ACTION ON THE CELLULAR ELEMENTS OF THE BLOOD. 



177 



36, 

 34, 

 32, 

 30, 

 28,1 

 26,1 

 24, 

 22,1 

 20, 

 18,1 

 16, 

 <4, 

 12,1 

 10, 



e, 



6, 



4,1 



2/ 



Fig. 25.- 



-Rabbit 1, Experiment I. The morning of the day after the injection the number of leucocytes reaches 18,000; 

 wliich is a distinct rise in the number of leucocytes in this rabbit. A differential count shows that poly- 

 morphonuclear amphophihc leucocytes constitute 69.6 per cent of the total number. This is rather high. 

 The amount of hemoglobin and number of red cells run in fairly parallel curves. 

 Rabbit 1, Experiment 2. The number of leucocytes rises immediately after the injection to 25,400, then 

 falls; the next morning the number is again high. Variations in the hemoglobin index seem, to fluctu- 

 ate about a nearly constant mean. 



Fig. 2^.— Rabbit 1, Experiment 3. No leucocytosis detected. 

 Experiment 4. No leucocytosis detected. 



