KESPIKATION. 



601 



deeper, while the pauses between the respiratory movements are more 

 prolonged. If both pneumogastric nerves are divided the respirations 

 are still further slowed, the pauses are prolonged, and each respiratory 

 movement is deeper than normal. If the quantity of air displaced in any 

 given number of respiratory movements before and after section of these 

 nerves be estimated, it will be found to be almost unchanged ; in other 

 words, the increased depth of the respiratory movements after section of 

 the pneumogastric compensates for their decrease in frequency. The 

 amount of carbon dioxide exhaled and oxygen absorbed from the pul- 

 monary surfaces, therefore, remains unchanged. 



If after section of the pneumogastrics the central end of one of the 

 divided nerves be irritated, the rapidity of respiration 

 will be increased. Hy carefully graduating the strength 

 of stimulation the normal rhythm of respiration may be 

 again almost exactby restored. If the irritation be 

 gradually increased, the movements of respiration will 

 increase in vigor until, finally, they 

 will apparent^ run into each other, 

 and respiration will then be arrested 

 with the diaphragm in a condition of 

 tetanic contraction. Respiration is 

 thus stopped in the phase of extreme 

 inspiration. 



If the central end of the superior 

 laryngeal nerve be stimulated with the 

 faradic current the respiratory move- 

 ments will be slowed, and with a 



powerful irritation will be arrested, 



. ' Fig. 257.— Scheme of the Chief Re- 



the diaphragm being completely re- spiratory Nerves, after Ruther- 



. -11 " ford. (Landois.) 



laxed, and the thorax and lungs being ms _ iMpiratorj , and EXP , 6xpiratory C6ntrea _ 

 in the condition seen in forced expira- ^^^^IS&tfSS^S: 



j • „ t, i i ii i> . i . DO ; inspiratory motor nerves, phrenics to the dia- 



tlOn. it WOUld thereiOre appear that phragm, D; INT, intercostal nerves; KL, recurrent 



. _ . laryngeal ; CX. pulmonary fibres of vagus that excite 



tile trUllKS OI the pneUmOgaStriC inspiratory centre ; CX'. pulmonary fibres that excite 



expiratory centre; CX", fibres of superior laryngeal 



llerves are the PathS Of impulses traV- '""' excite expiratory centre; INH, fibres of superior 



J- 1 laryngeal that inhibit the inspiratory centre. 



eling from the lungs, which, reaching 



the respiratory centre, tend to exalt its activity. The vagus may, 

 therefore, be regarded as a stimulating nerve for this centre. The laryn- 

 geal nerves, on the other hand, may be regarded as inhibitory nerves 

 of the respiratory centre, and, when stimulated, arrest respiration, the 

 diaphragm being in a state of relaxation and the thorax contracted 

 (Fig. 257). 



While the respiratory centre is thus capable of being modified by 

 impulses coming from these nerves, its degree of activity is, above all, 



