Tin: /v;;/r> . 907 



_'. The i-i'pfiiil.ic lamiiwe always remain adherent to the vertebral laminae, 

 HI id are inflected inwards with them to form the anterior portion of the 

 crplmlo intestinal cavity. The latter is divided into two parts : the pharyn- 

 ;/'/ mid the oesophageal cavities. 



The pharyngeal cavity opens externally by the mouth ; it is partially 



<1, laterally, by the pharyngeal arches. The oesophageal cavity soon 



offers a divertieulnm, which shortly after communicates with the pleuro- 



jieritoneal cavity; this diverticulnm lodges the heart, and is named the 



a inline cacitif, 



The cephalic laminae also form the derm of the cranium, and the fibrous 

 ];i\-( -r in which some of the cranial bones are developed. 



AKTICLE II. DEVELOPMENT OF THE VARIOUS ORGANS OF THE ANIMAL 



ECONOMY. 



DEVELOPMENT OF THE NEKVOU8 SYSTEM. 



We will at first glance at the development of the nervous centres the 

 brain and spinal cord ; then their peripheral parts, the nerves. 



1. DEVELOPMENT OF THE BRAIN. We have seen in the preceding 

 article how the primitive groove appears, and afterwards the medullary 

 cavity. The latter, the first trace of the nervous centres, offers an en- 

 largement at each of its extremities ; the posterior, or rJiomboidal sinus, gives 

 off the nerves of the sacro-lumbar plexus; the anterior gives rise to the 

 brain. 



The latter enlargement is resolved into three successive dilatations the 

 >-illx or 1'1-,-i'Lrnl vesicles distinguished as anterior, middle, and posterior. 

 They are tilled with fluid, and the middle slightly surmounts the other two, 

 which -lives the three together a triangular shape. 



The vesicles increase irregularly in volume ; their walls are gradually 

 developed, and form the nervous tissue; while their cavity persists, and 

 DMfl the ventricles of each portion of the encephalou. Thus, the 

 niiti-rii'i- ri-xicle represents the cerebral hemispheres, the thalami optici, and 

 the lateral ventricles. The middle vesicle forms the cerebral crura, the 

 corpora qmulrigemina, and the aqueduct of Sylvius or middle ventricle. 

 The posterior vesicle gives rise to the medulla oblougata, pons Varolii, 

 and the fourth ventricle. 



The middle vesicle is that which, at first, increases most rapidly in 

 volume ; it soon, however, ceases, to allow the anterior cell to become 

 developed, when the encephalon assumes its ovoid form, with a predominance 

 of the anterior part. 



Towards the end of the first third of intra-uterine life, nearly all the 

 parts of the brain are distinct : the two hemispheres have become isolable 

 by the development of the septum lucidum ; the convolutions appear on their 

 surface ; the corpora quadrigeinina and cerebral crura are distinctly defined. 

 It is not until a little later that tin; cerebellum is distinguishable, as well 

 as the pons Varolii, medulla oblongata, corpora restiformia, and corpora 

 pyramidalia. 



2. DEVELOPMENT OF THE SPINAL CORD. The medullary (spinal) canal 

 is the first trace of the spinal cord ; it occupies the whole length of the 

 vertebral column, and its cavity communicates, iu front, with the fourth 

 ventricle. When the spine is developed, tin- marrow does not increase 

 proportionately in quantity, and appears to ascend in the vertebral canal ; 



