MUSCULAR FIBRE. 



697 



nt the surface of the bnndle the representative of the 

 elastic element remains, and often becomes as much de- 

 veloped as its sarcolemma. There is no question here of 

 muscle resulting from the contents of fused cells. It 

 is obviously and readily seen to be but a metamorphosis 

 of the periplastic substance, in all respects comparable 

 to that which occurs in ossification, or in the develop- 

 ment of tendon. In this case, we might expect that, as 

 there is an areolar form of connective tissue, so should 



it-- 





Fig. 328. 



1, Muscular fibre, aud afaj^ciruluf: of a muscle taken ft'om a young Pig. (Mag- 

 nified 600 diameters.) 2, Muscular fibre from tlie tongue of Lamb, showing 

 continuity of the upper portion, with connective tissue of the lower portion. 

 3, Branched muscle, ending in stellate connective cells, from the upper lip of 

 the Rat. 



we find some similar arrangement of muscle ; such may, 

 indeed, be seen very beautifully in the termination of the 

 branched muscles, as they are called. In fig. 328, 'No. 3, 

 the termination of a muscular fibre from the lip of a Rat, 

 is shown : and the stellate "cells" of areolated connective 

 tissue are seen passing into the divided extremities of 

 the muscular bundle, becoming gradually striated as they 

 do so. In the muscle it is obvious enough, that what- 

 ever /iomoZo^yy there may be between the stellate "cells" 

 and the muscular bundles with which they are con- 

 tinuous, there is no functional analogy^ the stellate bodies 

 having no contractile faculty. The nervous tubule is 

 developed in essentially the same manner as a muscular 

 fasciculus, the only difference being, that fatty matters 

 take the place of syntonin. Now it commonly happens 

 that the nerve-tubule terminates in stellate bodies (fig. 

 330) of a precisely similar nature ; these are supposed to 



