Echocardiographic evaluation of monocrotaline induced pulmonary arterial hypertension in rats
10.3760/cma.j.issn.1004‐4477.2019.07.011
- VernacularTitle:超声心动图评估野百合碱诱导的大鼠肺动脉高压
- Author:
Limin GUO
1
;
Xiaofeng WU
;
Shuying ZHANG
;
Hao LI
;
Qingxi QU
;
Daqing LI
Author Information
1. 中国教育部、卫生部心血管重构和功能研究重点实验室
- Keywords:
Echocardiography;
Hypertension,pulmonary;
Monocrotaline;
Rat
- From:
Chinese Journal of Ultrasonography
2019;28(7):629-636
- CountryChina
- Language:Chinese
-
Abstract:
Objective To analyze the correlation between the direct measurement of pulmonary artery pressure and the related echocardiographic parameters in rats with pulmonary arterial hypertension ( PA H ) , and establish a predictable equation for pulmonary artery pressure using non‐invasive ultrasonic parameters . Methods Fifteen male Wistar rats were randomly divided into normal control ( NC ) group with five rats and PA H model group with 10 rats .PA H model was established by intraperitoneal injection of 1% MCT solution in the dose of 60 mg/kg . All the rats were examined by ultrasonic apparatus to record cardiac parameters including right ventricle anterior wall thickness ( RVAWT ) ,pulmonary artery diameter ( PAD) , aorta diameter ( AOD ) , pulmonary artery acceleration time ( PAAT ) , pulmonary artery ejection time ( PAET ) ,right ventricle end‐diastolic diameter ( RVEDD ) ,right ventricle end‐diastolic length ( RVEDL ) , tricuspid annular plane systolic excursion ( T APSE) and left ventricular ejection fraction ( LVEF ) before experiments as well as 2 and 4 weeks after modeling . At the fifth week of modeling ,all the rats were administrated with thoracotomy and right ventricular catheter to obtain pulmonary artery systolic ,diastolic and mean pressures ( PASP ,PADP and PAM P) . Results As time went on ,measures of RVAWT ,PAD , PAD/AOD ,RVEDD ,RVEDL ,RVEDD/RVEDL increased ,while measurements of PAA T ,PAA T/PAET , T APSE decreased in the model group .T he changes of RVAWT ,PAD ,PAA T/PAET ,RVEDD in the model group appeared early in the second week in contrast to data before molding ( P <0 .05) . When comparing model group with NC group ,there were statistic differences of RVAWT ,PAAT/PAET as early as 2 weeks after modeling measuring (all P <0 .05) and the dramatic variance in the parameters of PAD/AOD ,PAAT , RVEDD ,RVEDD/RVEDL ,T APSE appeared in 4‐week observation . Correlation analysis suggested there were high‐degree correlations between PAA T ,PAA T/PAET and PASP ,PAM P ( for PASP : r = -0 .829 ,-0 .865 ,P< 0 .05 ; for PAM P : r = -0 .831 , -0 .842 , P < 0 .05 ) ,and moderate‐degree correlations between RVAWT ,PAD/AOD ,RVEDD ,RVEDD/RVEDL ,T APSE and PASP ,PAM P ( for PASP :|r|=0 .615-0 .786 , P <0 .05 ; for PAM P : r =0 .683-0 .799 , P <0 .05) .T he linear dependent equations were established as PASP = -169 .392 PAAT/PAET + 105 .092 ( r2 = 0 .748 , P = 0 .000 ) ,PASP = 49 .576 RVAWT+67 .314RVEDD/RVEDL -45 .198 ( r2 =0 .731 , P =0 .003) ,PAM P= -150 .664PAAT/PAET+88 .156 ( r2 =0 .709 , P = 0 .001 ) ,PAM P=37 .988RVAWT +82 .072RVEDD/RVEDL -50 .517 ( r2 =0 .794 , P = 0 .001 ) to represent the relationships between PASP or PAM P and PAAT/PAET or RVAWTcombined RVEDD/RVEDL . Conclusions Echocardiography can monitor changes in heart structure and hemodynamics .Ultrasonic parameters especially PAAT/PAET or RVAWT ,RVEDD/RVEDL could be used to estimate PASP or PAM P measured by catheterization .
