2 4 o TEXT-BOOK OF PHYSIOLOGY 



The dimensions of the bell-shaped cell according to Weidenreich are as 

 follows: 



Greatest diameter 7 microns o .007 mm. 



Diameter of cavity 3 microns o .003 mm. 



Height of bell 4 microns o .004 mm. 



Height of cavity 2.5 microns o .0025 mm. 



Thickness of wall at apex 2 microns o .002 mm. . 



Thickness of wall at base 1.5 microns o .0015 mm. 



The foregoing observations have been confirmed by many subsequent 

 investigators. Thus Lewis states that if a drop of blood is placed immediately 

 on a warm slide and examined, the corpuscles exhibit the bell shape, but as 

 the slide cools they gradually become biconcave discs of the conventional 

 form. He also observed that the corpuscles in the capillary blood-vessels 

 of the omentum of the guinea-pig were bell-shaped and presenting an 

 appearance similar to that shown in Fig. 93. Radasch found on examina- 

 tion of fetal tissues such as the spleen, kidney, liver, placenta, etc., that the 

 great majority of the corpuscles in all situations presented the bell shape 

 rather than the circular biconcave shape. This observer is of the opinion 

 that the bell shape can not be due to the action of the fixatives employed in 

 the preparation of the tissues. 



The structure of the corpuscle, according to Weidenreich, differs also 

 from that usually stated. He asserts that the corpuscle is surrounded by a 

 structureless, colorless membrane enclosing a colored but not nucleated 

 semi-fluid mass, which consists chemically of protein material, lecithin, 



cholesterin, inorganic salts and hemoglobin. 

 There is no evidence of the existence of a 

 stroma in the adult state. 



Number of Red Corpuscles. In any 

 given specimen of blood the corpuscles are 

 so numerous and the spaces between them 

 so small that it seems almost impossible to 

 determine their number. This, however, 

 nas been accomplished for a cubic milli- 

 meter of blood by various observers em- 

 GUINEA-PIG. (F. T. Lewis in Stohr's ploying different methods with compara- 

 Histology.) tively uniform results. The average normal 



number of corpuscles in one cubic milli- 

 meter of blood is, for men, 5,000,000; and for women, 4,500,000. This value, 

 however, will vary within slight limits, with variations in the activity of physio- 

 logic processes and to a large extent at times in pathologic states of the blood 

 or body. The number is increased in the cutaneous veins by all influences 

 which cause a diminution in the quantity of water in the blood e.g., co- 

 pious sweating, acute watery diarrhea, fasting, abstinence from liquids; the 

 number is diminished by influences which dilute the blood e.g., the ingestion 

 of liquids, the absorption of fluids from the tissue spaces, etc. But it is well 

 to remember that these influences which produce changes in the number of 

 corpuscles per cubic millimeter do not necessarily produce corresponding 

 changes in the total number of red corpuscles in the body. In women 

 lactation, menstruation, and the act of parturition diminish the number. 

 High altitudes apparently increase the number of corpuscles, as shown by 

 their increase in the blood of the peripheral vessels. Whether this is an 



