), left pulmonary artery diameter (LPAD) and etc. The % CSA<5 (the percent of total cross-sectional area of the vascular with cross-sectional area less than 5 mm2 to total area of the lung) was calculated with Image J 1.48. The % LAA[volume percentage of low attenuation areas (<-950 HU)] representing degree of emphysema was calculated with GE ADW 4.5. Lung function test and questionnaires including CAT, mMRC, SGRQ and frequency of acute exacerbation of COPD (AECOPD) were completed and collected.
ResultsIn COPD patients, the mPAD,axial diagonal mPAD, sagittal mPAD, RPAD and LPAD were positively correlated with % LAA respectively (r=0.36, 0.33, 0.43, 0.45, 0.33) and % CSA<5 was negatively correlated with % LAA (r=-0.37). mPAD was positively correlated with CAT, SGRQ and frequency of AECOPD respectively (r=0.52, 0.29, 0.35), and negatively correlated with FEV1% pred (r=-0.30).% CSA<5 was negatively correlated with CAT, SGRQ and frequency of AECOPD, respectively (r=-0.29,-0.30,-0.29), and positively correlated with FEV1% pred (r=0.28). The multivariate linear regression analysis revealed a linear relationship of mPAD with body mass index,% LAA and CAT. There was also linear relationships between axial diagonal mPAD, sagittal mPAD, RPAD and % LAA, CAT, respectively, and linear relationships between % CSA<5 and FEV1% pred,% LAA. The P value were all less than 0.05.
ConclusionQuantitative CT measurement of cross-sectional area of small pulmonary vessels and pulmonary artery diameter are associated with clinical indexes in COPD patients, which will provide a new appraoche for the disease assessment of COPD patients.
Objective To investigate the diagnosis and treatment of pulmonary arterial hypertension ( PAH) due to rare causes. Methods The clinical presentation, laboratory testing, diagnosis and treatment of 4 patients with PAH associated with rare causes in Beijing Anzhen Hospital from January 2001 to March 2008 were analysed retrospectively. Results Primary biliary cirrhosis, hyperthyroidism, antiphospholipid syndrome and pulmonary artery sarcoma may cause PAH, which were improved after corresponding diagnosis and management. Conclusion PAH can result from rare causes. The enhancement of its recognition will help earlier diagnosis and treatment and improve the prognosis.
Abstract: Objective To observe the physical characteristics of decellularized porcine pulmonary valved conduits crosslinked by carbodiimide (EDC). Methods [WTBZ]Twenty porcine pulmonary valved arteries were mobilized on relative asepsis condition. They were cut longitudinally into three samples at the junction position of pulmonary valve (every sample was comprised of a part of the pulmonary conduit wall and the corresponding valve). The samples were randomly divided into three groups by lotdrawing method. Group A was the control group which was made up of the fresh porcine arterial valved conduit samples without any other treatments. Group B was comprised of porcine pulmonary samples decellularized by trypsindetergent digestion. Group Cincluded the decellularized porcine pulmonary samples crosslinked by EDC. We observed the water content, thickness, tensile strength, and shrinkage temperature of all the samples, based on which the physical characeteristics of these samples were analyzed. Results [WTBZ]Complete cellfree-pulmonary conduit matrix was achieved by trypsindetergent digestion. Compared with group A, in group B, the water content of pulmonary wall was significantly higher (P=0.000), while the water content of pulmonary valve was not significantly different; the thickness of pulmonary wall and valve (P=0.000,0.000) and tensile strength of pulmonary wall and valve (Plt;0.01) was significantly lower, while shrinkage temperature was not significantly different. Compared with group B, in group C, the water content of pulmonary wall was significantly lower (P=0.000), while the water content of pulmonary valve, and the thickness of pulmonary wall and valve were not significantly different; the tensile strength of pulmonary wall (Plt;0.01) and valve (P=0.000), and the shrinkage temperature of them (P=0.000, 0.000) were significantly higher. Compared with group A, in group C, the water content of pulmonary wall and valve, and the tensile strength of them were not statistically different, while the thickness of pulmonary wall and valve was significantly lower (P=0.000, 0.000), and the shrinkage temperature of them was significantly higher (P=0.000, 0.000). Conclusion [WTBZ]EDC crosslinking method is available for treating decellularized porcine pulmonary valved conduits in order to enhance its tensile strength, and decrease water content of pulmonary wall.
Objective To extract and identify primary culture rat pulmonary arterial smooth cells ( PASMCs) , and investigate the effects of hypoxia on the proliferation of PASMCs. Methods Rat PASMCs were separated by the method of tissue block anchorage, and the cellular morphology was observed under light microscope. The cells were identified by projection electron microscopy, and α-smooth muscle actin ( α-SMactin)in the cells was identified by immunohistochemistry and immunofluorescence. The primary cultured PASMCs were exposed to normoxic and/ or hypoxia condition for 2, 6, 12, 24, 48 hours respectively, thenMTT assay and PCNA ( proliferating cell nuclear antigen) immunohistochemistry were used to detect the proliferation of PASMCs. Results The cells tended to be long spindle and grew in the “peak-valley”mode under light microscope. Immunology results showed that endochylema was stained in brownish yellow, and the positive rate was beyond 96% . There were dense patch, dense body and many filaments in endochylema under projection electron microscopy. MTT assay demonstrated that the A values of PASMCs expose to hypoxia were higher than that of nomoxia. Comparing with normoxia, the A values of PASMCs exposed to hypoxia increased after 12 hours ( P lt;0. 05) , significantly increased after 24 hours ( P lt;0. 01) . Compared with 2 hours’exposure to hypoxia, the A values increased after 12 hours( P lt; 0. 05) , markedly increased after 24 hours ( P lt; 0. 01 ) , which after 48 hours was similar with 24 hours. The result of PCNA immunohistochemistry was consistent with that of MTT. Conclusions The tissue explants adherent method is simple and convenient, and can easily obtain rat PASMCs with high purity and stability. Hypoxia canpromote the proliferation of PASMCs.
