Objective To investigate the changes and roles of myocardial adenosine triphosphate enzyme(ATPase) in the mechanism of cardiac dysfunction after blunt chest trauma（BCT）. Methods Thirtysix rabbits were divided into 6 groups with random number table, control group, 2 h group, 4 h group, 8 h group, 12 h group and 24 h group, 6 in each group. The models of BCT were established with BIMⅡ biological impact machine, catheterization technique was used through the right jugular artery into the left ventricle measure its pressure. The hemodynamics and the activities of ATPase in myocardial cell plasm, homogenate and mitochondria were measured at preinjury(control group), 2 h, 4 h, 8 h, 12 h and 24 h postinjury. Results Left ventricular endsystolic pressure(LVESP), the maximal ascending rate of left intraventricular pressure(+dp/dtmax), isovolemec pressure(IP) and the maximal physiological velocity(Vpm) decreased significantly at 2 h group after BCT(P lt;0.05）, and recovered to preinjury level in 4 h, 8 h and 12 h group during 4-12 h after BCT; isovolumic relaxation phase left ventricular pressure descending time constant (T). Left ventricular enddiastolic pressure(LVEDP) and the maximal descending rate of left intraventricular pressure(-dp/dtmax) were significantly higher （P lt;0.05, 0.01）. The activity of ATPase in homogenate, mitochondria and cell plasm decreased significantly at 2 h group and 4 h group after BCT（P lt;0.05, 001, respectively）, and 8 h group and 12 h group recovered after BCT. There was negative correlations between [CM(159mm]LVEDP and -dp/dtmax and the decrease of the activity of Na+-K+-ATPase in homogenate（r=-0.674, -0.691, P lt;0.05）, the Ca2+-ATPase in homogenate（r=-0.613,-0.642, P lt;0.05）, the Na+-K+-ATPase in mitochondria（r=-0.622,-0.616, P lt;0.05）,the Ca2+-ATPase in myocardial cell plasm（r=-0.672,-0.658, P lt;0.05）, the Na+-K+-ATPase in myocardial cell plasm（r=-0.627,-0.632,P lt;0.05）,and the Mg2+-ATPase in myocardial cell plasm（r=-0.677,-0.661, P lt;0.05）. Conclusion The left ventricular function is impaired obviously after BCT, especially in diastolic phase. The decrease of the activity of ATPase in myocardial cells may be one of the reasons of cardiac dysfunction after BCT.

Citation： MIN Jiaxin,ZHU Peifang,WANG Zhengguo,et al .. The Relationship Between Cardiac Dysfunction and the Changes of Adenosine Triphosphate Enzyme in Myocardial Cells after Blunt Chest Trauma. Chinese Journal of Clinical Thoracic and Cardiovascular Surgery, 2009, 16(2): 123-126. doi: Copy