

\y* 





3 R A R N 



ELECTRICAL PHENOMENA. \\ . ' : 103 



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current can be detected on the side of the anode (g') and onH^&yaJent-vto VfrtO^ 

 the catelectrotonic current on the side of the cathode (g). The*txf&maMGJk) . 

 given to these currents is that as the threads of current pass into the plat 

 core there is a polarization at the surface between the core and the zinc sul- 

 phate solution which extends to a considerable distance on each side of the 

 electrodes and causes diffusion currents from sheath to core. It is these 

 threads of current that may be led off as electrotonic currents. Hermann 

 suggested that in the nerve we have a structure essentially similar to that 

 of the core model. He thought that the axis cylinder might be considered 

 as representing the core and the myelin the less conductive sheath correspond- 

 ing to the zinc sulphate solution. Others (Boruttau) have suggested that the 

 neurofibrils in the axis cylinder may represent the core or cores and the sur- 

 rounding neuroplasm the sheath, thus providing for the possibility of electro- 

 tonic currents in non-medullator fibers. As a matter of fact, the non-medul- 

 lated fibers in mammals give very slight electrotonic currents compared with 

 the medullated fibers.* 



According to the "core-model" explanation, the electrotonic currents 

 represent a purely physical phenomenon, which is dependent, however, upon 

 a certain structure of the nerve. That is, a completely dead nerve will not 

 show these currents, although an anesthetized nerve, in the mammal (Waller) 

 at least, continues to show them, and, according to Sosnowsky, excised rab- 

 bits' nerves kept in a moist atmosphere may show them for several days. 

 While the core-model hypothesis has led to much investigation in physiology 

 and has been made the basis for a purely physical explanation of the nerve 

 impulse (see next chapter), it is still very uncertain whether it furnishes any 

 positive information concerning the processes that actually take place in the 

 living nerve when submitted to the action of electrical currents or other arti- 

 ficial stimuli. 



* Alcock, " Proceedings Royal Society," 1904, 73, p. 166. 



