284 



HANDBOOK OF PHYSIOLOGY 



CIRCULATION I 



Automatic computation of nerve excitation. J. Soc. 36. 



Indusl. Appl. Math. 3: 153, 1955. 



17. Cole, K. S. and R. H. Cole. Dispersion and absorption 



in dielectrics II. Direct current cliaracteristics. J. Chem. 37. 



Phys. 10: 98, 1942. 



18. Cole, K. S. and H. J. Curtis. Electric impedance of the 



squid giant axon during activity. J. Gen. Physiol. 22 : 649, 38. 



1939- 

 ig. Cole, K. S. AND J. \V. Moore. Ionic current measurements 39. 



in the squid giant axon membrane. J. Gen. Physiol. 44; 

 123, i960. 



20. Cole, K. S. and J. W. Moore. Potassium ion current 40. 

 in the squid giant axon: Dynamic characteristic. Bio- 

 physical J. i: I, i960. 41. 



21. CoRABOEUF, E. AND M. Otsuka. L' action des solutions 

 hyposodiques sur les potentiels cellulaires de tissu 42. 

 cardiaque de mammiferes. Compt. Rend. Acad. &., Paris, 



243: 441. 1956- 



22. CoRABOEUF, E. AND S. Weidmann. Potcnticls d'action du 

 muscle cardiaque obtenus a I'aide microelectrodes intra- 43. 

 cellulaires. Presence d'une inversion de potentiel. Compt. 



Rend. Soc. Biol, Paris, 143: 1360, 1949. 



23. CoRABOEUF, E. and S. Weidmann. Temperature effects 44. 

 on the electrical activity of Purkinje fibres. Helv. physiol. et 

 Pharmacol, acta 12: 32, 1954. 



24. CoRABOEUF, E., F. Zacouto, Y-M. Gargouil, and J. 45. 

 Laplaud. Mesure de la resistance membrzinaire du 

 myocarde ventriculaire de manimiferes au cours de 

 I'activite. Compt. Rend. Acad. Sc, Paris, 246: 2934, 1958. 46. 



25. Cranefield, p. F., J. A. E. Eyster, and W. E. Gilson. 

 Effects of reduction of external sodium chloride on the 



injury potentials of caidiac muscle. Am. J. Physiol. 166: 47. 



269, 1 95 1. 



26. Cranefield, P. F., J. A. E. Eyster, and W. E. Gilson. 48. 

 Electriceil characteristics of injury potentials. Am. J. 

 Physiol. 167: 450, 1 95 1. 



27. Cranefield, P. F. and B. F. Hoffman. Electrophysiology 



of single cardiac cells. Physiol. Rev. 38: 41, 1958. 49. 



28. Cranefield, P. F. and B. F. Hoffman. Propagated 

 repolarization in heart muscle. J. Gen. Physiol. 41 : 633, 50. 



"958. 



29. Curtis, H. J. and K. S. Cole. Membrane resting and 



action potentials from the squid giant axon. J. Cell. & 51. 



Comp. Physiol. 19: 135, 1942. 



30. Dean, R. B. Theories of electrolyte equilibrium in muscle. 52. 

 Biological Symposia 3: 331, 1941. 



31. Deleze, J. Perfusion of a strip of mammalian ventricle. 53. 

 Effects of K-rich and Na-deficient solutions on trans- 

 membrane potentials. Circulation Res. 7: 461, 1959. 



32. Dodge, F. A. and B. Frankenhaeuser. Membrane 54. 

 currents in isolated frog nerve fibre under voltage clamp 

 conditions. J. Physiol. 143: 76, 1958. 55. 



33. Dodge, F. A. and B. Frankenhaeuser. Sodium currents 

 in the myelinated nerve fibre of .\enopus lacvis investigated 



with the voltage clamp technique. ./. Physiol. 148: 188, 56. 



I9.'i9- 



34. Draper, M. H. and M. Mya-Tu. A comparison of the 57. 

 conduction velocity in cardiac tissues of various mammals. 



Quart. J. Exper. Physiol. 44; 91, 1959. 



35. Draper, M. H. and S. Weidmann. Cardiac resting and 58. 

 action potentials recorded with an intracellular electrode. 



J. Physiol. 115: 74, 1 95 1. 



Dudel, J. AND W. Trautwein. Die Wirkung von 



Adrenalin auf das Ruhepotential von Myokardfasern des 



Vorhofs. Experientia 1 2 : 396, 1 955. 



DuDEL, J. AND W. Trautwein. Der mechanismus der 



automatischen rhythmischen Impulsbildung der Herz- 



muskelfaser. PJiiigers Arch. ges. Physiol. 267 ; 553, 1958. 



Eccles, J. C. The Physiology of Nerve Cells. Baltimore: 



Johns Hopkins Press, 1957. 



Finean, J. B. X-ray diffraction studies of the myelin 



sheath in peripheral and central nerve fibres. Exper. 



Cell. Res. Suppl. 5: 18, 1958. 



FitzHugh, R. Thresholds and plateaus in the Hodgkin- 



Huxley nerve equations. J. Gen. Physiol. 43: 867, i960. 



Florev, E. (Ed.) Nervous Inhibition. New York : Pergamon 



Press, 1 96 1 . 



Frank, K. Identification and aneilysis of single unit 



activity in the central nervous system. In: Handbook oj 



Physiology. Washington: American Physiological Society, 



1959, sect. I vol. I, p. 261. 



Frankenhaeuser, B. Steady state inactivation of sodium 



permeability in myelinated nerve fibres of Xenopus laevis. 



J. Physiol. 148:671, 1959. 



Frankenhaeuser, B. and A. L. Hodgkin. The after-eflfects 



of impulses in the gismt nerve fibres of Loligo. J. Physiol. 



131: 34'. 1956- 



Frankenhaeuser, B. and A. L. Hodgkin. The action of 



calcium on the electriczd properties of squid axons. 



J. Physiol. 137: 218, 1957. 



Frazier, H. S. and R. D. Keynes. The effect of metabolic 



inhibitors on the sodium fluxes in sodium-loaded frog 



sartorius muscle. J. Physiol. 148: 362, 1959. 



Freygang, W. H. and R. H. Adrian. Rectification in 



muscle membrane. Fed. Proc. 19: 135, i960. 



Gargouil, Y. M., R. Tricoche, D. Fromenty, and E. 



CoRABOEUF. Effets de I'adrenaline sur I'activite electrique 



du coeur de mammiferes. Compt. Rend. Acad. Sc, Paris, 



246: 334. 1958. 



Goldman, D. E. Potential, impedance and rectification 



in membranes. J. Gen. Physiol. 27; 37, 1943. 



Gr.aham, Judith and R. W. Gerard. Membrane 



potentials and excitation of impaled single muscle fibers. 



J. Cell. & Comp. Physiol. 28: 99, 1946. 



Hajdu, S. Mechanism of staircase and contracture in 



ventricular muscle. Am. J. Physiol. 174: 371, 1953. 



Hodgkin, A. L. The ionic basis of electrical activity in 



nerve and muscle. Biol. Rev. 26: 339, 1951. 



Hodgkin, A. L. The Croonian Lecture. Ionic movements 



and electrical activity in giant nerve fibres. Proc. Roy. Soc, 



London, Ser. B 148: i, 1958. 



Hodgkin, A. L. and P. Horowicz. Movements of Na 



and K in single muscle fibres. J. Physiol. 145: 405, 1959. 



Hodgkin, A. L. and P. Horowicz. The influence of 



potassium and chloride ions on the membrane potential 



of single muscle fibres. J. Physiol. 148: 127, 1959. 



Hodgkin, A. L. and A. F. Hu.xlev. Resting and action 



potentials in single nerve fibres. J. Physiol. 104: 176, 1945. 



Hodgkin, A. L. and A. F. Huxley. Currents carried by 



sodium and potassium ions through the membrane of 



the giant axon o{ Loligo. J. Physiol. 116: 449, 1952. 



Hodgkin, A. L. and A. F. Huxley. The components of 



membrane conductance in the giant a.xon of Loligo. J. 



Physiol. 116:473, '952- 



