1.Study on blood lipoprotein(a) in patients with essential hypertension and coronary heart disease
Jing ZHANG ; Luosha ZHAO ; Min GAO ; Fan YANG ; Jiangchuan DU ; Yang LI
Clinical Medicine of China 2011;27(5):471-474
Objective To study the changes of lipoprotein(a)[LP(a)] in patients with essential hypertension(EH) and coronary heart disease(CHD).Methods One hundred and fifty-nine EH older patients were recruited in the study.Eighty-six elderly patients were diagnosed as EH combined with CHD,and 73 patients were diagnosed as simple EH.All patients were tested for the fasting blood glucose(FBG),creatinine(Cr),total cholesterol(TC),triglyceride(TG),HDL-C,LDL-C,LP(a),and the body mass index(BMI) was calculated.Results Plasma Lp(a) increased(0.48±0.18)mmol/L in the EH combined with CHD patients,which were significantly higher than the increasing of(0.34±0.12) mmol/L in the simple EH patients(t=-11.367,P<0.05).The level of plasma Lp(a) increased with the severity of the stenosis of the coronary artery(Lp(a):(0.37±0.14) mmol/L in single arterial branch stenoses,(0.46±0.15)mmol/L in double arterial branch stenoses,(0.66±0.12)mmol/L in triangle arterial branch stenoses,F=31.842,P=0.012).Conclusion The Lp(a) concentration in patients with EH are correlated with the occurrence and severity of coronary heart disease.As a risk of coronary heart disease,Lp(a) can predict the severity of coronary artery stenosis.
2.The application of intraoperative transesophageal echocardiography in systolic anterior motion after mitral valvuloplasty
Na ZHAO ; Qinghua QI ; Juan YANG ; Jiangchuan DU ; Suyun HOU ; Honghu WANG ; Ruifang ZHANG
Chinese Journal of Ultrasonography 2021;30(2):105-111
Objective:To predict the risk of systolic anterior motion (SAM) after mitral valvuloplasty(MVP) by intraoperative transesophageal echocardiography (TEE) and its diagnostic value.Methods:From August 2016 to May 2020, 215 patients with mitral valve degeneration underwent MVP, including 182 patients without SAM (non-SAM group), and 33 patients with SAM (SAM group). TEE examination was performed immediately after operation to determine whether SAM phenomenon was relieved. According to the physiological basis of SAM, before cardiopulmonary bypass (CPB) and immediately after CPB, the parameters of SAM group and non-SAM group were measured and compared, including left atrial dimension(LAD), left ventricular end diastolic diameter(LVEDD), left ventricular end systolic diameter(LVESD), left ventricular ejection fraction(LVEF), basal septal diameter(basal-IVDd), left ventricular posterior wall thickness(LVPW), left ventricular outflow tract diameter(LVOTD), left ventricular outflow tract maximum velocity(LVOT-Vmax), left ventricular outflow tract pressure gradient(LVOTG), mitral valve maximum velocity(MV-Vmax), mitral valve mean pressure gradient(MVG-mean), mitral regurgitation area(MR-area), bulging subaortic septum, anterior leaflet length, posterior leaflet length, ratio between the lengths of the anterior and posterior leaflets, coaptation-septum distance(c-sept), nnular diameter of mitral valve, aorto-mitral angle (AMA) to screen the independent risk factors of SAM after MVP.Results:① Compared with the non-SAM group, LVEDd, LVESD, ratio between the length of the anterior and posterior leaflets, c-sep and AMA decreased in SAM group (all P<0.05), while basal-IVDd, LVEF, posterior leaflet length and bulging subaortic septum increased in SAM group (all P<0.05). ②Compared with that before the "edge to edge" technique, LVOT-Vmax decreased from (4.31±2.26)m/s to (2.55±1.39)m/s, LVOTG decreased from (43.58±10.89)mmHg to (23.36±12.76)mmHg, MVG-mean increased from (0.46±0.33)mmHg to (2.27±0.43)mmHg, and MR-area increased from (3.52±0.79)cm 2 to (0.96±0.57)cm 2 (all P<0.05). ③Multivariate logistic regression analysis showed that independent risk factors of SAM were LVEDd<45.430 mm ( OR=0.267, 95% CI=0.084-0.847), basal-IVDd>14.870 mm ( OR=12.049, 95% CI=1.619-89.661), length ratio of anterior and posterior leaflets of mitral valve>1.371 ( OR=0.159, 95% CI=0.045-0.562), angle of bulging angulated subaortic septum>62.330°( OR=18.246, 95% CI=2.824-117.896), c-sept<23.965 mm( OR=0.177, 95% CI=0.05-0.628), and AMA<123.730°( OR=0.197, 95% CI=0.098-0.396). Conclusions:Intraoperative TEE can evaluate the risk factors of SAM before MVP, and find the SAM phenomenon after MVP in time, which is helpful for surgeons to prevent and correct SAM after MVP and avoid secondary operation.
3.The analysis of cerebral angiography of the ischemic cerebrovaseular diseases
Dayong DU ; Hang XU ; Dongju ZHANC ; Xi WANG ; Jiangchuan WANG ; Hongmei ZHANG ; Qingjun WANC ; Yuekun WANG ; Shuyuan CHEN
Chinese Journal of Postgraduates of Medicine 2008;31(34):21-24
Objective To study the nlanifestation and the clinical significance of the cerebral angiography of the isehemic cerebrovascular diseases.Methods Digital sublraction angiography(DSA)was taken in 312 patients with cerebral infarction and transient ischemic attack(TLA).The distribution of the lesion in the extra/intracranial arteries was compared.Results Cerebral angiography showed that the stenosis and occlusion was dominant in the intracranial arteries at the cerebral infarction in the internal carotid artery system and vertebrobasilar artery system[59.57%(56/94)and 61.90%(26/42)].TIA of internal carotid artery system was mainly because of stenosis of intracranial arteries (68.75%,22/32).TIA of vertebrobasilar artery system was mainly because of stenosis of extracranial arteries(61.70%,29/47).Conclusions The diseases of the intracranial arteries are the main causes of cerebral infarction(including internal carotid artery system and vertebrobasilar artery system) and TIA of internal carotid artery system. The diseases of the extracranial arteries are main causes of TIA of vertebrobasilar artery system.