KINGSBURY, B.F. 1920. The extent of the floor 

 plate of His and its significance. Jour. Comp. Neur. 

 32: 113-135. 



1922; The fundamental plan of the vertebrate 



brain. Jour. Connp. Neur. 34: 461-491. 



1924. The developmental significance of the 



notochord (chorda dorsalis). Zeitschr. f. morphol. u. 

 Anthropol. 24: 59-73. 



1926. The so-called law of antero-posterior 



development. Anat. Rec. 33: 



1926. Branchiomerism and the theory of head 



segnnentation. Jour. Morph. Physiol. 42:83-109. 

 (Critical review and theoretical discussion of status 

 of cranial nerves in relation to branchial arches. ) 



1930. The developmental significance of the 



floor plate of the brain and spinal cord. Jour. Connp. 

 Neur. 50: 177-208. (Theoretical discussion; relation 

 of differential nnetabolic rates to brain development; 

 relation of concresence theory to neural development.) 



1932. The "law" of cephalocaudal differential 



growth in its application to the nervous system. Jour. 

 Comp. Neur. 56: 431-463. (Cat embryos; spinal cord 

 and neural crest, notochord, tailbud; cephalocaudal 

 gradient of differential growth, theoretical innpli- 

 cations . ) 



1934. The development of the septum medullae 



(mannmals: cat). Jour. Comp. Neur. 60: 81-109. 

 (Differential transfornnation of rhombencephalon floor 

 plate into septum medullae; mitosis in the neural tube; 

 role of floor plate and roof plate in differentiation; 

 review of occurrence of glycogen in the neural tube. ) 



and H. B. ADELMANN. 1925. The morpho- 

 logical plan of the head. Quart. Jour. Micr. Sci. 68: 

 239-285. (Vertebrates; general ennbryological survey 

 of development of eyes, nose, hypophysis, mouth, and 

 cranial nerves. Significance of cyclopic and mono- 

 rhinic monsters. Homologies of segments, significance 

 of preoptic and post optic segments. See Neal.) 



and F. J. ROEMER. 1940. The 



development of the hypophysis of the dog. Amer. 

 Jour. Anat. 66: 449-476. (Embryos and young animals; 

 histological study. ) 



KINGSLEY, J.S. 1912. Comperative anatomy of 

 vertebrates. Philadelphia, P. Blakison's Son and 

 Company. 



KIRGIS, H. D. andE.A. OHLER. 1944. Regeneration 

 of pre- and postganglionic fibers following sympa- 

 thectomy of the upper extremity. An experimental 

 study. Ann. Surg. 119: 201-210. (Cats; functional 

 regeneration of preganglionics, failure of post- 

 ganglionic . ) 



KIRK, E.G. and D. D. LEWIS. 1915. Fascial 

 tubulization in the repair of nerve defects. Jour. Amer. 

 Med. Assoc. 65: 486-492. 



1917. Regeneration in peripheral 



nerves. An experimental study. Johns Hopkins Hosp. 

 Bull. 28: 71-80. 



KISEKI, T, 1933. Statisticka esploro pri la pezo de 

 fetaj organoj. (Statistical study of the weight of fetal 

 organs) (Japanese with Esperanto sunnmary. ) Mitteil. 

 Med. Ges. Tokio 47: 1971-1999. (Hunaan fetuses; 

 normal curves for organ weight correlated with total 

 body weight. Brain?? Quantitative.) 



KISS, F. and P. von MIHALIK. 193 0. Uber die 

 Markreifung im peripherischen Nervensystenn. (The 

 development of the nnyelin in the peripheral nervous 

 system.) Anat. Anz. 69: 433-444. (Fetuses; man, 

 sheep, pig: time and order of myelinization; relation 

 of nerve components within any one peripheral nerve. 

 Histogenesis. ) 



KIYOHARA, K. 193 1. Sur la consommation en oxygene 

 de la retine chez les ennbryons de poule. C. R. Soc . 

 Biol. 106: 920-923. (Chick embryo; retina; Warburg 

 determination of oxygen consumption; relation of 

 appearance of sensory cells in embryonic development on 

 tissue nnetabolism. ) 



KJELLGREN, K. 1939. Das Verhalten der Neuritzen- 

 zahl in den Wurzeln der Spinalnerven wahrend des 

 postf5talen Lebens Felis domestica. Upsala Lakare- 

 fbren. Fbrhandl. 44: 247-257. (Postictal increase in 

 neurones in cat. Quantitative??) 



KLAFTEN, E. and R. WAGNER. 1934. Die galvanische 

 Nervenerregbarkeit in der Neugeborenenperiode. 

 Zeitschr. Kinderheilk. 56: 20 1-207. (Man; increase 

 in galvanic irritability of peripheral nerves following 

 birth; relation of irritability of child to that of mother, 

 effects of birth weight, feeding, skull defects, nnaternal 

 eclampsia. ) 



KLATT, B. 1933. Weitere Versuche (Hypophysenex- 

 tirpationen und implantationen) an Tritonlarven. 

 Zeitschr. Wiss. Biol. Abt. D. Roux' Arch. f. Entw. - 

 Mech. d. Org. 130: 79-108. (Triton taeniatus, T. 

 carnifex, T. alpestris; effects of hypophyseal and 

 'tween brain extirpation and implantation on nnetannor- 

 phosis, growth and pigmentation.) 



KLINKHARDT, W. , 1905. BeitrSge zur Entwicklung 

 der Kopfganglien. Jen. Zeitschr. Nat. 40. 



KNOBLOCH, D. V. 1936. Das subfornikale Organ des 

 dritten Hirnventrikels in seiner ennbryonalen und 

 postembryonalen Entwicklung beinn Hausschwein (Sus 

 scrofa donnesticus. ) Zeitschr. Anat. u. Entwick- 

 lungsgesch. 106: 379-397. (Morpho- and histogenesis; 

 recent phylogenetic origin of subfornical organ. ) 



KNOUFF, R.A. 1925. The development of the marginal 

 sensory zone of the neural plate in Rana. Ant. Rec. 

 29: 364. 



1927. The origin of the cranial ganglia of 



Rana. Jour. Comp. Neur. 44: 259-361. (Contributions 

 of neural crest and epibranchial placodes to ganglia of 

 general cutaneous and acoustico-lateralis systems.) 



1935. The developmental pattern of ectodermal 



placodes in Rana pipiens. Jour. Comp. Neur. 62: 17-71. 

 (Embryos; origin, differentiation, and fate of ectodermal 

 placodes . ) 



KOBY, F.E. 1929. Hydrophtalmie chez un pore, coin- 

 cidant avec une microphtalmie de I'autre c5te. (Hydro- 

 phthaln^ia in a pig, coincident with a microphthalmia 

 on the other side. ) Ann. Oculistique 166: 200-205. 

 (Not abstracted in Biological Abstracts.) 



KOCH, E. 1925. Uber den Langsquerschnittstrom bei 

 Degeneration und Regeneration der peripheren 

 WarmblUternerven. PflUger's Arch. 207: 402-424. 

 (Rabbit; study of resting potential of normal, degener- 

 ating and regenerating peripheral nerve. Disappearance 

 at same tinne as electrical excitability. Study of wave 

 of negativity resulting from lesions. Recovery of po- 

 tential characteristic of regeneration. ) 



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