Brunel Institute for Bioengineering & School of Engineering and Design, Brunel University, Uxbridge, Middlesex UB8 3PH, UK.
Int J Cardiol. 2010 Jul 9;142(2):166-71. doi: 10.1016/j.ijcard.2008.12.188. Epub 2009 Feb 23.
The relationship between left ventricular (LV) long and short axes, aortic pressure (P), flow velocity (U) and wave intensity is not well established.
Eleven dogs were anaesthetized and mechanically ventilated and LV long and minor axes shortening velocities were calculated using ultrasound crystals. P and U were measured in the ascending aorta using a high fidelity pressure catheter and ultrasonic flow transducer.
Pre-ejection: The LV minor axis began to shorten as the long axis lengthened creating LV shape change. Early ejection: The aortic valve opened 83+/-20 ms after the ECG Q-wave. Aortic P and U simultaneously increased; peak aortic velocity and maximum minor axis shortening velocity (M(max)) occurred at 152+24 and 147+24 ms, respectively; p=0.66, intra-class correlation ICC 0.93). M(max) also corresponded to the time when the reflected compression wave arrived back to the heart (ICC 0.75). Late ejection: LV long axis reached its peak shortening velocity 28+21 ms later than the minor axis at 175+/-33 ms, coinciding with peak LV pressure (187+25 ms; p=0.77, ICC 0.65) and onset of the forward expansion wave (177+28 ms, p=0.88, ICC 0.89). Both axes then continued to slow until 210+/-30 ms when an increased rate of decline of shortening velocity corresponded with peak aortic pressure.
Long axis peak shortening velocity lagged consistently behind the minor axis, representing a degree of normal asynchrony. The arrival of the reflected wave appears to bring about the slowing down of the minor axis.
左心室(LV)长轴和短轴、主动脉压(P)、流速(U)和波强之间的关系尚未得到很好的确定。
11 只狗被麻醉并机械通气,使用超声晶体计算 LV 长轴和短轴缩短速度。使用高保真压力导管和超声流量换能器测量升主动脉中的 P 和 U。
射血前期:LV 短轴开始缩短,而长轴变长,导致 LV 形状发生变化。早期射血期:主动脉瓣在心电图 Q 波后 83+/-20 ms 打开。主动脉 P 和 U 同时增加;主动脉速度峰值和最大短轴缩短速度(M(max))分别出现在 152+24 和 147+24 ms 时;p=0.66,组内相关 ICC 0.93)。M(max)也对应于反射压缩波返回到心脏的时间(ICC 0.75)。晚期射血期:LV 长轴的最大缩短速度比短轴晚 28+21 ms,在 175+/-33 ms 时达到峰值,与 LV 压力峰值(187+25 ms;p=0.77,ICC 0.65)和正向扩张波的起始时间(177+28 ms,p=0.88,ICC 0.89)重合。两个轴随后继续减速,直到 210+/-30 ms 时,缩短速度的下降率增加与主动脉压峰值相对应。
长轴的最大缩短速度始终滞后于短轴,代表一定程度的正常不同步。反射波的到达似乎导致短轴减速。
