Model Mathematics

Component: environment

Component: membrane

dd time V =- i_Na + i_Ca + i_to + i_K + i_K1 + i_b_Na + i_b_Ca + i_NaCa + i_NaK + rho_x S -1.0 V_x2 + rho_y S -1.0 V_y2 Cm 2.0 x 2.0 V = V_x2 2.0 y 2.0 V = V_y2

Component: sodium_current

i_Na = g_Na m 3.0 v 2.0 V - E_Na E_Na = R T F ln Na_e Na_i

Component: sodium_current_m_gate

dd time m = alpha_m 1.0 - m - beta_m m alpha_m = 0.32 V + 47.13 1.0 - -0.1 V + 47.13 beta_m = 0.08 - V 11.0

Component: sodium_current_v_gate

dd time v = v_infinity - v tau_v v_infinity = 0.5 1.0 -tanh 7.74 + V 0.12 tau_v = 0.25 + 2.24 1.0 -tanh 7.74 + V 0.12 1.0 -tanh 0.07 V + 92.4

Component: calcium_current

i_Ca = g_Ca d_infinity f f_Ca V - E_Ca E_Ca = R T 2.0 F ln Ca_e Ca_i

Component: calcium_current_d_gate

d_infinity = alpha_d alpha_d + beta_d alpha_d = 14.98 - 0.5 V - 22.36 16.68 2.0 16.68 2.0 π beta_d = 0.1471 - 5.3 - 0.5 V - 6.27 14.93 2.0 14.93 2.0 π

Component: calcium_current_f_gate

dd time f = alpha_f 1.0 - f - beta_f f alpha_f =6.87e-3 1.0 +- 6.1546 - V 6.12 beta_f = 0.069 -11.0 V + 9.825 + 0.011 1.0 + -0.278 V + 9.825 +5.75e-4

Component: calcium_current_f_Ca_gate

f_Ca = 1.0 1.0 + Ca_i 0.0006

Component: transient_outward_current

i_to = g_to r_infinity to V - E_to E_to = R T F ln 0.043 Na_e + K_e 0.043 Na_i + K_i

Component: transient_outward_current_r_gate

r_infinity = alpha_r alpha_r + beta_r alpha_r = 0.5266 - 0.0166 V - 42.2912 1.0 +- 0.0943 V - 42.2912 beta_r =5.186e-5 V + 0.5149 - 0.1344 V - 5.0027 1.0 +- 0.1348 V -5.186e-5

Component: transient_outward_current_to_gate

dd time to = alpha_to 1.0 - to - beta_to to alpha_to =5.612e-5 V + 0.0721 -0.173 V + 34.2531 1.0 + -0.1732 V + 34.2531 beta_to =1.215e-4 V + 0.0767 1.66e-9 V + 34.0235 1.0 +- 0.1604 V + 34.0235 tau_to = 1.0 p alpha_to V + p beta_to V to_infinity = alpha_to V - V_shift alpha_to V - V_shift + beta_to V - V_shift

Component: delayed_rectifier_potassium_current

i_K = g_K X 2.0 V - E_K E_K = R T F ln K_e K_i

Component: delayed_rectifier_potassium_current_X_gate

dd time X = X_infinity - X tau_X X_infinity = 0.988 1.0 + -0.861 - V 0.0620 tau_X = 240.0 - 25.5 + V 2.0 156.0 + 182.0 1.0 +tanh 0.154 + 0.0116 V + tau_X_a tau_X_a = 40.0 1.0 -tanh 160.0 + 2.0 V

Component: inward_rectifier_potassium_current

i_K1 = g_K1 K1_infinity V - E_K

Component: inward_rectifier_potassium_current_K1_gate

K1_infinity = alpha_K1 alpha_K1 + beta_K1 alpha_K1 = 0.1 1.0 + 0.06 V - E_K + 200.0 beta_K1 = 3.0 2.0e-4 V + 100.0 +- E_K + 0.1 V - 10.0 + E_K 1.0 +- 0.5 V - E_K

Component: calcium_background_current

i_b_Ca = g_b_Ca V - E_Ca

Component: sodium_background_current

i_b_Na = g_b_Na V - E_Na

Component: sodium_potassium_pump

i_NaK = g_NaK f_NaK f_NaK_a f_NaK = 1.0 1.0 + 0.1245 -0.0037 V + 0.0365 sigma -0.037 V f_NaK_a = 1.0 1.0 + 10.0 Na_i 1.5 K_e K_e + 1.5 sigma = 0.1428 Na_e 67.3 - 1.0

Component: sodium_calcium_pump

i_NaCa = g_NaCa f_NaCa f_NaCa = 87.5 3.0 + Na_e 3.0 -1.0 1.38 + Ca_e -1.0 1.0 + 0.1 -0.024 V -1.0 Na_i 3.0 Ca_e 0.013 V - Na_e 3.0 Ca_i -0.024 V

Component: ionic_concentrations