24 
Table No. 2 — Continued. 
Scries. 
Date. 
Name of person. 
Quantity of phenolphthalin oxidized, in milligrams, during 
the several intervals. 
1 hour. 
2 hours. 
24 
hours. 
48 
hours. 
72 
hours. 
96 
hours. 
120 168 
hours, hours. 
1 
June 2 
Amoss 
0. 0735 
1 
1.03 
1 
0. 81 
Porch 
. 075 
1.07 
1.07 
1 
1 
Schrader 
.073 
1.03 
1.07 
.86 
.85 
2 
June 4 
Amoss (June 2) 
0.10 
.94 
1.07 
.94 
0. 60 0. 45 
Amoss (June 4) 
.10 
. S9 
1.07 
1 
.85 
.67 .44 
Robt. Hickev 
.10 . 
.89 
1.07 
.94 
.94 
. 65 . 52 
S. Lat'ero 
.10 
.94 
. 77 
.67 
.54 .40 
J. Reeves 
.058 
.433 
.49 
.372 
. 332 
.24 .IS 
Alice Kinslev 
.096 
.85 
.85 
.89 
.73 
.56 .32 
Edith Mason 

.092 
.85 
. 73 
.70 
.60 
. 52 . 332 
3 
June 5 
Amoss 
.077 
1 
M. Rawles 
.069 
1 

K. Rilev 
.058 
. 7 1 
- 
G. Bunav 
.062 
. 85 
Wm. Prvor 
.0382 
. 56 
Ellen Lehr 
.0473 
.67 
4 
June 6 
Rowze 
1 
i 
1.07 
.56 
M. Rowze 
. S5 
79 
.65 
.382 
\moss _ 
1.03 
1.03 
1 
.65 
Date. 
Name of person. 
Percentage of oxidation during the several intervals. 
Oxidizing 
power of 
blood in 
terms of 
normal. 
( Amoss) = 
100. (24- 
hour inter- 
val.) 
1 hour. 
2 hours. 
24 hours. 
i 
02 
CC 
72 hours. 
g 
E 
CQ 
168 hours. 
June 2 
Amoss 
4.6 
62.5 
64.4 
62.5 
50.6 
100 
Porch 
4.7 
66.9 
66.9 
62.5 
62.5 
107 
Schrader 
4. 5 
64.4 
66.9 
53. 7 
53. 1 
103 
June 4 
Amoss (June 2)... 
6. 25 
58.7 
66. 9 
58. 7 
48.7 
37. 5 
28.1 
94 
Amoss (June 4)... 
6. 25 
55. 6 
66.9 
62. 5 
53.1 
42 
27. 5 
89 
Rob’t Hickey 
6.25 
55. 6 
69.9 
58. 7 
58. 7 
40 
32.5 
89 
S. Lafero 
6. 25 
58. 7 
48.7 
48.7 
42 
33.7 
25 
94 
J. Reeves 
3.61 
27 
30.6 
23.2 
20 
15 
11.25 
43 
Alice Kinslev 
6 
53.1 
53.1 
55. 6 
45. 6 
a5 
20 
85 
Edith Mason 

5. 75 
53.1 
45.6 
43.7 
37. 5 
32. 5 
20.7 
85 
June 5 
Amoss 
4.8 
62.5 
100 
M. Rawles 
4.3 
62.5 
100 
K. Rilev 
3.6 
48.7 
78 
G Bunav 
3.9 
53. 1 
85 
Wm. Prvor 
2.4 
35 
56 
Ellen Lehr 
2. 9 
42 
67 
June 6 
Rowze 
62.5 
62. 5 
66.9 
35 
100 
M. Rowze 
53. 1 
45. 6 
40 
24 
85 
Amoss 
64.4 
64.4 
62.5 
40 
103 
A consideration of these results shows that even though a relatively 
larger amount of blood is present in the solution, the oxidation pro- 
ceeds much more slowly than when hydrogen peroxide is also present. 
When hydrogen peroxide is present normal blood, at a dilution of 
