//Created by libAntimony v2.4 model electrolytes_CellML1_0_model__environment(time_) // Variable initializations: time_ = ; end model electrolytes_CellML1_0_model__parameter_values(TRPL, NID, ALCLK, KID, VIDML) // Variable initializations: TRPL = 0; NID = 0.1; ALCLK = 0.3; KID = 0.08; VIDML = 0.01; end model electrolytes_CellML1_0_model__extracellular_Na_concentration(STH, NOD, VEC, time_, CNA, NID, TRPL) // Assignment Rules: CNA := NAE / VEC; NED := (NID * STH - NOD) + TRPL * 142; // Rate Rules: NAE' = NED; // Variable initializations: STH = ; NOD = ; VEC = ; time_ = ; NID = ; TRPL = ; NAE = 2109.91; end model electrolytes_CellML1_0_model__aldosterone_effect_on_cellular_K_distribution(AMK, AMK1, ALCLK) // Assignment Rules: AMK1 := (AMK - 1) * ALCLK + 1; // Variable initializations: AMK = ; ALCLK = ; end model electrolytes_CellML1_0_model__extracellular_K_concentration(KOD, AMK1, VEC, time_, CKE, KE, KTOT, KID) // Assignment Rules: CKE := KE / VEC; KE := (KTOT - 3000) / (AMK1 * 9.3333); KTOTD := KID - KOD; // Rate Rules: KTOT' = KTOTD; // Variable initializations: KOD = ; AMK1 = ; VEC = ; time_ = ; KTOT = 3622.54; KID = ; end model electrolytes_CellML1_0_model__intracellular_K_concentration(KTOT, KE, VIC, CKI) // Assignment Rules: CKI := KI / VIC; KI := KTOT - KE; // Variable initializations: KTOT = ; KE = ; VIC = ; end model electrolytes_CellML1_0_model__intracellular_fluid_volume(CNA, CKI, time_, VIC, VID, VIDML) // Assignment Rules: VID := CCD * VIDML; CCD := CKI - CNA; // Rate Rules: VIC' = VID; // Variable initializations: CNA = ; CKI = ; time_ = ; VIC = 25.0404; VIDML = ; end model electrolytes_CellML1_0_model__total_body_water(TVD, VUD, time_, VTW) // Rate Rules: VTW' = TVD - VUD; // Variable initializations: TVD = ; VUD = ; time_ = ; VTW = 39.8952; end model electrolytes_CellML1_0_model__extracellular_fluid_volume(VIC, VTW, VEC) // Assignment Rules: VEC := VTW - VIC; // Variable initializations: VIC = ; VTW = ; end model electrolytes_CellML1_0_model__electrolytes(time_, AMK, TVD, NOD, STH, KOD, VUD) // Sub-modules, and any changes to those submodules: parameter_values: electrolytes_CellML1_0_model__parameter_values(TRPL, NID, ALCLK, KID, VIDML); extracellular_Na_concentration: electrolytes_CellML1_0_model__extracellular_Na_concentration(STH, NOD, VEC, time_, CNA, NID, TRPL); aldosterone_effect_on_cellular_K_distribution: electrolytes_CellML1_0_model__aldosterone_effect_on_cellular_K_distribution(AMK, AMK1, ALCLK); extracellular_K_concentration: electrolytes_CellML1_0_model__extracellular_K_concentration(KOD, AMK1, VEC, time_, CKE, KE, KTOT, KID); intracellular_K_concentration: electrolytes_CellML1_0_model__intracellular_K_concentration(KTOT, KE, VIC, CKI); intracellular_fluid_volume: electrolytes_CellML1_0_model__intracellular_fluid_volume(CNA, CKI, time_, VIC, VID, VIDML); total_body_water: electrolytes_CellML1_0_model__total_body_water(TVD, VUD, time_, VTW); extracellular_fluid_volume: electrolytes_CellML1_0_model__extracellular_fluid_volume(VIC, VTW, VEC); // Variable initializations: AMK = 1.037; TVD = 0.000980838; NOD = 0.0959449; STH = 0.977181; KOD = 0.0804374; VUD = 0.000989; end model *electrolytes_CellML1_0_model____main() // Sub-modules, and any changes to those submodules: environment: electrolytes_CellML1_0_model__environment(time_); electrolytes: electrolytes_CellML1_0_model__electrolytes(time_, AMK, TVD, NOD, STH, KOD, VUD); end