COMMENT
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
//
// NOTICE OF COPYRIGHT AND OWNERSHIP OF SOFTWARE
//
// Copyright 2007, The University Of Pennsylvania
// School of Engineering & Applied Science.
// All rights reserved.
// For research use only; commercial use prohibited.
// Distribution without permission of Maciej T. Lazarewicz not permitted.
// mlazarew@seas.upenn.edu
//
//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
ENDCOMMENT
NEURON {
SUFFIX nafpr
USEION na WRITE ina
RANGE gna, ina
}
UNITS {
(mA) = (milliamp)
(mV) = (millivolt)
(mS) = (millisiemens)
}
PARAMETER {
gna = 30 (mS/cm2)
ena = 55 (mV)
}
ASSIGNED {
v (mV)
ina (mA/cm2)
minf (1)
hinf (1)
tauh (ms)
}
STATE { h }
INITIAL {
rates(v)
h = hinf
}
BREAKPOINT {
SOLVE states METHOD cnexp
ina = (1e-3) * gna * minf^2 * h * (v-ena)
}
DERIVATIVE states {
rates(v)
h' = (hinf-h)/tauh
}
:ina
PROCEDURE rates(v(mV)) { LOCAL a, b
a = fun3(v, -46.9, -0.32, -4)
b = fun3(v, -19.9, 0.28, 5)
minf = a/(a+b)
a = fun1(v, -43, 0.128, -18)
b = fun2(v, -20, 4, -5)
hinf = a/(a+b)
tauh = 1.0/(a+b)
}
INCLUDE "aux_fun.inc"