.. 1931. Das Resonanzprinzip der Nerventa- 



tigkeit, dargestellt in FunktionsprUfungen an trans- 

 plantierten Uberzahligen Muskeln. PflUger's Arch. 

 Ges. Physiol. 226: 600-658. (Restatement of resonance 

 principle; discussion of transplanted toad muscles. ) 



1932. Versuche Uber die Wirkung der opera- 



tiven Einleitung motorischer Nerven in das Rtlcken- 

 mark. (Parabioseversuche an KriJten. ) Arb. Ungar. 

 Biol. Forschungsinst. 5: 13 1-138. (Introduction of 

 peripheral stump sciatic of parabiotic toad into 

 spinal cord of partner; fornnation of functional con- 

 nection demonstrated histologically and electri- 

 cally, no passage of natural stimuli. ) 



1934. Motor effects of sensory nerves ex- 

 perimentally connected with muscles. Anat. Rec. 60: 

 437. 



1935. Homologous (resonance-like) function 



in supernumerary fingers in a human case. Proc . 

 Soc. Exp. Biol. Med. 33: 426-430. (Report of a case. ) 



1935. Honnologous function in supernunnerary 



limbs after elimination of sensory control. Proc. Soc. 

 Exp. Biol. Med. 33:30-32. (Preliminary paper. ) 



1935. Unmodifiability of loconnotor coordi- 

 nation in amphibia, demonstrated by the reverse 

 functioning of mutually exchanged right and left limbs. 

 Proc. Soc. Exp. Biol. Med. 33: 241-242. (Ambly- 

 stoma larvae; preliminary paper.) 



-1- 1935. Experimental innervation of muscles 



by the central ends of afferent nerves (establishment 

 of a one-neurone connection between receptor and 

 effector organ), with functional tests. Jour. Comp. 

 Neur. 61: 135-174. (Toads; innervation of trans- 

 planted muscles by central ends of dorsal roots; 

 response of muscle to electrical stimulation of 

 sensory nerve, not to natural stimulation of sensory 

 periphery. Bearing on resonance theory. ) 



1935. Function of de-afferented amphibian 



limbs. Proc. Soc. Exp. Biol. Med. 32: 463-438. 

 (Toads, eixolotl; preliminary paper. ) 



1936. Selectivity controlling the central 



peripheral relations in the nervous system. Biol. 

 Rev. 11: 494-531. 



1936. A study of nnotor coordination and 



tonus in deafferented limbs of amphibia. Amer. Jour. 

 Physiol. 115: 461-475. (Bufo americana, B. fowleri, 

 A. mexicanum; excision spinal ganglia and dorsal 

 roots; no results on locomotion, limb reflexes or 

 capacity for tonic reaction. ) 



1937. Further experimental investigations 



on the phenomenon of homologous response in trans- 

 planted amphibian limbs. I. Functional observations. 

 Jour. Comp. Neur. 66: 181-206. (Amblystoma; post- 

 embryonic grafting of supernumerary limbs; obser- 

 vations on homologous nnotor function and myotatic 

 reflexes, maladaptive character of function. ) 



1937. Further experimental investigations 



on the phenomenon of honnologous response in trans- 

 planted annphibian limbs. II. Nerve regeneration and 

 the innervation of transplanted limbs. Jour. Comp. 

 Neur. 66: 481-526. (Amblystoma mexicanum; super- 

 nunnerary linnbs studied by anatomical, histological 

 and electrical methods; lack of selectivity in regenerat- 

 ing nerves; role of branching in reinnervation; central 

 control of homologous response. Quantitative.) 



1937. Further experimental investigations 



on the phenomenon of homclogous response in 

 transplanted amphibian limbs. III. Homologous re- 

 sponse in the absence of sensory innervation. Jour. 

 Comp. Neur. 66: 537-548, (Axolotls; excision of 

 dorsal roots and ganglia fronn forelin-ib region; 

 transplantation of supernumerary limbs; production 

 of honnologous response. ) 



1937. Further experimental investigations 



on the phenonnenon of homologous response in 

 transplanted amphibian limbs. IV. Reverse loco- 

 nnotion after the interchange of right and left limbs. 

 Jour. Comp. Neur. 67: 269-315. (Amblystoma; 

 interchange of right and left forelimbs; nrialadaptation 

 of function not modified by experience; role of cen- 

 tral factors in deternnination of motor pattern.) 



1940. Functional properties of isolated 



spinal cord grafts in larval amphibians. Proc. Soc. 

 Exp. Biol. Med. 44: 350-352. (Amblystoma punc- 

 tatum; heterotopic transplantation of spinal cord 

 and limb; genesis of rhythmic spontaneous activity 

 and reflexes in CNS after major involution. ) 



1940. Functional properties of transplanted 



and deranged parts of the annphibian nervous system. 

 Collecting Net 15: 85. 



1940. Some results of spinal cord trans- 

 plantation in larval annphibians. Anat. Rec. 76: 57. 



1941. Does sensory control play a con- 

 structive role in the development of motor coordi- 

 nation? Schweiz. Med. Wochenschrift. 71: 591. 



1941. Self-differentiation of the basic patterns 



of coordination. Comp. Psychol. Monogr. 17: 1-96. 

 (Discussion and review. ) 



1941. Autononnous versus reflexogenous 



activity of the central nervous system. Proc. Amer. 

 Phil. Soc. 84: 53-64. (Amphibian larvae; heterotopic 

 transplantation of spinal cord and limb; developnnent 

 of rhythmic spontaneous and reflex activity; central 

 origin of patterns of coordination. ) 



1941. Further experinnents with deplanted 



and deranged nerVe centers in amphibians. Proc. 

 Soc. Exp. Biol. Med. 46: 14-15. (Appearance of 

 rhythmic spontaneous activity; effects of central or- 

 ganization and humoral factors on discharge threshold. ) 



1941. Eyes transplanted to abnormal head 



sites as receptors for the typical lid-closure reflex 

 in Triturus. Anat. Rec. 81: 51. 



1942. Lid-closure reflex from eyes trans- 

 planted to atypical locations in Triturus torosus: 

 Evidence of a peripheral origin of sensory specificity . 

 Jour. Comp. Neur. 77: 13 1-169. (Larvae; heterotopic 

 transplantation eye; reflex independent of surrounding 

 tissue; effect of periphery on modulation of central 

 relations. ) 



andP.F. BROWN. 1941. Electromyographic 



studies on recoordination of leg movements in poliomye- 

 litis patients with transposed tendons. Proc. Soc. Exp. 

 Biol. Med. 48: 284-287. (Man; quadriceps, biceps 

 femoris; use of flexor nnnn. in extensor phase; com- 

 posite control of movement by rigid and plastic 

 mechanisms. ) 



1942. Electromyographic studies on 



normal and pathological coordination in nnan. I. The 

 myographic method. (Preprint) 



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