Mathematical model of the neonatal mouse ventricular action potential Catherine Lloyd ABI
Model Status This CellML model is known to run in OpenCell and COR to recreate the published results. The units have been checked and are consistent.
Model Structure ABSTRACT: Therapies for heart disease are based largely on our understanding of the adult myocardium. The dramatic differences in action potential (AP) shape between neonatal and adult cardiac myocytes, however, indicate that a different set of molecular interactions in neonatal myocytes necessitates different treatment for newborns. Computational modeling is useful for synthesizing data to determine how interactions between components lead to systems-level behavior, but this technique has not been used extensively to study neonatal heart cell function. We created a mathematical model of the neonatal (day 1) mouse myocyte by modifying, on the basis of experimental data, the densities and/or formulations of ion transport mechanisms in an adult cell model. The new model reproduces the characteristic AP shape of neonatal cells, with a brief plateau phase and longer duration than the adult (action potential duration at 80% repolarization = 60.1 vs. 12.6 ms). The simulation results are consistent with experimental data, including 1) decreased density and altered inactivation of transient outward K+ currents, 2) increased delayed rectifier K+ currents, 3) Ca2+ entry through T-type as well as L-type Ca2+ channels, 4) increased Ca2+ influx through Na+/Ca2+ exchange, and 5) Ca2+ transients resulting from transmembrane Ca2+ entry rather than release from the sarcoplasmic reticulum (SR). Simulations performed with the model generated novel predictions, including increased SR Ca2+ leak and elevated intracellular Na+ concentration in neonatal compared with adult myocytes. This new model can therefore be used for testing hypotheses and obtaining a better quantitative understanding of differences between neonatal and adult physiology. The original paper reference is cited below: Mathematical model of the neonatal mouse ventricular action potential, Linda J. Wang and Eric A. Sobie, 2008, American Journal of Physiology: Heart and Circulatory Physiology , 294, H2565-H2575. PubMed ID: 18408122 cell diagram Schematic diagram of the neonatal mouse model.
i_stim stim_amplitude time stim_start time stim_end time stim_start time stim_start stim_period stim_period stim_duration 0 time V i_CaL i_CaT i_pCa i_NaCa i_Cab i_Na i_Nab i_NaK i_Kto_f i_K1 i_Ks i_Kur i_Kss i_Kr i_ClCa i_stim time Cai Bi J_leak J_xfer J_up J_trpn time Cass Bss J_rel VJSR Vss J_xfer Vmyo Vss i_CaL i_Cab i_pCa i_CaT 2 i_NaCa Acap Cm 2 Vss F time CaJSR BJSR J_xfer J_rel time CaNSR J_up J_leak Vmyo VNSR J_tr VJSR VNSR Bi 1 CMDN_tot Km_CMDN Km_CMDN Cai 2 1 Bss 1 CMDN_tot Km_CMDN Km_CMDN Cass 2 1 BJSR 1 CSQN_tot Km_CSQN Km_CSQN CaJSR 2 1 J_rel v1 P_O1 P_O2 CaJSR Cass P_RyR J_tr CaNSR CaJSR tau_tr J_xfer Cass Cai tau_xfer J_leak v2 CaNSR Cai J_up v3 Cai 2 Km_up 2 Cai 2 J_trpn k_plus_htrpn Cai HTRPN_tot HTRPN_Ca k_plus_ltrpn Cai LTRPN_tot LTRPN_Ca k_minus_htrpn HTRPN_Ca k_minus_ltrpn LTRPN_Ca time P_RyR 0.04 P_RyR 0.1 i_CaL i_CaL_max V 5 2 648 time LTRPN_Ca k_plus_ltrpn Cai LTRPN_tot LTRPN_Ca k_minus_ltrpn LTRPN_Ca time HTRPN_Ca k_plus_htrpn Cai HTRPN_tot HTRPN_Ca k_minus_htrpn HTRPN_Ca time P_O1 k_plus_a Cass n P_C1 k_minus_b P_O2 k_minus_c P_C2 k_minus_a P_O1 k_plus_b Cass m P_O1 k_plus_c P_O1 P_C1 1 P_C2 P_O1 P_O2 time P_O2 k_plus_b Cass m P_O1 k_minus_b P_O2 time P_C2 k_plus_c P_O1 k_minus_c P_C2 i_CaL g_CaL O V E_CaL time O alpha C4 Kpcb I1 0.001 alpha I2 Kpcf O 4 beta O gamma O C1 1 O C2 C2 C3 C4 I1 I2 I3 time C2 4 alpha C1 2 beta C3 beta C2 3 alpha C2 time C3 3 alpha C2 3 beta C4 2 beta C3 2 alpha C3 time C4 2 alpha C3 4 beta O 0.01 4 Kpcb beta I1 alpha gamma C4 0.002 4 beta I2 Kpcf C4 4 beta Kpcb I3 3 beta C4 alpha C4 1 gamma Kpcf C4 time I1 gamma O 0.001 alpha I3 Kpcf I1 0.01 alpha gamma C4 4 beta Kpcf I1 Kpcb I1 time I2 0.001 Kpcf O alpha I2 Kpcb I3 0.002 Kpcf C4 4 beta I2 gamma I2 time I3 0.001 Kpcf I1 alpha I3 gamma I2 1 gamma Kpcf C4 4 beta Kpcb I3 Kpcb I3 alpha 0.4 V 12 10 1 0.7 V 40 2 10 0.75 V 20 2 400 1 0.12 V 12 10 beta 0.05 V 12 13 gamma Kpc_max Cass Kpc_half Cass Kpcf 13 1 V 14.5 2 100 i_CaT g_CaT b g V E_CaT b_infinity 1 1 V 48 6.1 tau_b 0.1 5.4 1 V 100 6.6 time b b_infinity b tau_b g_infinity 1 1 V 66 6.6 tau_g 8 32 1 V 65 5 time g g_infinity g tau_g i_pCa i_pCa_max Cai 2 Km_pCa 2 Cai 2 i_NaCa k_NaCa 1 K_mNa 3 Nao 3 1 K_mCa Cao 1 1 k_sat eta 1 V F R T eta V F R T Nai 3 Cao eta 1 V F R T Nao 3 Cai i_Cab g_Cab V E_CaN E_CaN R T 2 F Cao Cai time Nai i_Na i_Nab 3 i_NaK 3 i_NaCa Acap Cm Vmyo F i_Na g_Na m 3 h j V E_Na E_Na R T F Nao Nai alpha_m 0.32 V 47.13 1 -0.1 V 47.13 beta_m 0.08 V 11 time m alpha_m alpha_m beta_m m alpha_h 0.135 80 V 6.8 V 40 0 beta_h 3.56 0.079 V 310000 0.35 V V 40 1 0.13 1 V 10.66 11.1 time h alpha_h alpha_h beta_h h alpha_j 127140 0.2444 V 3.474 -5 0.04391 V V 37.78 1 0.311 V 79.23 V 40 0 beta_j 0.1212 0.01052 V 1 0.1378 V 40.14 V 40 0.3 2.535 -7 V 1 0.1 V 32 time j alpha_j alpha_j beta_j j i_Nab g_Nab V E_Na time Ki i_Kto_f i_K1 i_Ks i_Kss i_Kur i_Kr 2 i_NaK Acap Cm Vmyo F i_Kto_f g_Kto_f ato_f 6.5 ito_f V E_K E_K R T F Ko Ki time ato_f alpha_a 1 ato_f beta_a ato_f time ito_f ito_f_infinity ito_f tau_ito_f ito_f_infinity alpha_i alpha_i beta_i tau_ito_f 1 0.000152 V 13.5 7 0.067083 V 33.5 7 1 0.00095 V 33.5 7 0.051335 V 33.5 7 1 alpha_a 0.18064 0.03577 V 30 beta_a 0.3956 0.06237 V 30 alpha_i 0.000152 V 3.81 15.75 0.0067083 V 132.05 15.75 1 beta_i 0.00095 V 132.05 15.75 0.051335 V 132.05 15.75 1 i_Kur g_Kur aur iur V E_K time aur ass aur tau_aur time iur iss iur tau_iur ass 1 1 V 22.5 7.7 tau_aur 0.493 0.0629 V 2.058 iss 1 1 V 45.2 5.7 tau_iur 1200 170 1 V 45.2 5.7 i_Kss g_Kss aKss V E_K time aKss ass aKss tau_Kss tau_Kss 39.3 0.0862 V 13.17 i_K1 g_K1 Ko Ko 210 V E_K 1 0.0896 V E_K i_Ks g_Ks nKs 2 V E_K time nKs alpha_n 1 nKs beta_n nKs alpha_n 0.00000481333 V 26.5 1 0.128 V 26.5 beta_n 0.0000953333 0.038 V 26.5 i_Kr g_Kr O_K V E_K C_K0 1 C_K1 C_K2 O_K I_K time C_K2 kf C_K1 beta_a1 O_K kb C_K2 alpha_a1 C_K2 time C_K1 alpha_a0 C_K0 kb C_K2 beta_a0 C_K1 kf C_K1 time O_K alpha_a1 C_K2 beta_i I_K beta_a1 O_K alpha_i O_K time I_K alpha_i O_K beta_i I_K alpha_a0 0.022348 0.01176 V beta_a0 0.047002 0.0631 V alpha_a1 0.013733 0.038198 V beta_a1 0.0000689 0.04178 V alpha_i 0.090821 0.023391 V 5 beta_i 0.006497 0.03268 V 5 i_NaK i_NaK_max f_NaK 1 1 Km_Nai Nai 1.5 Ko Ko Km_Ko f_NaK 1 1 0.1245 0.1 V F R T 0.0365 sigma V F R T sigma 1 7 Nao 67300 1 f_ClCa Cass Km_Cl Cass n_ClCa i_ClCa 1 P_ClCa f_ClCa V F 2 R T Clo V F R T Cli V F R T 1 concentration of junctional sarcoplasmic reticulum calcium calcium leak flux from the sarcoplasmic reticulum absolute temperature concentration of extracellular potassium calcium release flux from the sarcoplasmic reticulum membrane potential total myoplasmic troponin high-affinity site concentration concentration of extracellular potassium calcium on rate constant for troponin low-affinity sites non-inactivating steady-state potassium current sodium current slow inactivation variable maximum T-type calcium current conductance total myoplasmic calmodulin concentration network sarcoplasmic reticulum volume calcium background current forward voltage-insensitive rate constant for inactivation calcium half-saturation constant of sarcolemmal calcium pump current concentration of network sarcoplasmic reticulum calcium fast sodium current membrane potential concentration of extracellular calcium absolute temperature steady state function of potassium current inactivation variable absolute temperature T-type calcium current activation variable network sarcoplasmic reticulum volume concentration of intracellular sodium sodium current inactivation variable calcium-activated chloride current capacitive membrane area membrane potential maximum slow delayed-rectifier potassium current conductance slow delayed rectifier potassium current calcium leak flux from the sarcoplasmic reticulum membrane potential scaling factor of sodium-calcium exchange total myoplasmic troponin high-affinity site concentration capacitive membrane area calcium-activated chloride current steady state function of transient outward potassium current inactivation variable absolute temperature backward voltage-insensitive rate constant for inactivation potassium reversal potential membrane potential sodium-calcium exchange current concentration of intracellular calcium calcium extrusion flux from the cytosol potassium reversal potential calcium on rate constant for troponin high-affinity sites concentration of extracellular potassium specific membrane capacitance L-type calcium current sodium-potassium pump current capacitive membrane area membrane potential calcium off rate constant for troponin low-affinity sites calcium release flux from the sarcoplasmic reticulum membrane potential capacitive membrane area half-saturation constant for calcium-induced inactivation of L-type calcium channel sodium half-saturation constant for sodium-calcium exchange current maximum fast sodium current conductance maximum sodium-potassium pump current calcium extrusion flux from the cytosol calcium off rate constant for troponin high-affinity sites membrane potential concentration of extracellular sodium sodium half-saturation constant for sodium-potassium exchange current calcium flux to troponin ryanodine receptor calcium cooperativity parameter PC1 - PO1 concentration of calcium bound low-affinity troponin-binding sites myoplasmic volume total myoplasmic troponin low-affinity site concentration calcium flux from subspace volume to the bulk myoplasm L-type calcium current membrane potential concentration of intracellular calcium concentration of intracellular chloride ryanodine receptor calcium cooperativity parameter PO1 - PO2 concentration of extracellular potassium capacitive membrane area normalisation constant for L-type calcium current concentration of intracellular calcium rapid transient outward potassium current calcium background current sarcolemmal calcium pump current inactivation constant of transient outward potassium current scaling factor of sodium-calcium exchange time constant for ultrarapidly activating delayed-rectifier potassium current activation gate time constant for transfer from network sarcoplasmic reticulum to junctional sarcoplasmic reticulum calcium flux to troponin junctional sarcoplasmic reticulum volume ryanodine receptor PC1 - PO1 rate constant concentration of extracellular sodium potassium reversal potential normalisation constant for L-type calcium current ultrarapidly activating delayed-rectifier potassium current activation variable fast sodium current calcium half-saturation constant for sodium-calcium exchange current maximum rapid delayed-rectifier potassium current conductance steady state function of transient outward potassium current inactivation variable total junctional sarcoplasmic reticulum calsequestrin concentration calcium off rate constant for troponin low-affinity sites maximum noninactivating steady-state potassium current conductance (apex) ryanodine receptor PO1 - PO2 rate constant junctional sarcoplasmic reticulum volume sodium-potassium pump current T-type calcium current concentration of intracellular calcium backward voltage-insensitive rate constant for inactivation concentration of subspace calcium ultrarapidly activating delayed-rectifier potassium current inactivation variable calcium on rate constant for troponin high-affinity sites non-inactivating steady-state potassium current specific membrane capacitance total myoplasmic troponin low-affinity site concentration mERG channel open state membrane potential myoplasmic volume concentration of network sarcoplasmic reticulum calcium sodium-calcium exchange current sarcoplasmic reticulum calcium ATPase maximum pump rate L-type calcium channel closed state absolute temperature calcium half-saturation constant for calsequestrin concentration of calcium bound high-affinity troponin-binding sites sodium reversal potential mERG channel closed state concentration of intracellular potassium concentration of calcium bound high-affinity troponin-binding sites calcium leak rate constant from the network sarcoplasmic reticulum calcium flux from subspace volume to the bulk myoplasm ultrarapidly activating delayed rectifier potassium current concentration of subspace calcium maximum ryanodine receptor channel calcium permeability L-type calcium channel closed state total myoplasmic troponin high-affinity site concentration membrane potential membrane potential maximum background sodium current conductance sarcolemmal calcium pump current time constant for transfer from subspace to myoplasm non-inactivating steady-state potassium current concentration of extracellular calcium L-type calcium channel closed state concentration of extracellular sodium ryanodine receptor calcium cooperativity parameter PO1 - PO2 sodium-calcium exchange current voltage dependence of sodium-calcium exchange T-type calcium current inactivation variable sodium-calcium exchange saturation factor at very negative potentials concentration of subspace calcium concentration of network sarcoplasmic reticulum calcium concentration of intracellular sodium ryanodine receptor calcium cooperativity parameter PC1 - PO1 ultrarapidly activating delayed rectifier potassium current concentration of intracellular sodium myoplasmic volume membrane potential calcium flux to troponin membrane potential myoplasmic volume calcium flux from network sarcoplasmic reticulum to junctional sarcoplasmic reticulum L-type calcium channel closed state total junctional sarcoplasmic reticulum calcium flux background calcium conductance potassium reversal potential concentration of intracellular calcium concentration of extracellular potassium T-type calcium current concentration of junctional sarcoplasmic reticulum calcium concentration of calcium bound low-affinity troponin-binding sites sodium-calcium exchange current membrane potential time constant for transfer from network sarcoplasmic reticulum to junctional sarcoplasmic reticulum fraction of ryanodine receptor channels in state PC2 transient outward potassium current inactivation variable mERG channel closed state potassium reversal potential concentration of subspace calcium T-type calcium current concentration of junctional sarcoplasmic reticulum calcium half-saturation constant for sarcoplasmic reticulum calcium-ATPase pump sodium background current time constant for ultrarapidly activating delayed-rectifier potassium current inactivation gate maximum rapid delayed-rectifier potassium current conductance concentration of intracellular calcium fraction of ryanodine receptor channels in state PC1 absolute temperature mERG channel closed state normalisation constant for L-type calcium current non-inactivating steady-state potassium current calcium extrusion flux from the cytosol forward voltage-insensitive rate constant for inactivation network sarcoplasmic reticulum volume mERG channel open state non-inactivating steady-state potassium current fraction of ryanodine receptor channels in state PC2 L-type calcium channel closed state sodium-calcium exchange current sodium current inactivation variable membrane potential total subspace calcium flux sodium half-saturation constant for sodium-calcium exchange current ryanodine receptor PO1 - PC1 rate constant rapid transient outward potassium current L-type calcium channel closed state T-type calcium current activation variable calcium half-saturation constant for calmodulin activation time constant of T-type calcium current specific membrane capacitance calcium off rate constant for troponin high-affinity sites potassium reversal potential myoplasmic volume normalisation constant for L-type calcium current concentration of subspace calcium concentration of intracellular calcium concentration of intracellular chloride potassium reversal potential concentration of network sarcoplasmic reticulum calcium fraction of ryanodine receptor channels in state PC1 steady state function of potassium current activation variable L-type calcium channel closed state L-type calcium current fast sodium current concentration of extracellular chloride sodium background current sodium current activation variable sodium-calcium exchange current maximum time constant for calcium-induced inactivation concentration of calcium bound low-affinity troponin-binding sites calcium background current rate constant for rapid delayed-rectifier potassium current concentration of subspace calcium specific membrane capacitance maximum fast sodium current conductance sodium current activation variable ultrarapidly activating delayed rectifier potassium current time constant for non-inactivating steady-state potassium current absolute temperature concentration of subspace calcium subspace volume membrane potential ryanodine receptor PO2 - PO1 rate constant maximum ultrarapidly delayed-rectifier potassium current conductance (apex) ryanodine receptor modulation factor membrane potential L-type calcium channel closed state membrane potential rate constant for rapid delayed-rectifier potassium current calcium half-saturation constant for sodium-calcium exchange current sodium background current inactivation constant of transient outward potassium current rapid transient outward potassium current calcium off rate constant for troponin low-affinity sites ryanodine receptor PC2 - PO1 rate constant calcium background current membrane potential T-type calcium current steady state function of T-type calcium current inactivation variable rapidly delayed rectifier potassium current sodium current activation variable fraction of ryanodine receptor channels in state PO2 sodium reversal potential L-type calcium current absolute temperature time constant for transfer from subspace to myoplasm capacitive membrane area externally applied stimulus current T-type calcium current specific maximum conductivity for L-type calcium channel half-saturation constant of calcium-activated chloride current absolute temperature total myoplasmic calmodulin concentration rate constant for rapid delayed-rectifier potassium current concentration of intracellular chloride saturation potential of T-type calcium current sodium reversal potential maximum calcium pump current capacitive membrane area membrane potential calcium flux from network sarcoplasmic reticulum to junctional sarcoplasmic reticulum sodium-calcium exchange current calcium on rate constant for troponin high-affinity sites sodium current slow inactivation variable fraction of ryanodine receptor channels in state PO1 L-type calcium channel conducting state ultrarapidly activating delayed-rectifier potassium current inactivation variable L-type calcium channel inactivated state L-type calcium channel inactivated state maximum ryanodine receptor channel calcium permeability rapid transient outward potassium current specific membrane capacitance calcium off rate constant for troponin high-affinity sites L-type calcium channel inactivated state time-independent potassium current transient outward potassium current activation variable potassium reversal potential junctional sarcoplasmic reticulum volume membrane potential L-type calcium channel inactivated state T-type calcium current inactivation variable total junctional sarcoplasmic reticulum calsequestrin concentration calcium leak rate constant from the network sarcoplasmic reticulum sodium half-saturation constant for sodium-potassium exchange current total myoplasmic troponin low-affinity site concentration sarcolemmal calcium pump current total myoplasmic troponin low-affinity site concentration L-type calcium channel inactivated state L-type calcium channel conducting state calcium reversal potential calcium release flux from the sarcoplasmic reticulum total intracellular calcium flux ultrarapidly activating delayed-rectifier potassium current activation variable sarcoplasmic reticulum calcium ATPase maximum pump rate T-type calcium current inactivation variable concentration of extracellular chloride sodium current activation variable L-type calcium channel inactivated state fast sodium current time constant for ultrarapidly activating delayed-rectifier potassium current inactivation gate calcium flux to troponin rapidly delayed rectifier potassium current non-inactivating steady-state potassium current activation variable steady state function of T-type calcium current activation variable sodium-potassium pump current rapid transient outward potassium current membrane potential saturation potential of T-type calcium current sodium background current concentration of extracellular chloride potassium reversal potential membrane potential total myoplasmic troponin high-affinity site concentration T-type calcium current absolute temperature calcium extrusion flux from the cytosol fraction of ryanodine receptor channels in state PO2 T-type calcium current activation variable absolute temperature calcium on rate constant for troponin high-affinity sites sodium-potassium pump current transient outward potassium current activation variable L-type calcium current sodium-calcium exchange current rapidly delayed rectifier potassium current calcium-activated chloride current concentration of intracellular calcium maximum noninactivating steady-state potassium current conductance (apex) membrane potential rapid transient outward potassium current membrane potential sodium-potassium pump current membrane potential sodium background current membrane potential concentration of intracellular calcium background calcium conductance reversal potential for L-type calcium channel calcium flux from network sarcoplasmic reticulum to junctional sarcoplasmic reticulum calcium background current mERG channel closed state ultrarapidly activating delayed rectifier potassium current non-inactivating steady-state potassium current maximum transient outward potassium current conductance (septum) concentration of subspace calcium time-independent potassium current slow delayed rectifier potassium current membrane potential concentration of extracellular calcium calcium leak flux from the sarcoplasmic reticulum mERG channel closed state calcium on rate constant for troponin low-affinity sites sodium current inactivation variable maximum time constant for calcium-induced inactivation time constant for ultrarapidly activating delayed-rectifier potassium current activation gate inactivation time constant of T-type calcium current maximum time-independent potassium current conductance fraction of ryanodine receptor channels in state PO1 mERG channel inactivated state sodium current slow inactivation variable potassium half-saturation constant for sodium-potassium exchange current L-type calcium current steady state function of potassium current inactivation variable membrane potential membrane potential sodium background current subspace volume maximum time-independent potassium current conductance mERG channel closed state sodium-calcium exchange saturation factor at very negative potentials transient outward potassium current inactivation variable concentration of extracellular potassium ryanodine receptor modulation factor membrane potential sarcolemmal calcium pump current concentration of intracellular potassium concentration of extracellular chloride slow delayed rectifier potassium current time-independent potassium current calcium reversal potential myoplasmic volume calcium leak flux from the sarcoplasmic reticulum calcium half-saturation constant for calsequestrin sodium-potassium pump current half-saturation constant of calcium-activated chloride current rapidly delayed rectifier potassium current membrane potential concentration of extracellular potassium membrane potential ryanodine receptor PO1 - PC2 rate constant concentration of extracellular sodium slow delayed rectifier potassium current slow delayed rectifier potassium current steady state function of potassium current activation variable sodium current inactivation variable time-independent potassium current sodium reversal potential calcium release flux from the sarcoplasmic reticulum fast sodium current concentration of intracellular sodium rapidly delayed rectifier potassium current total subspace calcium flux specific membrane capacitance concentration of intracellular potassium absolute temperature calcium background current cooperativity parameter of calcium-activated chloride current myoplasmic volume L-type calcium current time constant for non-inactivating steady-state potassium current calcium on rate constant for troponin low-affinity sites concentration of intracellular sodium concentration of calcium bound high-affinity troponin-binding sites specific maximum conductivity for L-type calcium channel membrane potential ultrarapidly activating delayed rectifier potassium current maximum T-type calcium current conductance time-independent potassium current myoplasmic volume specific membrane capacitance concentration of intracellular sodium calcium off rate constant for troponin high-affinity sites potassium reversal potential potassium half-saturation constant for sodium-potassium exchange current steady state function of potassium current activation variable cooperativity parameter of calcium-activated chloride current calcium-activated chloride current junctional sarcoplasmic reticulum volume subspace volume maximum sodium-potassium pump current subspace volume activation time constant of T-type calcium current T-type calcium current inactivation variable non-inactivating steady-state potassium current activation variable ultrarapidly activating delayed rectifier potassium current concentration of extracellular sodium inactivation time constant of T-type calcium current concentration of extracellular calcium concentration of extracellular sodium potassium reversal potential ryanodine receptor PO1 - PC2 rate constant concentration of subspace calcium calcium half-saturation constant for calmodulin concentration of intracellular calcium capacitive membrane area sodium-potassium pump current reversal potential for L-type calcium channel concentration of calcium bound low-affinity troponin-binding sites network sarcoplasmic reticulum volume L-type calcium current calcium half-saturation constant of sarcolemmal calcium pump current ryanodine receptor PO1 - PO2 rate constant fraction of ryanodine receptor channels in state PO2 maximum slow delayed-rectifier potassium current conductance membrane potential fast sodium current sodium-potassium pump current concentration of intracellular potassium maximum transient outward potassium current conductance (septum) potassium reversal potential concentration of intracellular sodium membrane potential ryanodine receptor PO2 - PO1 rate constant externally applied stimulus current rapidly delayed rectifier potassium current half-saturation constant for sarcoplasmic reticulum calcium-ATPase pump concentration of intracellular calcium maximum ultrarapidly delayed-rectifier potassium current conductance (apex) concentration of intracellular calcium ryanodine receptor PO1 - PC1 rate constant slow delayed rectifier potassium current steady state function of potassium current activation variable time-independent potassium current steady state function of T-type calcium current activation variable concentration of junctional sarcoplasmic reticulum calcium total intracellular calcium flux calcium off rate constant for troponin low-affinity sites steady state function of T-type calcium current inactivation variable calcium flux from network sarcoplasmic reticulum to junctional sarcoplasmic reticulum absolute temperature sodium current slow inactivation variable membrane potential maximum background sodium current conductance concentration of intracellular chloride membrane potential maximum calcium pump current concentration of subspace calcium total junctional sarcoplasmic reticulum calcium flux membrane potential membrane potential membrane potential concentration of extracellular sodium half-saturation constant for calcium-induced inactivation of L-type calcium channel concentration of extracellular calcium mERG channel inactivated state membrane potential wang_sobie_2008 calcium flux from subspace volume to the bulk myoplasm sarcolemmal calcium pump current ryanodine receptor PC2 - PO1 rate constant voltage dependence of sodium-calcium exchange concentration of extracellular calcium rate constant for rapid delayed-rectifier potassium current calcium on rate constant for troponin low-affinity sites absolute temperature fraction of ryanodine receptor channels in state PO2 membrane potential fraction of ryanodine receptor channels in state PO1 ryanodine receptor PC1 - PO1 rate constant T-type calcium current activation variable calcium flux from subspace volume to the bulk myoplasm specific membrane capacitance sarcolemmal calcium pump current concentration of extracellular sodium concentration of extracellular potassium concentration of intracellular sodium concentration of calcium bound high-affinity troponin-binding sites fraction of ryanodine receptor channels in state PO1