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The electrical properties of frog heart

By Christopher Henry Fry
Publisher: University of Leicester
Year: 1976
OAI identifier: oai:lra.le.ac.uk:2381/8610

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  3. (1969). A lesion of the transverse tubules of skeletal muscle.
  4. (1966). A mathematical evaluation of the core conductor model.
  5. (1924). A mathematical treatment of the electric conductivity and capacity of disperse systems. I. The electric conductivity of a suspension of homogeneous spheroids.
  6. (1925). A mathematical treatment of the electric conductivity and capacity of disperse systems. II. The capacity of a suspension of conducting spheroids surrounded by a non-conducting membrane for a current of low frequency.
  7. (1949). A monolayer study of the isomerism of unsaturated and oxy fatty acids.
  8. (1973). A morphometric study of the nexus of rat cardiac muscle.
  9. (1954). A new method for measuring membrane potentials with external electrodes.
  10. (1954). A note on conduction velocity.
  11. (1952). A quantitative description of membrane current and its application to conduction and excitation in nerve.
  12. (1974). A study of the contractures induced in frog atrial trabeculae by a reduction of the bathing sodium concentration.
  13. (1970). A study of the membrane constants in the dog myocardium.
  14. (1964). A study of the structure and distribution of the nexus.
  15. (1969). A study on the healing-over of myocardial cells of toads. Circulation Res.
  16. (1970). A. study of lipid bilayer membrane stability using precise measurements of membrane specific capacitance.
  17. (1948). An account of the spike potential of axons.
  18. (1973). An analysis of light-induced admittance changes in rod outer segments.
  19. (1951). An analysis of the end-plate potential recorded with an intra-cellular electrode.
  20. (1964). An analysis of the transverse electrical impedance of striated muscle.
  21. (1973). An approximation diffusion equation for a long narrow channel with varying cross-sectional area.
  22. (1974). An assesment of the double sucrosegap voltage clamp technique as applied to frog atrial muscle.
  23. (1971). Analyse, selon le modble de Hodgkin et Huxley, des conductances de la membrane myocardique de grenouille (Rana esculenta). These de Doctorat bs Sciences,
  24. (1963). Bessel functions for engineers, 2nd edn.
  25. (1971). Biophysical properties of the longitudinal smooth muscle of the guinea-pig
  26. (1968). Cable properties of smooth muscle.
  27. (1972). Cable theory for finite length dendritic cylinders with initial and boundary conditions.
  28. (1973). Capacitance, area and thickness variations in thin lipid films.
  29. (1957). Capacity of muscle fiber membrane.
  30. (1968). Cardiac muscle: a comparative study of Purkinje fibres and ventricular fibers.
  31. (1969). Cardiac muscle: a comparative ultrastructural study with special reference to frog and chicken hearts.
  32. (1951). Cardiac resting and action potentials recorded with an intracellular electrode.
  33. (1974). Cell-to-cell diffusion of Procion Yellow in sheep and calf Purkinje fibres.
  34. (1971). Cellular surfaces of amphibian atrial muscle.
  35. (1956). Changes in membrane characteristics of heart muscle during inhibition.
  36. (1927). Changes of electrical conductivity in the beating tortoise ventricle.
  37. (1959). Chemical characterisation of proteins, carbohydrates and lipids. Rev. modern Phys. 31,30-49"
  38. (1961). Chloride ions and the membrane potential of Purkinje,
  39. (1962). Cholinesterase activity of intercalated disks (Eberth's lines) in mammalian heart muscle.
  40. (1971). Comparison of glycerol treatment in frog skeletal muscle and mammalian heart: An electrophysiological and morphological study.
  41. (1952). Currents carried by sodium and potassium ions through the membrane of the giant axon of Loligo.
  42. (1973). Currents related to movement of the gating particles of the sodium channels.
  43. (1941). Der physikalische Elektrotonus des Herzmuskels. Pflügers Arch.
  44. (1963). Determination of biological impedances.
  45. (1966). Differences in Na and Ca spikes as examined by application of tetrodotoxin, procaine and manganese ions.
  46. (1959). Directional difference of conduction velocity in the cardiac ventricular syncitium studied by microelectrodes. Circulation Res.
  47. (1974). Discussion on voltage-clamp techniques at Pont-ä Mousson, France.
  48. (1974). Discussion on voltage-clamp techniques at Pont-h41ousson, France.
  49. (1969). Distributions of potential in cylindrical coordinates and time constants for a membrane cylinder.
  50. (1974). Effects and compensation of the series resistance in voltage-clamp experiments using double sucrose-gap technique.
  51. (1955). Effects of calcium ions and local anaesthetics on electrical properties of Purkinje fibres.
  52. (1975). Effects of lanthanum, calcium and barium on resting membrane resistance of guinea-pig papillary muscle.
  53. (1973). Effects of sucrose solution on the longitudinal tissue resistivity of trabecular muscle from mammalian heart. Pflügers Arch. ges.
  54. (1912). Ein zweites Verfahren, die Leitfähigkeit im Innern von Zellen zu messen. Pflügers Arch. ges.
  55. (1910). Eine Methode, die elektrische Leitfähigkeit im Innern von Zellen zu messen.
  56. (1936). Electric impedance of Arbacia eggs.
  57. (1936). Electric impedance of Asterias eggs.
  58. (1935). Electric impedance of Hipponöe eggs.
  59. (1936). Electric impedance of nerve and muscle. Cold Spring Harbour symposia on quantitative biology, Cold Spring Harbour, Long Island biological association.
  60. (1938). Electric impedance of Nitella during activity.
  61. (1928). Electric impedance of suspensions of Arbacia eggs.
  62. (1939). Electric impedance of the squid giant axon during activity.
  63. (1932). Electric phase angle of cell membranes.
  64. (1970). Electrical activity and metabolism in cardiac tissue: An experimental and theoretical stuay.
  65. (1973). Electrical capacitances of thin lipid films.
  66. (1970). Electrical constants of trabecular muscle from mammalian
  67. (1969). Electrical coupling between myocardial cells.
  68. (1967). Electrical properties of bimolecular phospholipid membranes.
  69. (1973). Electrical properties of isolated atrial fibres disposed in a perfusion chamber for double sucrose gap.
  70. (1973). Electrical properties of toad sartorius muscle fibres in summer and
  71. (1862). Electrophysiological researches - Eleventh series on the secondary electromotor power of nerves and its application to the explanation of certain electro-physiological phenomena.
  72. (1966). Electrotonic interaction between muscle fibres in the rabbit ventricle.
  73. (1972). Electrotonic spread of current in monolayer cultures of neonatal rat heart cells.
  74. (1966). Eleotrophysiological properties of the canine ventricular fiber.
  75. (1973). Enregistrements simultanes du potential et du courant transmembrainaires ii 1laide dune seule micro-Qlectrode intracellulaire.
  76. (1971). Equivalent circuit of frog atrial tissue as determined by voltage clamp-unclamp experiments.
  77. (1959). Evidence for non-syncitial nature of cardiac muscle from impedance measurements,
  78. (1971). Excitation-contraction coupling in frog ventricle: evidence from voltage clamp studies.
  79. (1972). Excitation-contraction coupling of isolated cardiac fibers with disrupted or closed sarcolenmas. Circulation Res.
  80. (1969). Existence and role of a slow inward current during the frog atrial action potential. Pflügers Arch. ges.
  81. (1960). Fatty acids,
  82. (1826). From the proceedings of :
  83. (1972). Glycerol removal treatment of gainea pig cardiac muscle.
  84. (1971). Heart: Excitation and contraction.
  85. (1971). Heaviside's "Sessel cable" as an electric model for flat simple epithelial cells with low resistive junctional membranes.
  86. (1972). Inward membrane currents in mammalian myocardium.
  87. (1971). Is there a T-system in frog cardiac muscle cells?
  88. (1974). Kinetic analysis of the delayed outward currents in frog atrium. Existence of two types of preparation.
  89. (1971). Kinetics of Na inactivation in frog atria. Pflügers Arch.
  90. (1969). Lack of electrical coupling between contiguous myocardial cells in vertebrate hearts. In Experientia supplementum, vol 15, Comparative physiology of the heart: current trends,
  91. (1921). Les lois de la resistance electrique des tissus vivants.
  92. (1964). Linear electrical properties of striated muscle fibres observed with intracellular electrodes.
  93. (1941). Longitudinal impedance of the squid giant axon.
  94. (1911). Mathematical theory of electricity and magnetism.
  95. (1958). Measurement of bioelectric potentials with microelectrodes and neutralized input capacity amplifiers.
  96. (1952). Measurement of current voltage relations in the membrane of the giant axon of Loli o.
  97. (1966). Measurement of the cytoplasmic resistivity by means of the glass microelectrode.
  98. (1972). Mechanical activity and ionic currents In frog atrial trabeculae. Pflügers Arch.
  99. (1939). Membrane and protoplasm resistance in the squid giant axon.
  100. (1970). Membrane calcium current in ventricular myocardial fibres.
  101. (1966). Membrane capacity of the cardiac Purkinje fibre.
  102. (1969). Membrane characteristics of the canine papillary muscle fibre.
  103. (1972). Membrane current and contraction in frog atrial fibres.
  104. (1972). Membrane currents responsible for contraction and relaxation of the bull frog ventricle.
  105. (1969). Membrane currents underlying delayed rectification and pace-maker activity in frog atrial muscle.
  106. (1962). Membrane potentials of the lobster giant axon obtained by use of the sucrose-gap technique.
  107. (1951). Membrane resting and action potentials of single cardiac muscle fibres of the frog ventricle.
  108. (1950). Membrane resting and action potentials of single cardiac muscle fibres.
  109. (1971). Membrane. currents in mammalian ventricular heart muscle fibres using a voltage-clamp technique..
  110. (1968). Membranes, ions and impulses.
  111. (1971). Metabolism of endogenous lipids in cardiac muscle: effect of pressure development.
  112. (1950). Monolayer properties of elaidyl alchohol.
  113. (1963). Movements of Ca in frog heart ventricles at rest and during contractures.
  114. (1952). NATIONAL Bureau of Standards, Department of Commerce
  115. (1957). Nature and significance of concentration relations of potassium and sodium ions in skeletal muscle.
  116. (1955). New measurements of the capacity and the resistance of the myelin sheath and the nodal membrane of the isolated frog nerve fiber.
  117. (1958). Observations on the fine structure of the turtle atrium.
  118. (1925). On bimolecular layers of lipoids on the chromocytes of the blood.
  119. (1966). On the electrotonic spread in cardiac muscle of the mouse.
  120. On the induction of electric currents in an infinite plane sheet of uniform conductivity.
  121. (1961). On the problem of impulse conduction in the atrium. Nervous Inhibition,
  122. (1855). On the theory of the electric telegraph.
  123. (1969). Outward membrane currents activated in the plateau range of potentials in cardiac Purkinje fibres.
  124. (1964). Oxidation of carbon-14-labeled andogenous lipids by isolated perfused rat heart.
  125. (1973). Passive electrical properties of atrial fibers of the rabbit heart. Pflügers Arch.
  126. (1968). Passive membrane potentials: A generalization of the theory of electrotonus.
  127. (1972). Plasticity of biological membranes.
  128. (1949). Potentiel de repos et potentiels d'action du muscle cardiaque measures ä ]. 'aide d' electrodes. internes.
  129. (1965). Propagation of action potentials and the structure of the nexus in cardiac muscle.
  130. (1904). Recherphes sur la structure et le developpement compares des fibres cardiaques dans la serie des ve'rtebres. Annls Sci.
  131. (1962). Reconstruction of cell membrane structure in vitro and its transformation into an excitable system.
  132. (1962). Reconstruction of excitable cell membrane structure in vitro.
  133. (1969). Reconstruction of the repolarization process in cardiac Purkinje fibres based on voltage clamp measurements of membrane current.
  134. (1971). Rectifier properties of canine papillary muscle.
  135. (1961). Resistance values in a syncitium.
  136. (1968). Resting potential and electrical properties of frog slow muscle fibres. Effect of different external solutions.
  137. (1972). Separation of the pace-maker and plateau components of delayed rectification in cardiac Purkinje fibres.
  138. (1970). Simulation of electrical interaction of cardiac cells.
  139. (1973). Slow conduction in cardiac muscle -a biophysical model.
  140. (1964). Some observations on the fine structure and metabolic activity of normal and glycerinated ventricular muscle of the toad.
  141. (1971). Stereological measurements of cardiac ultrastructures implicated in excitationcontraction coupling (sarcotubules and T-system).
  142. (1965). Structure and function in biological membranes.
  143. (1936). Structure of nerve fibres and synapses in some invertebrates. Cold Spring Harbour symposia on quantitative biology, Cold Spring Harbour, Long Island biological association.
  144. (1972). Structures of physiological interest in the frog heart ventricle.
  145. (1974). Studies of impedance in cardiac tissue using sucrose gap and computer techniques. II. Circuit simulation. of passive electrical properties and cell-to-cell transmission.
  146. (1969). Synthetic lipid bilayer membranes.
  147. (1967). T-tubules of skeletal muscle: morphological alterations which interrupt excitation-contraction coupling. Fedn
  148. (1954). Temperature effects on the electrical activity of Purkinje fibres.
  149. (1940). Temps longs et variables de transmission de l'excitation au niveau de la synapse experimentale axono-axonique.
  150. (1952). The components of membrane conductance in the giant axon of Loligo.
  151. (1971). The dependence of cardiac contraction on depolarization and. slow inward current. Pflügers Arch. ges.
  152. (1972). The dependence of plateau currents in cardiac Purkinje fibres on the interval between action potentials.
  153. (1971). The dependence of the contractile force generated by frog auricular trabeculae upon the external calcium concentration.
  154. (1966). The diffusion of radiopotassium across intercalated disks of mammalian cardiac muscle.
  155. (1930). The direct current resistance of Nitella.
  156. (1952). The dual effect of membrane potential on sodium conductance in the giant, axon of Loligo.
  157. (1954). The effect of change in length on conduction velocity in muscle.
  158. (1972). The effect of diameter on the electrical constants of frog skeletal muscle fibres.
  159. (1968). The effect of high K+ solutions and fatty acid substrates on metabolic pathways in toad heart.
  160. (1970). The effect of membrane lipid unsaturation on glycoside transport.
  161. (1968). The effect of the duration of the action potential on contraction in the mammalian heart muscle. Pflügers Arch. ges.
  162. (1923). The electric capacity of cell suspensions.
  163. (1925). The electric capacity of suspensions of red corpuscles of a dog. Physics Rev.
  164. (1926). The electric capacity of suspensions with special reference to blood.
  165. (1926). The electric resistance and capacity of blood for frequencies between 800 and 4i million cycles.
  166. (1946). The electrical constants of a crustacean nerve fibre.
  167. (1952). The electrical constants of Purkinje fibres.
  168. (1948). The electrical properties of the muscle fibre membrane.
  169. (1965). The influence of lipid composition and of some adsorbed proteins on the capacitance of black hydrocarbon membranes.
  170. (1966). The input resistance of the rat atria. Fedn
  171. (1972). The interpretation of current-voltage relations recorded from a spherical cell with a single microelectrode.
  172. (1970). The involvment of phosphatidylserine in adenosine triphosphatase activity of the sodium pump.
  173. (1968). The kinetics and rectifier properties of the slow potassium current in cardiac Purkinje fibres.
  174. (1966). The longitudinal tissue impedance of the smooth muscle of guinea-pig taenia cola.
  175. (1949). The normal membrane potential of frog sartorius fibers.
  176. (1970). The potential in the gap between two abutting cardiac muscle cells: A closed solution.
  177. (1912). The properties of salt solutions in relation to ionic theory.
  178. (1934). The rate of development and spread of electrotonus.
  179. (1970). The relation between membrane potential, membrane currents and activation of contraction in ventricular myocardial fibres.
  180. (1966). The repetitive responses of isolated axons from the crab Carcinus maenas.
  181. (1970). The slow inward current and the action of manganese ions in guinea-pig's myocardium. Pflügers Arch.
  182. (1970). The spatial variation of membrane potential near a small source of current in a spherical cell
  183. (1921). The specific electrical resistance of frog's skeletal muscle.
  184. (1970). The structural implications of the linear electrical properties of cardiac Purkinje strands.
  185. (1972). The structure of cell membranes.
  186. (1972). The temperature dependence of activation by phosphatidylserine of the sodium pump adenosine triphosphatase.
  187. (1971). The thickness, composition and structure of some lipid bilayers and natural membranes.
  188. (1966). The time and voltage dependence of the slow outward current in cardiac Purkinje fibres.
  189. (1960). The ultrastructure of cardiac desmosomes in the toad and their relationship to the intercalated disc.
  190. (1968). The ultrastructure of frog ventricular cardiac muscle and its relationship to mechanisms of excitation-contraction coupling.
  191. (1958). The ultrastructure of the intercalated discs of frog, mouse and guinea pig cardiac muscle.
  192. (1879). Theorie des electrotonus, in Handbuch der Physiologie,
  193. (1970). Three-dimensional electrical field problems in physiology.
  194. (1969). Time constants and electrotonic length of membrane cylinders and neurones.
  195. (1955). Tracer electrophoresis. II. The mobility of the micelle of sodium lauryl sulphate and its interpretation in terms of zeta potential and charge.
  196. (1938). Transverse electric impedance of the squid giant axon.
  197. (1969). Two components of inward current in myocardial muscle fibres. Pflügers Arch. ges.
  198. (1924). Ueber der Theorie der elektrolytischen Doppelschicht.
  199. (1903). Ueber die Fortpflanzungsgeschwindigkeit.. des Elektrotonus. Pflügers Arch. ges.
  200. (1970). Ultrastructure of the myocardium. The Heart, Arteries and Veins,
  201. (1954). Untersuchungen über die Temperaturabh'ringigkeit der elektrischen Erregungsvorgänge am Froschherzen. Pflügers Arch.
  202. (1970). Voltage and time dependence of excitatory sodium current in cooled sheep Purkinje fibres. Pflügers Arch.
  203. (1968). Voltage clamp experiments on frog atrial heart muscle fibres with the sucrose gap technique. Pflügers Arch.
  204. (1970). Voltage clamp experiments on ventricular myocardial fibres.
  205. (1973). Voltage clamp of cardiac muscle in a double sucrose gaps A feasibility study.
  206. (1972). Voltage clamp of cardiac muscle. A theoretical analysis of early currents in the single sucrose gap.
  207. (1964). Voltage clamp technique in mammalian cardiac fibres. Pflügers Arch. ges.
  208. (1975). Voltage-clamp of potential recorded intracellularly with micro-electrodes in smooth muscle.
  209. (1964). Weak electrotonic interaction between contiguous cardiac cells.
  210. (1973). What component of the living cell is responsible for its semipermeable properties? Polarised water or lipids?

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