TORREY, T. W. 193 1. The relation of taste-buds to 

 their nerve-fibers. Proc. Nation. Acad. Sci. , U.S.A. 

 17: 591-594. (Ameirus nebulosus, adult; section of 

 gustatory nerves; effects of temperature and electric- 

 al stimulation on rate of anatomical degeneration of 

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1934. Tennperature coefficient of nerve de- 

 generation. Proc. Nation. Acad. Sci. U.S.A. 20: 

 303-305. (Frog; n. tibialis; Q jg of degeneration at 

 various temperature levels. Evidence for chemical 

 nature of trophic effect of neurones. Quantitative. ) 



1936. The relation of nerves to degenerating 



taste buds. Jour. Connp. Neur. 64: 325-336. (Am- 

 eiurus nebulosus; time of disintegration of nerve 

 fibers and terminal arborizations of lingual nerves 

 following section; lack of centrigual degeneration; 

 trophic effect of nerves on end organs. ) 



1940. The influence of nerve fibers upon taste- 

 buds during embryonic development. Proc. Nation. 

 Acad. Sci. U.S.A. 26: 627-634. (Rats; description of 

 embryonic tastebud formation; regeneration; effects 

 of innervation on end organs. ) 



and W. R. BRENEMAN. 1941. Abnormalities 



in frog embryos induced by centrifugation. Proc. 

 Indiana Acad. Sci. 50: 2 13-228. (Rana pipiens; eggs; 

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 theory. ) 



TOWER, S. S. 193 1. A search for trophic influence 

 of the sympathetic nervous system on the adult mam- 

 malian skeletal muscle fiber. Bull. Johns Hopkins 

 Hosp. 48; 115-126. (Cats, dogs, goats; unilateral 

 sympathetic denervation; Bielschowsky study of normal 

 and denervated forelimbs; no trophic control on extra- 

 fusal nnuscle fibers found. ) 



193 1. A search for trophic influence of post- 

 erior spinal roots on skeletal muscle, with a note on 

 the nerve fibers found in the proximal stumps of the 

 roots after excision of the root ganglia. Brain 54; 99- 

 1 10. (Cats; section of posterior root ganglion and 

 stellate fibers to linnb muscle; muscles weighed, fiber 

 size measured; absence of muscular atrophy; presence 

 of fine fibers in posterior roots following operation. ) 



1932. The effects of sympathetic denervation 



of mammalian tissues during the period of postnatal 

 growth. Amer. Jour. Physiol. 100: 295-300. (Ex- 

 tirpation of right cervico-thoracic sympathetic chain 

 in new born kittens; no effect on growth or development 

 of denervated structures; failure of postganglionic 

 regeneration from preganglionic sources; effect of 

 decentralization on development of postganglionic 

 neurones. ) 



1932. Atrophy and degeneration in the muscle 



spindle. Brain 55: 77-90. (Cats; section peripheral 

 nerves, ventral roots, dorsal roots; excision sym- 

 pathetic ganglia; histological observations on muscles; 

 effects on spindle and extra-fusal muscle.) 



1937. Trophic control of non-nervous tissues 



by the nervous system: a study of muscle and bone 

 innervated from an isolated and quiescent region of 

 spinal cord. Jour. Comp. Neur. 67: 241-261. (Pup- 

 pies; section posterior roots and double transection 

 lumbo- sacral cord; atrophy and contracture of cor- 

 responding mm. , effects on interstitial fibrous tissue, 

 growth in thickness of bones, muscle attachments.) 



TOWER, S. S. 1939. The reaction of muscle to 

 denervation. Physiol. Rev. 19: 1-48. (Review of 

 physiological, chemical and histological changes.) 



1943. Regenerative capacity of ventral roots 



after avulsion from the spinal cord. Arch. Neur. 

 Psychiat. 49: 1-12. (Adult cats; anatonnical and func- 

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H. HOWE and D. BODIAN. 1941. Fibrilla- 

 tion in skeletal nnuscle in relation to denervation and 

 to inactivation without denervation. Jour. Neurophysiol. 

 4: 398-401. (Monkey; isolation of lumbo-sacral cord, 

 section sciatic n. ; parallel effect on fibrillation of 

 denervation and functional inactivation of mm. ) 



and C. P. RICHTER. 1931. Injury and 



repair within the sympathetic nervous system. I. 

 The preganglionic neurones. Arch. Neur. Psychiat. 

 26: 485-495. (Adult cats; section of preganglionic 

 nerve fibers to stellate ganglion. Effects on skin 

 potential, resistance. Physiological indications of 

 de- and regeneration of sympathetic nerves.) 



1932. Injury and repair within the 



sympathetic nervous systenn. II. The postganglionic 

 neurons. Arch. Neur. and Psychiat. 28: 1139-1148. 

 (Cats; section of fibers from stellate ganglion; observa- 

 tions on electrical resistance and action currents, 

 paw, sweating; histological studies; effects of post 

 as compared to pre ganglionic section, failure of re- 

 generation of gray rami, recovery of control over skin 

 resistance in absence of sympathetic regeneration. ) 



1932. Injury and repair within the 



sympathetic nervous systenn. III. Evidence of activ- 

 ity of postganglionic sympathetic neurons independent 

 of the central nervous system. Arch. Neur. Psychiat. 

 28: 1149-1152. (Review of literature, some original 

 work. Contrast of pre and postganglionic section; 

 postganglionic activity independent of CNS. ) 



TOYONAGA, T. 1940. Uber die Entwicklung der Gros- 

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TRETJAKOFF, D. 1909. Das Nervensystem von Am- 

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1927. Das periphere Nervensystem des 



Flussneunauges. (Peripheral nervous system of 

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 of 25 years work on development of cranial and 

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TRIEPEL, H. 1920. Ein doppelseitiger Anophthalm- 

 us. Weitgehende Selbstdifferenzierung. Arch. f. 

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anatonnical description of effect of anophthalmia on 

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TRUNIGER, F. 1927. Contributo alia conoscenza 

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 cristatus.) Boll. 1st. Zool. Univ. Roma 5: 115-125. 

 (Regulatory processes in fusion of two embryonic 

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TRUSCOTT, B. L. and P. H. STRUTHERS. 1941. 

 The embryological development of the middle ear 

 of the field mouse, Microtus pennsylvanicus . Jour. 

 Morph. 69: 329-343. (Histology; ossification, innerva- 

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