ABSTRACT
Objective:To realize the bacterial distribution and antibiotic resistance in children with severe pneumonia in this region.Methods:A total of 203 children with severe pneumonia diagnosed in Gansu Provincial People′s Hospital from April 2018 to March 2020 were divided into 0-1, 1-3, 3-7 and 7-14 years old groups.Bronchoalveolar lavage fluid was collected for bacterial culture and identification, and antibiotic susceptibility tests were performed.Results:The positive rate of pathogens was 69.5% (141/203), including 72.3% (102 strains) of Gram-negative bacteria and 30.5%(43 strains)of Gram-positive bacteria.The infection rates were highest in 0-1 years old group and the lowest in 7-14 years old group, which were 45.2%(19/42) and 16.9%(10/59), respectively.The infection rates of Haemophilus influenzae, Escherichia coli and Branhamella catarrhalis in the 1-3 years old group were 30.30%(10/33), 33.33% (11/33), and 21.21% (7/33), respectively, which showed significant differences compared with other groups( P<0.05). The infection rate of Streptococcus pneumoniae in the 0-1 years old group was 42.9%(18/42), which was significantly different compared with other groups ( P<0.001). The resistance rate of Haemophilus influenzae to trimethoprim/sulfamethoxazole was 89.5%(34/38), and the Streptococcus pneumoniae to trimethoprim/sulfamethoxazole and tetracycline were both 82.4%(28/34). The highest antibiotic resistance rate of Escherichia coli was 34.6%(9/26), and the Branhamella catarrhalis to clindamycin was 56.3%(9/16). Conclusion:The dominant bacteria for severe pneumonia in children are Haemophilus influenzae, Streptococcus pneumoniae, Escherichia coli and Branhamella catarrhalis.The bacterial infection rate is highest within 1 year old, but gradually decreases with the increase of age.Haemophilus influenzae and Streptococcus pneumoniae have severe resistance to several antibiotics.
ABSTRACT
Objective:A large single-center, premature acute myocardial infarction (AMI) age (≤45 years) cohort was established to investigate the clinical features and the factors affecting major adverse cardiac events (MACE).Methods:This is a prospective and observational study. 603 patients with a clear diagnosis of AMI admitted to the Tianjin Chest Hospital from March 2015 to December 2017 were continuously selected. All patients were aged ≤45 years old, and a single-center large-sample premature AMI cohort was established. The patient's clinical basic conditions, laboratory indicators, imaging data, coronary angiography and treatment were collected. All patients were followed up for 1 year. MACE events such as cardiac death, recurrent AMI, revascularization, severe heart failure requiring hospitalization and stroke were recorded. Kaplan Meier method was used to draw the survival curve. Cox regression analysis was used to analyze the influence of risk factors, clinical characteristics and intervention methods on the long-term prognosis of MACE events.Results:A total of 603 AMI patients were included, 575 males (95.36%), 28 females (4.64%), and median age 41 (37, 44) years old. There were 422 patients (69.98%) with acute ST segment elevation myocardial infarction (STEMI), 206 patients (48.82%) with anterior myocardial infarction, and 181 patients (30.02%) with non ST segment elevation myocardial infarction (NSTEMI). Smoking was the most common risk factor for premature AMI (77.45%), followed by hyperlipidemia (48.42%) and hypertension (48.09%); smoking was the most common risk factor for male patients (80.35%), and hyperlipidemia was the most common risk factor for female patients (35.71%). 302 (50.08%) patients with premature AMI were treated with symptom onset to first medical contact (SO-to-FMC) ≤12 h; 563 patients (93.37%) had coronary angiography; coronary angiography showed that no significant stenosis, single-vessel disease, double-vessel disease, three-vessel disease, and patients with left main disease were 15(2.66%), 212(37.66%), 153(25.37%), 167(29.66%), 16(2.84%) cases; 318(56.48%) patients with vascular occlusion; The proportion of male combined with left main lesions was lower than that of female group (2.41% vs 12.50%, P=0.026); A total of 45 patients (7.46%) were recorded MACE. The 1-year MACE incidence was lower in the male group than in the female group (6.96% vs 17.86%, P=0.032). Multivariate COX regression analysis: there were 5 indicators that entered the regression model and were statistically significant: female ( HR:4.184; 95% CI:1.583-11.064; P=0.004), SO-to-FMC≤12 h ( HR:0.447; 95% CI:0.224-0.889; P=0.022), left ventricular ejection fraction (LVEF)≤40% ( HR:3.727; 95% CI:1.876-7.405; P<0.001), low-density lipoprotein (LDL) ( HR:1.315; 95% CI:1.041-1.662; P=0.022), homocysteine (Hcy) ( HR:1.011; 95% CI:1.002-1.019; P=0.011) were independent predictor of MACE occurrence in patients with early-onset AMI within 1 year. Conclusions:Smoking is the most common risk factor for young men with AMI. The most common risk factors for young women's AMI is hyperlipidemia, and the proportion of patients with left main artery disease is higher than that of men, but the proportion of patients receiving emergency intervention is lower than that of men, and the long-term prognosis of young women is poor. Early detection and control of these risk factors is a key measure to prevent the onset of AMI.
ABSTRACT
Objective@#To investigate the features of plaques of saphenous venous graft (SVG) with virtual histology intravascular ultrasound (VH-IVUS) in patients underwent coronary artery bypass graft surgery.@*Methods@#From March 2016 to March 2018, a total of 45 patients ((64.4±7.9) years old, 88.9% male (40 cases)) with ischemic symptoms after coronary artery bypass graft surgery and with coronary artery angiography evidenced SVG stenosis greater than or equal to 50%, who received percutaneous coronary intervention in Tianjin chest hospital were continuously included in this study, and the clinical data were retrospectively analyzed. VH-IVUS was performed before PCI to analyze plaque composition. The patients were divided into no smoking group (21 cases) and smoking group (24 cases), no diabetes group (30 cases) and diabetes group (15 cases), normal very low density lipoprotein cholesterin (VLDL-C) group (24 cases) and elevated VLDL-C group (21 cases), stable angina pectoris group (5 cases) and acute coronary syndrome group (40 cases), plaque burden (PB) < 70% group (11 cases) and PB ≥ 70% group (34 cases), without thin-cap fibroatheroma group (35 cases) and thin-cap fibroatheroma group (10 cases), and plaque features were compared between different groups.@*Results@#The graft age was (8.9±3.7) years.The stenosis degree of SVG lesions was 90 (90, 98) %. The minimum lumen diameter was 1.6 (1.5, 1.8) mm. The vessel cross-sectional area was (12.1±4.0) mm2. The plaque area was 8.6 (5.7,12.0) mm2. The minimum lumen area was 2.5 (2.1,3.3) mm2. The plaque burden was (75.3±8.3)%. The fibrotic tissue (FI) ratio was (65.1±10.1)%, fibrofatty plaque (FF) ratio was 13.8 (5.4,25.3) %, necrotic core tissue (NC) ratio was 12.0 (5.4,24.0)%, and dense calcium tissue (DC) ratio was1.0 (0.2,3.8)% in SVG lesions. There were no significant differences in SVG plaque area, FI area,FF area,NC area,and DC area between no smoking group and smoking group, no diabetes group and diabetes group, and normal VLDL-C group and elevated VLDL-C group. SVG plaque volume was significantly higher in acute coronary syndrome group than in stable angina pectoris group (262.2 (148.5,401.2) mm3 vs. 93.1 (50.6,155.9) mm3,P=0.006), and plaque area (10.1 (6.6,13.3) mm2 vs. 5.0 (3.6,6.9) mm2, P<0.001), FI area(4.8 (3.2,6.8) mm2 vs. 2.8 (1.9,3.0) mm2, P<0.001),and FF area (1.15 (0.60, 2.07) mm2 vs. 0.30 (0.10,0.90) mm2, P=0.009) were significantly larger in PB ≥ 70% group than in PB < 70% group.The NC area (1.75(0.40,2.78) mm2 vs. 0.60 (0.20,1.30) mm2, P=0.030) and DC area (0.35 (0.10,0.50) mm2 vs. 0.00 (0.00,0.10) mm2, P=0.006) were significantly larger in thin-cap fibroatheroma group than that in without thin-cap fibroatheroma group. Spearman correlation analysis showed that the plaque area of SVG lesion was positively correlated with FF area (r=0.64, P<0.001) and NC area (r=0.43, P=0.003). PB was positively correlated with FF area (r=0.50, P<0.001) and NC area (r=0.33, P=0.028). Graft age was positively correlated with FF area (r=0.30, P=0.047).@*Conclusions@#The main components of SVG plaque are fibrotic tissue, conversely, calcified tissue is rare in patients with SVG stenosis after coronary artery bypass graft surgery. Fibrofatty tissue is increased in the plaque in patients with PB ≥ 70%. The necrotic component is also increased in patients with thin-cap fibroatheroma. The fibrofatty component increases and the plaque tends to be unstable in proportion with increaing age of the graft in this patient cohort.
ABSTRACT
Objective To explore the clinical value of Z score in assessing coronary artery lesions (CAL) of children with Kawasaki disease. Methods The clinical records of 102 children with Kawasaki disease from January 2012 to December 2016 in Gansu Provincial Hospital were retrospectively analyzed. The internal diameter of left main coronary artery (LMCA) and right coronary artery ( RCA) was measured by echocardiography (ECHO),and the incidence of CAL was preliminarily judged. The Z scores of LMCA and RCA were calculated on the basis of the coronary artery diameter,the age of the children and the body surface area,and the incidence of CAL was judged again. Results A total of 22 cases(21. 6%) of CAL were found in 102 cases by ECHO examination,of which 18 cases(17. 6%) of LMCA lesions,and 22 cases(21. 6%) of RCA lesions. A total of 33 cases(32. 4%) of CAL were found by calculating the Z score of coronary artery, of which 29 cases(28. 4%) of LMCA lesions and 33 cases(32. 4%) of RCA lesions. There was significant difference between two methods for determining LMCA lesions (χ2=3. 35,P<0. 05),and there was no sig-nificant difference between two methods for determining RCA lesions (χ2=3. 01,P>0. 05). Z score of coro-nary artery was more accurate to detect the CAL in Kawasaki disease,especially LMCA lesions. A large coro-nary artery aneurysm was found in the patients with the largest Z score by selective coronary angiography. Conclusion The Z score can be more conductive to assess the CAL in children with Kawasaki disease,and the higher the Z score,the more serious the CAL is.
ABSTRACT
Objective To investigate the diagnosis and treatment in patients with acute myocardial infarction (AMI) and complicated left ventricular wall rupture (LVWR). Methods A retrospective analysis was made on the clinical features, diagnosis and successful treatment in three AMI patients with LVWR from December 2015 to April 2016. Results Three cases were included in this study. Case 1, the mesh like cardiac rupture after AMI was diagnosed by ultrasonic Doppler. Emergency revascularization was performed due to the combined cardiac shock, and the infarct related artery was opened. The vasoactive drugs were used after revascularization to reduce ventricular pressure load and volume load in the haemodynamic monitoring, and anticoagulation, antiplatelet agents were less used or discontinued to promote local thrombus healing of ventricular rupture. Case 2 was a recurrent myocardial infarction patient. LVWR was diagnosed by ultrasonic Doppler one day after emergency operation. The ruptured ventricular wall was encapsulated by thrombus. The drug therapy was effective in hemodynamic monitoring. LVWR was further confirmed by cardiac CT after clinical stabilization. Case 3 was diagnosed LVWR by ultrasonic Doppler four days after AMI. Because the ruptured ventricular wall was limited by incompletely organized thrombus, and the haemodynamic condition was stable, selective surgical repair of rupture after coronary angiography was performed. Conclusion The effective drug therapy combined with percutaneous coronary intervention and surgical repair can reduce the risk of death in patients with LVWR after AMI.
ABSTRACT
Objective To investigate the clinical characteristics and angiographic findings of cardiogenic shock(CS)following acute myocardial infarction(AMI) in elderly patients.Methods Between January 2015 and April 2016,we carried out a retrospective observational analysis of consecutive elderly patients in Tianjin Chest Hospital,who suffered CS-complicating AMI.Emergency angiography and percutaneous coronary intervention(PCI) were performed after admission.All selected patients were divided into CS and non-CS groups according to whether CS occurred.Electrocardiograph (ECG),cardiac enzyme testing,and ultrasound cardiography were performed after admission to monitor the occurrence of CS.Results The incidence of CS-complicating AMI was 8.33% (34/408) in elderly patients.Among all CS patients enrolled,the aged patients accounted for 91.89 % (3 4/3 7).In-hospital mortality rate was 2 9.41 % (10/3 4).There were significant differences between two groups in WBC,H s-CRP,blood glucose,CR and ALT (t =2.403,4.596,6.778,6.109,each P<0.05).The NT-Pro BNP level,the time of FMC,the frequency of left main and multivessel disease were higher in the CS group than in the non-CS group (each P < 0.05).Conclusions Elderly patients are bearing high risk of CS following AMI.Prolonged FMC time and the presence of left main and/or multivessel lesion are independent risk factors for the development of CS.The optimal revascularisation strategy can improve the clinical outcome of patients with CS.
ABSTRACT
Background Given the increasing number of patients who require dual antiplatelet (DAP) therapy and electrophysiological device (EPD) placement, perioperative antiplatelet management is a current challenge. In this study, we investigated the incidence of pocket hema-toma formation after EPD placement in patients undergoing DAP therapy or an alternative low-molecular-weight heparin (LMWH) regimen. Methods This clinical observational study was performed from July 2010 to July 2012. In total, 171 patients were enrolled in the analysis after meeting the inclusion criteria. These patients were divided into two groups: 86 patients were treated with DAP therapy at the time of device implantation, and the DAP therapy was discontinued for 5 to 7 days and replaced with enoxaparin before device implantation in the other 85 patients. Adenosine phosphate (ADP)-mediated platelet aggregation and arachidonic acid-induced platelet aggregation were tested preoperatively. We compared the incidence of pocket hematoma between the two groups and the association of pocket hematoma develop-ment with ADP-mediated platelet aggregation and arachidonic acid-induced platelet aggregation.Results The incidence of pocket hema-toma in the patients who continued DAP was lower than that in the patients who replaced the dual antiplatelet regimen with LMWH (3.49%vs. 16.47%, respectively;X2 = 6.66,P < 0.01). Among the patients who continued DAP therapies, the rate of ADP-mediated platelet aggre-gation inhibition in patients with pocket hematomas was higher than that in patients without pocket hematomas. None of the patients under-going DAP or enoxaparin therapy developed pocket infection, thromboembolic events, or other serious complications. Multiple logistic re-gression analysis revealed that LMWH therapy was an independent risk factor for the development of pocket hematoma (RR = 0.054, 95%CI = 0.012-0.251). Furthermore, patients undergoing LMWH therapy were 5.1-fold more likely to develop pocket hematomas than were DAP-treated individuals.Conclusion Continuance of DAP therapy does not increase the risk of pocket hematoma formation after EPD placement.