Citation Relationships



Schwarz JR, Reid G, Bostock H (1995) Action potentials and membrane currents in the human node of Ranvier. Pflugers Arch 430:283-92 [PubMed]

   Peripheral nerve:Morris-Lecar implementation of (Schwarz et al 1995)

References and models cited by this paper

References and models that cite this paper

Awiszus F (1990) Effects of a slow potassium permeability on repetitive activity of the frog node of Ranvier. Biol Cybern 63:155-9 [Journal] [PubMed]

Baker M, Bostock H, Grafe P, Martius P (1987) Function and distribution of three types of rectifying channel in rat spinal root myelinated axons. J Physiol 383:45-67 [PubMed]

Benoit E, Corbier A, Dubois JM (1985) Evidence for two transient sodium currents in the frog node of Ranvier. J Physiol 361:339-60 [Journal] [PubMed]

Bostock H, Baker M (1988) Evidence for two types of potassium channel in human motor axons in vivo. Brain Res 462:354-8 [PubMed]

Bostock H, Baker M, Reid G (1991) Changes in excitability of human motor axons underlying post-ischaemic fasciculations: evidence for two stable states. J Physiol 441:537-57 [PubMed]

Bostock H, Burke D, Hales JP (1994) Differences in behaviour of sensory and motor axons following release of ischaemia. Brain 117 ( Pt 2):225-34 [PubMed]

Bowe CM, Kocsis JD, Waxman SG (1985) Differences between mammalian ventral and dorsal spinal roots in response to blockade of potassium channels during maturation. Proc R Soc Lond B Biol Sci 224:355-66 [Journal] [PubMed]

Brismar T (1977) Slow mechanism for sodium permeability inactivation in myelinated nerve fibre of Xenopus laevis. J Physiol 270:283-97 [Journal] [PubMed]

Brismar T (1980) Potential clamp analysis of membrane currents in rat myelinated nerve fibres. J Physiol 298:171-84 [PubMed]

Brismar T (1983) Electrophysiology and morphology of myelinated nerve fibers. IV. Nodal function of pathological nerve fibers. Experientia 39:946-53 [Journal] [PubMed]

Chiu SY (1977) Inactivation of sodium channels: second order kinetics in myelinated nerve. J Physiol 273:573-96 [PubMed]

Chiu SY, Ritchie JM (1981) Evidence for the presence of potassium channels in the paranodal region of acutely demyelinated mammalian single nerve fibres. J Physiol 313:415-37 [PubMed]

Chiu SY, Ritchie JM, Rogart RB, Stagg D (1979) A quantitative description of membrane currents in rabbit myelinated nerve. J Physiol 292:149-66 [PubMed]

Corrette BJ, Repp H, Dreyer F, Schwarz JR (1991) Two types of fast K+ channels in rat myelinated nerve fibres and their sensitivity to dendrotoxin. Pflugers Arch 418:408-16 [PubMed]

Drouin H, Neumcke B (1974) Specific and unspecific charges at the sodium channels of the nerve membrane. Pflugers Arch 351:207-29 [Journal] [PubMed]

Dubois JM (1981) Evidence for the existence of three types of potassium channels in the frog Ranvier node membrane. J Physiol 318:297-316 [PubMed]

FRANKENHAEUSER B (1960) Quantitative description of sodium currents in myelinated nerve fibres of Xenopus laevis. J Physiol 151:491-501 [Journal] [PubMed]

FRANKENHAEUSER B (1963) A QUANTITATIVE DESCRIPTION OF POTASSIUM CURRENTS IN MYELINATED NERVE FIBRES OF XENOPUS LAEVIS. J Physiol 169:424-30 [Journal] [PubMed]

FRANKENHAEUSER B, HUXLEY AF (1964) THE ACTION POTENTIAL IN THE MYELINATED NERVE FIBER OF XENOPUS LAEVIS AS COMPUTED ON THE BASIS OF VOLTAGE CLAMP DATA. J Physiol 171:302-15 [Journal] [PubMed]

   Xenopus Myelinated Neuron (Frankenhaeuser, Huxley 1964) [Model]

FRANKENHAEUSER B, MOORE LE (1963) THE EFFECT OF TEMPERATURE ON THE SODIUM AND POTASSIUM PERMEABILITY CHANGES IN MYELINATED NERVE FIBRES OF XENOPUS LAEVIS. J Physiol 169:431-7 [PubMed]

HODGKIN AL, HUXLEY AF (1952) A quantitative description of membrane current and its application to conduction and excitation in nerve. J Physiol 117:500-44 [Journal] [PubMed]

   Squid axon (Hodgkin, Huxley 1952) (LabAXON) [Model]
   Squid axon (Hodgkin, Huxley 1952) (NEURON) [Model]
   Squid axon (Hodgkin, Huxley 1952) (SNNAP) [Model]
   Squid axon (Hodgkin, Huxley 1952) used in (Chen et al 2010) (R language) [Model]
   Squid axon (Hodgkin, Huxley 1952) (SBML, XPP, other) [Model]

Horàckova M,Nonner W,Stämpfli R (1968) Action potentials and voltage-clamp currents of single rat Ranvier nodes VIIth Proc Union Int Physiol Sci VII, XXIV Congress, Washington, D.C. USA 1860:594

Neumcke B, Schwarz JR, Stämpfli R (1987) A comparison of sodium currents in rat and frog myelinated nerve: normal and modified sodium inactivation. J Physiol 382:175-91 [Journal] [PubMed]

Neumcke B, Stämpfli R (1982) Sodium currents and sodium-current fluctuations in rat myelinated nerve fibres. J Physiol 329:163-84 [PubMed]

Nonner W (1969) A new voltage clamp method for Ranvier nodes. Pflugers Arch 309:176-92 [Journal] [PubMed]

Patlak J (1991) Molecular kinetics of voltage-dependent Na+ channels. Physiol Rev 71:1047-80 [Journal] [PubMed]

Poulter MO, Hashiguchi T, Padjen AL (1989) Dendrotoxin blocks accommodation in frog myelinated axons. J Neurophysiol 62:174-84 [Journal] [PubMed]

Reid G,Bostock H,Schwarz JR (1993) Quantitative description of action potentials and membrane currents in human node of Ranvier J Physiol (Lond) 467:247P

Röper J, Schwarz JR (1989) Heterogeneous distribution of fast and slow potassium channels in myelinated rat nerve fibres. J Physiol 416:93-110 [PubMed]

Safronov BV, Kampe K, Vogel W (1993) Single voltage-dependent potassium channels in rat peripheral nerve membrane. J Physiol 460:675-91 [PubMed]

Scholz A, Reid G, Vogel W, Bostock H (1993) Ion channels in human axons. J Neurophysiol 70:1274-9 [Journal] [PubMed]

Schwarz JR, Eikhof G (1987) Na currents and action potentials in rat myelinated nerve fibres at 20 and 37 degrees C. Pflugers Arch 409:569-77 [PubMed]

Schwarz JR,Reid G,Bostock H (1993) Action potentials and membrane currents in single human myelinated nerve fibres Pflugers Arch 422 Suppl 1:R18

Stampfli R, Hille B (1976) Electrophysiology of the peripheral myelinated nerve. Frog Neurobiology, Llinas R:Precht W, ed. pp.3

Bhadra N, Lahowetz EA, Foldes ST, Kilgore KL (2007) Simulation of high-frequency sinusoidal electrical block of mammalian myelinated axons. J Comput Neurosci 22:313-26 [Journal] [PubMed]

Brazhe AR, Maksimov GV, Mosekilde E, Sosnovtseva O (2010) Excitation block in a nerve fibre model owing to potassium-dependent changes in myelin resistance Journal of Interface Focus 1(1):86-100 [Journal]

   Myelinated nerve fibre myelin resistance dependent on extracellular K+ level (Brazhe et al. 2010) [Model]

Hales JP, Lin CS, Bostock H (2004) Variations in excitability of single human motor axons, related to stochastic properties of nodal sodium channels. J Physiol 559:953-64 [Journal] [PubMed]

Hennings K, Arendt-Nielsen L, Andersen OK (2005) Breakdown of accommodation in nerve: a possible role for persistent sodium current. Theor Biol Med Model 2:16 [Journal] [PubMed]

   Breakdown of accmmodation in nerve: a possible role for INAp (Hennings et al 2005) [Model]

McIntyre CC, Grill WM (2000) Selective microstimulation of central nervous system neurons. Ann Biomed Eng 28:219-33 [PubMed]

McIntyre CC, Richardson AG, Grill WM (2002) Modeling the excitability of mammalian nerve fibers: influence of afterpotentials on the recovery cycle. J Neurophysiol 87:995-1006 [Journal] [PubMed]

   Spinal Motor Neuron (McIntyre et al 2002) [Model]

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