550 



CIRCULATION OF BLOOD AND LYMPH. 



membrane lies snugly in the auriculoventricular groove, making 

 an air-tight joint. The interior of the ball is connected by 

 stiff tubing with a recording tambour. By an arrangement 

 of this kind the ventricles are kept within an air-chamber closed 

 everywhere except at the outlet to the recording tambour. 

 Every change in volume of the ventricles will be recorded accu- 



l 



Fig. 231. Diagram to show the arrangement of the Henderson cardiometer. The 

 recording tambour is inverted, so that the systole will give an up-stroke on the curve. 

 (After Hirschf elder.) 



rately provided there is no leak. Moreover, these volume changes 

 may be given absolute values in cubic centimeters if the appa- 

 ratus is calibrated beforehand. The cardiometer furnishes a 

 convenient method of estimating directly the amount of blood 

 entering and leaving the ventricles under varying conditions, 

 as well as the changes in heart-volume that may result from 

 variations in tonicity. When the heart is beating slowly the 



Fig. 232. Diagram of the normal volume curve (plethysmogram) of the dog's heart 

 when beating at a slow rate (after Hirschf elder) . The up-stroke represents the systole, 

 the down-stroke the diastole; 4 to 5 the period of diastasis (Henderson). At 5 the auricular 

 contraction causes a slight additional dilatation of the ventricle. 1, 2, and 3 represent the 

 time of occurrence of the first, second, and third heart-sounds respectively. 



volume curve has the form shown in Fig. 232. During systole 

 the ventricles shrink in size as the blood is discharged into the 

 aorta and pulmonary artery the up-stroke of the curve. At 

 the end of the systole, after the closure of the semilunar and the 



