560 CIRCULATION OF BLOOD AND LYMPH. 



contraction. Since the auriculo ventricular valves are still 

 closed (see diagram, Fig. 219), the ventricles for a brief interval 

 are shut off on both sides. The blood is flowing steadily into 

 the auricles and dilating them. As soon as the ventricles relax 

 the pressure of blood in the auricles opens the auriculoven- 

 tricular valves, and from that moment until the beginning of 

 the auricular systole the blood from the large veins is filling 

 both ventricles and auricles. As stated on p. 554, the venous 

 blood which has been accumulating in the auricles during the 

 ventricular systole flows into the ventricles with some sudden- 

 ness on the opening of the auriculoventricular valves. The 

 ventricles, therefore, dilate rapidly and the auriculoventricular 

 valves are floated into a position ready for closure. This event 

 occurs at about the time that the third heart sound is heard. 

 In a slowly beating heart there may be quite an interval (period 

 of diastasis) between this point and the auricular contraction. 

 The auricular systole sends a sudden wave of blood into the 

 ventricles, dilating them still further and momentarily blocking 

 or retarding the flow from the large veins, and causing one of 

 the waves seen in the normal venous pulse as recorded in the 

 jugular veins. The ventricular systole follows at once upon 

 the auricular systole, the exact relations in this case depend- 

 ing somewhat upon the pulse rate. As the ventricle enters 

 into contraction the auriculo-ventricular valves are tightly closed, 

 the first sound is heard, and for a short interval the ventricular 

 cavity is again shut off on both sides. Soon the rising pressure in 

 the interior forces open the semilunar valves, and then a column 

 of blood is discharged into the aorta and pulmonary artery as long 

 as the contraction lasts. During this interval the flow at the. 

 venous end of the heart continues, the blood being received into 

 the yielding auricles. Indeed, this capacity for receiving the 

 venous inflow during the comparatively long-lasting ventricular 

 systole may be considered as one valuable mechanical function 

 fulfilled by the auricles. The venous flow is never completely 

 blocked and at the most suffers only a slight retardation during 

 the very brief auricular systole. At the end of the ventricular sys- 

 tole the excess of pressure in the aorta and the pulmonary artery 

 closes the semilunar valves and completes the cycle. 



Time Relations of Systole and Diastole. The duration of the 

 separate phases of the heart beat depends naturally on the rate 

 of beat. Assuming a low pulse rate of 70 per minute, the average 

 duration of the different phases may be estimated as follows: 



Ventricular systole = 0.379 sec. 



Ventricular diastole and pause = 0.483 " 



Auricular systole =0.1 to 0.17 " 



Auricular diastole and pause = 0.762 to 0.692 " 



