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| In [[neurophysiology]], several mathematical models of the [[action potential]] have been developed, which fall into two basic types. The first type seeks to model the experimental data quantitatively, i.e., to reproduce the measurements of current and voltage exactly. The renowned [[Hodgkin-Huxley model]] of the axon from the ''[[Loligo]]'' squid exemplifies such models.<ref name="hodgkin_1952" >{{cite journal | author = [[Alan Lloyd Hodgkin|Hodgkin AL]], [[Andrew Huxley|Huxley AF]], [[Bernard Katz|Katz B]] |title = Currents carried by sodium and potassium ions through the membrane of the giant axon of Loligo | journal = Journal of Physiology | year = 1952 | volume = 116 | pages = 424–448 | pmid = 14946713 | issue = 4 | pmc = 1392213}}<br />{{cite journal | author = [[Alan Lloyd Hodgkin|Hodgkin AL]], [[Andrew Huxley|Huxley AF]] |title = Currents carried by sodium and potassium ions through the membrane of the giant axon of Loligo|journal=Journal of Physiology | year = 1952 | volume = 116 | pages = 449–472 | pmid = 14946713 | issue = 4 | pmc = 1392213}}<br />{{cite journal | author = [[Alan Lloyd Hodgkin|Hodgkin AL]], [[Andrew Huxley|Huxley AF]] | title = The components of membrane conductance in the giant axon of Loligo | journal = J Physiol | year = 1952 | volume = 116 | pages= 473–496 | pmid = 14946714 | issue = 4 | pmc = 1392209}}<br />{{cite journal | author=[[Alan Lloyd Hodgkin|Hodgkin AL]], [[Andrew Huxley|Huxley AF]] | title = The dual effect of membrane potential on sodium conductance in the giant axon of Loligo | journal = J Physiol | year = 1952 | volume = 116 | pages = 497–506 | pmid = 14946715 | issue=4 | pmc=1392212}}<br />{{cite journal | author = [[Alan Lloyd Hodgkin|Hodgkin AL]], [[Andrew Huxley|Huxley AF]] | title = A quantitative description of membrane current and its application to conduction and excitation in nerve | journal = J Physiol | year = 1952 | volume = 117 | pages = 500–544 | pmid = 12991237 | issue = 4 | pmc = 1392413}}</ref> Although qualitatively correct, the H-H model does not describe every type of excitable membrane accurately, since it considers only two ions (sodium and potassium), each with only one type of voltage-sensitive channel. However, other ions such as [[calcium]] may be important and there is a great diversity of channels for all ions.<ref name="yamada_1989" >{{cite book | author = Yamada WM, [[Christof Koch|Koch C]], Adams PR | year = 1989 | chapter = Multiple Channels and Calcium Dynamics | title = Methods in Neuronal Modeling: From Synapses to Networks | editor = [[Christof Koch|C. Koch]], I Segev | publisher = Bradford Book, The MIT Press | location = Cambridge, MA | isbn = 0-262-11133-0 | pages = 97–133}}</ref> As an example, the [[cardiac action potential]] illustrates how differently shaped action potentials can be generated on membranes with voltage-sensitive calcium channels and different types of sodium/potassium channels. The second type of mathematical model is a simplification of the first type; the goal is not to reproduce the experimental data, but to understand qualitatively the role of action potentials in neural circuits. For such a purpose, detailed physiological models may be unnecessarily complicated and may obscure the "forest for the trees". The [[Fitzhugh-Nagumo model]] is typical of this class, which is often studied for its [[entrainment (physics)|entrainment behavior]].<ref name="hoppensteadt_1986" >{{cite book | author = Hoppensteadt FC | year = 1986 | title = An introduction to the mathematics of neurons | publisher = Cambridge University Press | location = Cambridge | isbn = 0-521-31574-3}}</ref> Entrainment is [[entrainment (biomusicology)|commonly observed]] in nature, for example in the synchronized lighting of [[firefly|fireflies]], which is coordinated by a burst of action potentials;<ref name=Hanson1971>{{cite journal
| | If you have in no way regardеd as nutrients well bеfore, it may be terrifying. You can experience information ovеrload оn account of all of that has gone oսt there about what your body needs and would like. The content beneath offers the basic nutritious details that you have to seem sensible of it all.<br><br> |
| | author = Hanson, F.E.
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| | coauthors = Case, J.F.; Buck, E.; Buck, J.
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| | year = 1971
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| | title = Synchrony and Flash Entrainment in a New Guinea Firefly
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| | journal = Science
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| | volume = 174
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| | issue = 4005
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| | pages = 161–164
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| | url = http://www.sciencemag.org/cgi/content/abstract/174/4005/161
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| | accessdate = 2008-05-05
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| | doi = 10.1126/science.174.4005.161
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| | pmid = 17742039
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| |bibcode = 1971Sci...174..161H }}</ref> entrainment can also be observed in individual neurons.<ref name="guttman_1980">{{cite journal | author = Guttman R, Feldman L, Jacobsson E | year = 1980 | title = Frequency entrainment of squid axon | journal = J. Membr. Biol. | volume = 56 | pages = 9–18 | pmid=7441721 | issue=1 | doi = 10.1007/BF01869347}}</ref> Both types of models may be used to understand the behavior of small [[biological neural network]]s, such as the [[central pattern generator]]s responsible for some automatic reflex actions.<ref name="getting_1989">{{cite book | author = Getting PA | year = 1989 | chapter = Reconstruction of Small Neural Networks | title = Methods in Neuronal Modeling: From Synapses to Networks | editor = [[Christof Koch|C Koch]] and I Segev | publisher = Bradford Book, The MIT Press | location = Cambridge, MA | isbn = 0-262-11133-0 | pages = 171–194}}</ref> Such networks can generate a complex temporal pattern of action potentials that is used to coordinate muscular contractions, such as those involved in breathing or fast swimming to escape a predator.<ref name="hooper_1999">Hooper, Scott L. "Central Pattern Generators." ''Embryonic ELS'' (1999) http://www.els.net/elsonline/figpage/I0000206.html (2 of 2) [2/6/2001 11:42:28 AM] Online: Accessed 27 November 2007 [http://crab-lab.zool.ohiou.edu/hooper/cpg.pdf].</ref>
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| ==Hodgkin-Huxley model==
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| {{main|Hodgkin-Huxley model}}
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| [[File:MembraneCircuit.svg|thumb|right|448px|Equivalent electrical circuit for the Hodgkin-Huxley model of the action potential. ''I''<sub>''m''</sub> and ''V''<sub>''m''</sub> represent the current through, and the voltage across, a small patch of membrane, respectively. The ''C''<sub>''m''</sub> represents the capacitance of the membrane patch, whereas the four ''g'''s represent the [[electrical conductance|conductances]] of four types of ions. The two conductances on the left, for potassium (K) and sodium (Na), are shown with arrows to indicate that they can vary with the applied voltage, corresponding to the [[voltage-gated ion channel|voltage-sensitive ion channels]].]]
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| In 1952 [[Alan Lloyd Hodgkin]] and [[Andrew Huxley]] developed a set of equations to fit their experimental voltage-clamp data on the axonal membrane.<ref name="hodgkin_1952" /><ref>{{cite book | author = Nelson ME, Rinzel J| year= 1994|chapter= The Hodgkin-Huxley Model|title=The Book of GENESIS: Exploring Realistic Neural Models with the GEneral NEural SImulation System| editor= Bower J, Beeman D | publisher = Springer Verlag | location = New York|pages= 29–49 | chapterurl=http://www.genesis-sim.org/GENESIS/iBoG/iBoGpdf/chapt4.pdf}}</ref> The model assumes that the membrane capacitance ''C'' is constant; thus, the transmembrane voltage ''V'' changes with the total transmembrane current ''I''<sub>tot</sub> according to the equation
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| :<math>
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| C \frac{dV}{dt} = I_{\mathrm{tot}} = I_{\mathrm{ext}} + I_{\mathrm{Na}} + I_{\mathrm{K}} + I_{\mathrm{L}}
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| </math>
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| where ''I''<sub>Na</sub>, ''I''<sub>K</sub>, and ''I''<sub>L</sub> are currents conveyed through the local sodium channels, potassium channels, and "leakage" channels (a catch-all), respectively. The initial term ''I''<sub>ext</sub> represents the current arriving from external sources, such as [[excitatory postsynaptic potential]]s from the dendrites or a scientist's electrode.
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| The model further assumes that a given ion channel is either fully open or closed; if closed, its [[Electrical conductance|conductance]] is zero, whereas if open, its conductance is some constant value ''g''. Hence, the net current through an ion channel depends on two variables: the probability ''p''<sub>open</sub> of the channel being open, and the difference in voltage from that ion's equilibrium voltage, ''V'' − ''V''<sub>eq</sub>. For example, the current through the potassium channel may be written as
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| :<math>
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| I_{\mathrm{K}} = g_{\mathrm{K}} \left( V - E_{\mathrm{K}} \right) p_{\mathrm{open, K}}
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| </math> | |
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| which is equivalent to [[Ohm's law]]. By definition, no net current flows (''I''<sub>K</sub> = 0) when the transmembrane voltage equals the equilibrium voltage of that ion (when ''V'' = ''E''<sub>K</sub>). | |
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| To fit their data accurately, Hodgkin and Huxley assumed that each type of ion channel had multiple "gates", so that the channel was open only if all the gates were open and closed otherwise. They also assumed that the probability of a gate being open was independent of the other gates being open; this assumption was later validated for the inactivation gate.<ref name="armstrong_1973">{{cite journal | author = Armstrong CM, Bezanilla F, Rojas E | year = 1973 | title = Destruction of Sodium Conductance Inactivation in Squid Axons Perfused with Pronase |pmid=4755846 | journal = J. Gen. Physiol. | volume = 48 | pages = 375–391 | issue = 4 | pmc = 2226121 | doi=10.1085/jgp.62.4.375}}<br />{{cite journal | author = Rojas E, Rudy B | year = 1976 | title = Destruction of the sodium conductance inactivation by a specific protease in perfused nerve fibres from ''Loligo'' | journal = J. Physiol. | volume = 262 | pages = 501–531}}</ref> Hodgkin and Huxley modeled the voltage-sensitive potassium channel as having four gates; letting ''p''<sub>''n''</sub> denote the probability of a single such gate being open, the probability of the whole channel being open is the product of four such probabilities, i.e., ''p''<sub>open, K</sub> = ''n''<sup>4</sup>. Similarly, the probability of the voltage-sensitive sodium channel was modeled to have three similar gates of probability ''m'' and a fourth gate, associated with inactivation, of probability ''h''; thus, ''p''<sub>open, Na</sub> = ''m''<sup>3</sup>''h''. The probabilities for each gate are assumed to obey [[rate equation|first-order kinetics]]
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| :<math>
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| \frac{dm}{dt} = - \frac{m - m_{\mathrm{eq}}}{\tau_{m}}
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| </math>
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| where both the equilibrium value ''m''<sub>eq</sub> and the relaxation time constant τ<sub>''m''</sub> depend on the instantaneous voltage ''V'' across the membrane. If ''V'' changes on a time-scale more slowly than τ<sub>''m''</sub>, the ''m'' probability will always roughly equal its equilibrium value ''m''<sub>eq</sub>; however, if ''V'' changes more quickly, then ''m'' will lag behind ''m''<sub>eq</sub>. By fitting their voltage-clamp data, Hodgkin and Huxley were able to model how these equilibrium values and time constants varied with temperature and transmembrane voltage.<ref name="hodgkin_1952" /> The formulae are complex and depend exponentially on the voltage and temperature. For example, the time constant for sodium-channel activation probability ''h'' varies as 3<sup>(θ−6.3)/10</sup> with the Celsius temperature θ, and with voltage ''V'' as
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| :<math>
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| \frac{1}{\tau_{h}} = 0.07 e^{-V/20} + \frac{1}{1 + e^{3 - V/10}}.
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| </math> | |
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| In summary, the Hodgkin-Huxley equations are complex, non-linear [[ordinary differential equation]]s in four [[independent variable]]s: the transmembrane voltage ''V'', and the probabilities ''m'', ''h'' and ''n''.<ref name="sato_2005" >{{cite book | author = Sato S, Fukai H, Nomura T, Doi S | year = 2005 | chapter = Bifurcation Analysis of the Hodgkin-Huxley Equations | title = Modeling in the Neurosciences: From Biological Systems to Neuromimetic Robotics | edition = 2nd | editor = Reeke GN, Poznanski RR, Lindsay KA, Rosenberg JR, Sporns O| publisher = CRC Press | location = Boca Raton | isbn = 978-0-415-32868-5 | pages = 459–478}}</ref> No general solution of these equations has been discovered. A less ambitious but generally applicable method for studying such non-linear dynamical systems is to consider their behavior in the vicinity of a [[fixed point (mathematics)|fixed point]].<ref name="guckenheimer_1983">{{cite book | author = [[John Guckenheimer|Guckenheimer J]], [[Philip Holmes|Holmes P]] | year = 1986 | title = Nonlinear Oscillations, Dynamical Systems and Bifurcations of Vector Fields | edition = 2nd printing, revised and corrected | publisher = Springer Verlag | location = New York | isbn = 0-387-90819-6| pages = 12–16}}</ref> This analysis shows that the Hodgkin-Huxley system undergoes a transition from stable quiescence to [[bursting]] oscillations as the stimulating current ''I''<sub>ext</sub> is gradually increased; remarkably, the axon becomes stably quiescent again as the stimulating current is increased further still.<ref>{{cite journal | author = Sabah NH, Spangler RA | year = 1970 | title = Repetitive response of the Hodgkin-Huxley model for the squid giant axon | journal = Journal of Theoretical Biology | volume = 29 | pages = 155–171 | doi = 10.1016/0022-5193(70)90017-2 | pmid=5500466 | issue = 2}}<br />{{cite journal | author = Evans JW | year = 1972 | title = Nerve axon equations. I. Linear approximations | journal = Indiana U. Math. Journal | volume = 21 | pages = 877–885 | doi = 10.1512/iumj.1972.21.21071 | issue = 9}}<br />{{cite journal | author = Evans JW, Feroe J | year = 1977 | title = Local stability theory of the nerve impulse | journal = Math. Biosci. | volume = 37 | pages = 23–50 | doi = 10.1016/0025-5564(77)90076-1}}</ref> A more general study of the types of qualitative behavior of axons predicted by the Hodgkin-Huxley equations has also been carried out.<ref name="sato_2005" />
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| ==Fitzhugh-Nagumo model==
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| {{main|Fitzhugh-Nagumo model}}
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| [[File:Negative differential resistance.svg|thumb|right|350px|Figure FHN: To mimick the action potential, the Fitzhugh-Nagumo model and its relatives use a function ''g''(''V'') with [[negative differential resistance]] (a negative slope on the ''I'' vs. ''V'' plot). For comparison, a normal resistor would have a positive slope, by [[Ohm's law]] ''I = GV'', where the [[electrical conductance|conductance]] ''G'' is the inverse of [[electrical resistance|resistance]] ''G''=1/''R''.]]
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| Because of the complexity of the Hodgkin-Huxley equations, various simplifications have been developed that exhibit qualitatively similar behavior.<ref name="hoppensteadt_1986" /><ref>{{cite journal | author = FitzHugh R | year = 1960 | title = Thresholds and Plateaus in the Hodgkin-Huxley Nerve Equations | journal = J. Gen. Physiol. | volume = 43 | pages = 867–896 | doi = 10.1085/jgp.43.5.867 | pmc = 2195039 | pmid=13823315 | issue = 5}}<br />{{cite journal | author = Kepler TB, Abbott LF | year = 1992 | title = Reduction of conductance-based neuron models | journal = Biological Cybernetics | volume = 66 | issue = 5 | pages = 381–387 | doi = 10.1007/BF00197717 | pmid=1562643 | unused_data = Marder E}}</ref> The [[Fitzhugh-Nagumo model]] is a typical example of such a simplified system.<ref name="fitzhugh" >{{cite journal | author = FitzHugh R | year = 1961 | title = Impulses and Physiological States in Theoretical Models of Nerve Membrane | journal = Biophysical Journal | volume = 1 | issue = 6 | pages = 445–466 | doi = 10.1016/S0006-3495(61)86902-6 | pmc = 1366333 | pmid=19431309 | bibcode=1961BpJ.....1..445F}}</ref><ref name="nagumo_1962">{{cite journal | author = Nagumo J, Arimoto S, Yoshizawa S | year = 1962 | title = An active pulse transmission line simulating nerve axon | journal = Proceedings of the IRE | volume = 50 | pages = 2061–2070 | doi = 10.1109/JRPROC.1962.288235 | issue = 10}}</ref> Based on the [[tunnel diode]], the FHN model has only two independent variables, but exhibits a similar stability behavior to the full Hodgkin-Huxley equations.<ref name="fitzhugh_1962" >{{cite book | author = FitzHugh R | year = 1969 | chapter = Mathematical models of axcitation and propagation in nerve | title = Biological Engineering | editor = HP Schwann | publisher = McGraw-Hill | location = New York | pages = 1–85}}</ref> The equations are
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| :<math>
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| C \frac{dV}{dt} = I - g(V),
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| </math>
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| :<math>
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| L\frac{dI}{dt} = E - V - RI
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| </math>
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| where ''g(V)'' is a function of the voltage ''V'' that has a region of negative slope in the middle, flanked by one maximum and one minimum (Figure FHN). A much-studied simple case of the Fitzhugh-Nagumo model is the Bonhoeffer-van der Pol nerve model, which is described by the equations<ref name="bonhoeffer_vanderPol">{{cite journal | author = Bonhoeffer KF | year = 1948 | title = ACTIVATION OF PASSIVE IRON AS A MODEL FOR THE EXCITATION OF NERVE | journal = J. Gen. Physiol. | volume = 32 | issue = 1 | pages = 69–91 | doi = 10.1085/jgp.32.1.69 | pmc = 2213747 | pmid=18885679}}<br />{{cite journal | author = Bonhoeffer KF | year = 1953 | title = Modelle der Nervenerregung | journal = Naturwissenschaften | volume = 40 | pages = 301–311 | doi = 10.1007/BF00632438 | bibcode=1953NW.....40..301B | issue = 11}}<br />{{cite journal | author = [[Balthasar van der Pol|van der Pol B]] | year = 1926 | title = On relaxation-oscillations | journal = Philosophical Magazine | volume = 2 | pages = 978–992}}<br />{{cite journal | author = [[Balthasar van der Pol|van der Pol B]], van der Mark J | year = 1928 | title = The heartbeat considered as a relaxation oscillation, and an electrical model of the heart | journal = Philosophical Magazine | volume = 6 | pages = 763–775}}<br />{{cite journal | author = [[Balthasar van der Pol|van der Pol B]], van der Mark J | year = 1929 | title = The heartbeat considered as a relaxation oscillation, and an electrical model of the heart | journal = Arch. Neerl. Physiol. | volume = 14 | pages = 418–443}}</ref>
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| :<math>
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| C \frac{dV}{dt} = I - \epsilon \left(\frac{V^{3}}{3} - V \right),
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| </math>
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| :<math>
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| L\frac{dI}{dt} = - V
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| </math>
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| where the coefficient ε is assumed to be small. These equations can be combined into a second-order differential equation
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| :<math>
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| C \frac{d^{2}V}{dt^{2}} + \epsilon \left( V^{2} - 1 \right) \frac{dV}{dt} + \frac{V}{L} = 0.
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| </math> | |
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| This [[van der Pol oscillator|van der Pol]] equation has stimulated much research in the mathematics of nonlinear [[dynamical system]]s. [[operational amplifier|Op-amp]] circuits that realize the FHN and van der Pol models of the action potential have been developed by Keener.<ref name="keener_1983">{{cite journal | author = Keener JP | year = 1983 | title = Analogue circuitry for the van der Pol and FitzHugh-Nagumo equations | journal = IEEE Trans. on Systems, Man and Cybernetics | volume = 13 | pages = 1010–1014 | doi=10.1109/TSMC.1983.6313098}}</ref>
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| A hybrid of the Hodgkin-Huxley and FitzHugh-Nagumo models was developed by Morris and Lecar in 1981, and applied to the [[muscle]] fiber of [[barnacle]]s.<ref name="morris_1981">{{cite journal | author = Morris C, Lecar H | year = 1981 | title = Voltage oscillations in the barnacle giant muscle fiber | journal = Biophysical Journal | volume = 35 | issue = 1 | pages = 193–213 | doi = 10.1016/S0006-3495(81)84782-0 | pmc = 1327511 | pmid=7260316 | bibcode=1981BpJ....35..193M}}</ref> True to the barnacle's physiology, the Morris-Lecar model replaces the voltage-gated sodium current of the Hodgkin-Huxley model with a voltage-dependent calcium current. There is no inactivation (no ''h'' variable) and the calcium current equilibrates instantaneously, so that again, there are only two time-dependent variables: the transmembrane voltage ''V'' and the potassium gate probability ''n''. The bursting, entrainment and other mathematical properties of this model have been studied in detail.<ref name="rinzel_1989" >{{cite book | author = Rinzel J, Ermentrout GB | year = 1989 | chapter = Analysis of Neural Excitability and Oscillations | title = Methods in Neuronal Modeling: From Synapses to Networks | editor = [[Christof Koch|C. Koch]], I Segev | publisher = Bradford Book, The MIT Press | location = Cambridge, MA | isbn = 0-262-11133-0 | pages = 135–169}}</ref>
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| The simplest models of the action potential are the "flush and fill" models (also called "integrate-and-fire" models), in which the input signal is summed (the "fill" phase) until it reaches a threshold, firing a pulse and resetting the summation to zero (the "flush" phase).<ref name="hoppensteadt_1986" /><ref name="keener_1981">{{cite journal | author = Keener JP, Hoppensteadt FC, Rinzel J | year = 1981 | title = Integrate-and-fire models of nerve membrane response to oscillatory input | journal = SIAM Journal on Applied Mathematics | volume = 41 | pages = 503–517 | doi = 10.1137/0141042 | issue = 3}}</ref> All of these models are capable of exhibiting [[entrainment (physics)|entrainment]], which is [[entrainment (biomusicology)|commonly observed]] in nervous systems.<ref name="hoppensteadt_1986" />
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| ==Extracellular potentials and currents==
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| Whereas the above models simulate the transmembrane voltage and current at a single patch of membrane, other mathematical models pertain to the voltages and currents in the ionic solution surrounding the neuron.<ref name="stevens_1966" >{{cite book | author = Stevens CF | year = 1966 | title = Neurophysiology: A Primer | publisher = John Wiley and Sons | location = New York | pages = 161–173 | lccn = 6615872}}</ref> Such models are helpful in interpreting data from extracellular electrodes, which were common prior to the invention of the glass pipette electrode that allowed intracellular recording.<ref name="ling_1949" >{{cite journal | author = Ling G, Gerard RW | year = 1949 | title = The normal membrane potential of frog sartorius fibers | journal = J. Cell. Comp. Physiol. | volume = 34 | issue = 3 | pages = 383–396 | doi = 10.1002/jcp.1030340304 | pmid=15410483}}</ref> The extracellular medium may be modeled as a normal isotropic [[electrolyte|ionic solution]]; in such solutions, the current follows the [[electric field|electric]] [[field line]]s, according to the continuum form of [[Ohm's Law]]
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| :<math>
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| \mathbf{j} = \sigma \mathbf{E}
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| </math>
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| where '''j''' and '''E''' are vectors representing the [[current density]] and [[electric field]], respectively, and where σ is the [[electrical conductivity|conductivity]]. Thus, '''j''' can be found from '''E''', which in turn may be found using [[Maxwell's equations]]. Maxwell's equations can be reduced to a relatively simple problem of [[electrostatics]], since the ionic concentrations change too slowly (compared to the [[speed of light]]) for [[magnetic field|magnetic effects]] to be important. The [[electric potential]] φ('''x''') at any extracellular point '''x''' can be solved using [[Green's identities]]<ref name="stevens_1966" />
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| :<math>
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| \phi(\mathbf{x}) = \frac{1}{4\pi\sigma_{\mathrm{outside}}} \oint_{\mathrm{membrane}}
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| \frac{\partial}{\partial n} \frac{1}{\left| \mathbf{x} - \boldsymbol\xi \right|}
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| \left[ \sigma_{\mathrm{outside}} \phi_{\mathrm{outside}}(\boldsymbol\xi) - \sigma_{\mathrm{inside}}\phi_{\mathrm{inside}}(\boldsymbol\xi) \right] dS
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| </math>
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| where the integration is over the complete surface of the membrane; <math>\boldsymbol\xi</math> is a position on the membrane, σ<sub>inside</sub> and φ<sub>inside</sub> are the conductivity and potential just within the membrane, and σ<sub>outside</sub> and φ<sub>outside</sub> the corresponding values just outside the membrane. Thus, given these σ and φ values on the membrane, the extracellular potential φ('''x''') can be calculated for any position '''x'''; in turn, the electric field '''E''' and current density '''j''' can be calculated from this potential field.<ref>{{cite journal | author = Lorente de No R | year = 1947 | title = A Study of Nerve Physiology | journal = Stud. Rockefeller Inst. Med. Research | volume = 132 | pages = Chap. 16}}<br />{{cite journal | author = Mauro A | year = 1960 | title = Properties of thin generators pertaining to electrophysiological potentials in volume conductors | journal = J. Neurophysiol. | volume = 23 | pages = 132–143}}<br />{{cite book | author = Woodbury JW | year = 1965 | chapter = Chapter 3: Potentials in a volume conductor | title = Physiology and Biophysics | editor = TC Ruch, HD Patton | publisher = W. B. Saunders Co. | location = Philadelphia | pages = }}</ref>
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| ==See also==
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| * [[Biological neuron models]]
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| * [[GHK current equation]]
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| *[[Saltatory conduction]]
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| * [[Bioelectronics]]
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| * [[Cable theory]]
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| ==References==
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| {{reflist|1}}
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| ==Further reading==
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| * {{cite book | author = Glass L, Mackey MC | year = 1988 | title = From Clocks to Chaos: The Rhythms of Life | publisher = Princeton University | location = Princeton, NJ | isbn = 0-691-08496-3}}
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| [[Category:Mathematical modeling]]
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