$\frac{-\mathrm{i\_tot}}{\mathrm{Cm}}$ $\mathrm{i\_Na}+\mathrm{i\_Ca\_L}+\mathrm{i\_Ca\_T}+\mathrm{i\_K1}+\mathrm{i\_Kr}+\mathrm{i\_I}+\mathrm{i\_NaK}+\mathrm{i\_NaCa}+\mathrm{i\_st}+\mathrm{i\_ha}+\mathrm{i\_KACh}$ $\mathrm{i\_bNSC}+\mathrm{i\_Cab}+\mathrm{i\_Kpl}+\mathrm{i\_lCa}+\mathrm{i\_KATP}$ $\frac{-\mathrm{i\_net\_Na}}{F\mathrm{Vi}}$ $\frac{\sqrt{\mathrm{b1}^2+4\mathrm{c1}}-\mathrm{b1}}{2}$ $\frac{-\mathrm{i\_net\_K}}{F\mathrm{Vi}}$ $\mathrm{i\_Na\_Na}+\mathrm{i\_CaL\_Na}+\mathrm{i\_st\_Na}+\mathrm{i\_ha\_Na}+\mathrm{i\_bNSC\_Na}+\mathrm{i\_lCa\_Na}+3\mathrm{i\_NaK}+3\mathrm{i\_NaCa}$ $\mathrm{i\_K1}+\mathrm{i\_Kr}+\mathrm{i\_KATP}+\mathrm{i\_KACh}+\mathrm{i\_Na\_K}+\mathrm{i\_CaL\_K}+\mathrm{i\_st\_K}+\mathrm{i\_ha\_K}+\mathrm{i\_bNSC\_K}+\mathrm{i\_lCa\_K}+\mathrm{i\_Kpl}-2\mathrm{i\_NaK}$ $\mathrm{i\_CaL\_Ca}+\mathrm{i\_Ca\_T}+\mathrm{i\_Cab}-2\mathrm{i\_NaCa}$ $\frac{-(\mathrm{i\_net\_Ca}-\mathrm{i\_SR\_U}-\mathrm{i\_RyR}-\mathrm{i\_SR\_L})}{2F\mathrm{Vi}}+\mathrm{dCaidt\_NL}$ $\mathrm{CMDN\_max}-\mathrm{Ca\_Total}+\mathrm{K\_mCMDN}$ $\mathrm{K\_mCMDN}\mathrm{Ca\_Total}$ $\begin{cases}-\mathrm{Nao} & \text{if $\mathrm{Vm}=0$}\\ \frac{\frac{F\mathrm{Vm}}{RT}(\mathrm{Nai}-\mathrm{Nao}e^{\frac{-F\mathrm{Vm}}{RT}})}{1-e^{\frac{-F\mathrm{Vm}}{RT}}} & \text{otherwise}\end{cases}$ $\begin{cases}-\mathrm{Cao} & \text{if $\mathrm{Vm}=0$}\\ \frac{\frac{2F\mathrm{Vm}}{RT}(\mathrm{Cai}-\mathrm{Cao}e^{\frac{-2F\mathrm{Vm}}{RT}})}{1-e^{\frac{-2F\mathrm{Vm}}{RT}}} & \text{otherwise}\end{cases}$ $\begin{cases}\mathrm{Ki} & \text{if $\mathrm{Vm}=0$}\\ \frac{\frac{F\mathrm{Vm}}{RT}(\mathrm{Ki}-\mathrm{Ko}e^{\frac{-F\mathrm{Vm}}{RT}})}{1-e^{\frac{-F\mathrm{Vm}}{RT}}} & \text{otherwise}\end{cases}$ $\mathrm{ProducingRate\_Max}(\mathrm{Adenosine\_Total}-\mathrm{ATPi})+\mathrm{dATPdt\_NL}-\frac{\mathrm{i\_NaK}}{F\mathrm{Vi}}+\frac{\mathrm{i\_SR\_U}}{4F\mathrm{Vi}}$ $\mathrm{p\_RP\_Na}\mathrm{k\_RP\_AP}+\mathrm{p\_AI\_Na}\mathrm{k\_AI\_AP}-\mathrm{p\_AP\_Na}(\mathrm{k\_AP\_RP}+\mathrm{k\_AP\_AI})$ $1-\mathrm{p\_RP\_Na}-\mathrm{p\_AP\_Na}-\mathrm{p\_AI\_Na}$ $\mathrm{p\_AP\_Na}\mathrm{k\_AP\_RP}+\mathrm{p\_RI\_Na}\mathrm{k\_RI\_RP}-\mathrm{p\_RP\_Na}(\mathrm{k\_RP\_RI}+\mathrm{k\_RP\_AP})$ $\mathrm{p\_RI\_Na}\mathrm{k\_RI\_AI}+\mathrm{p\_AP\_Na}\mathrm{k\_AP\_AI}-\mathrm{p\_AI\_Na}(\mathrm{k\_AI\_RI}+\mathrm{k\_AI\_AP})$ $\frac{1}{0.1027e^{\frac{-\mathrm{Vm}}{8}}+0.25e^{\frac{-\mathrm{Vm}}{50}}}$ $\frac{1}{26e^{\frac{\mathrm{Vm}}{17}}+0.02e^{\frac{\mathrm{Vm}}{800}}}$ $\frac{1}{0.0001027e^{\frac{-\mathrm{Vm}}{8}}+5e^{\frac{-\mathrm{Vm}}{400}}}$ $\frac{1}{1300e^{\frac{\mathrm{Vm}}{20}}+0.04e^{\frac{\mathrm{Vm}}{800}}}$ $\frac{1}{0.8e^{\frac{-\mathrm{Vm}}{400}}}$ $\frac{0.01}{1+\frac{\mathrm{k\_AI\_AP}\mathrm{k\_AP\_RP}\mathrm{k\_RI\_AI}}{\mathrm{k\_AP\_AI}\mathrm{k\_RP\_AP}\mathrm{k\_AI\_RI}}}$ $0.01-\mathrm{k\_RP\_RI}$ $\mathrm{alpha\_y}(1-y)-\mathrm{beta\_y}y$ $\frac{1}{9000000000e^{\frac{\mathrm{Vm}}{5}}+8000e^{\frac{\mathrm{Vm}}{100}}}$ $\frac{1}{0.014e^{\frac{-\mathrm{Vm}}{5}}+4000e^{\frac{-\mathrm{Vm}}{100}}}$ $\mathrm{i\_Na\_Na}+\mathrm{i\_Na\_K}$ $\mathrm{P\_Na}\mathrm{CF\_Na}\mathrm{p\_AP\_Na}y$ $0.1\mathrm{P\_Na}\mathrm{CF\_K}\mathrm{p\_AP\_Na}y$ $\mathrm{p\_RP\_CaL}\mathrm{k\_RP\_AP}+\mathrm{p\_AI\_CaL}\mathrm{k\_AI\_AP}-\mathrm{p\_AP\_CaL}(\mathrm{k\_AP\_RP}+\mathrm{k\_AP\_AI})$ $1-\mathrm{p\_AP\_CaL}-\mathrm{p\_RP\_CaL}-\mathrm{p\_AI\_CaL}$ $\mathrm{p\_AP\_CaL}\mathrm{k\_AP\_RP}+\mathrm{p\_RI\_CaL}\mathrm{k\_RI\_RP}-\mathrm{p\_RP\_CaL}(\mathrm{k\_RP\_RI}+\mathrm{k\_RP\_AP})$ $\mathrm{p\_RI\_CaL}\mathrm{k\_RI\_AI}+\mathrm{p\_AP\_CaL}\mathrm{k\_AP\_AI}-\mathrm{p\_AI\_CaL}(\mathrm{k\_AI\_RI}+\mathrm{k\_AI\_AP})$ $\frac{1}{0.27e^{\frac{-\mathrm{Vm}}{5.9}}+1.5e^{\frac{-\mathrm{Vm}}{65}}}$ $\frac{1}{480e^{\frac{\mathrm{Vm}}{7}}+2.2e^{\frac{\mathrm{Vm}}{65}}}$ $\frac{1}{0.0018e^{\frac{-\mathrm{Vm}}{7.4}}+2e^{\frac{-\mathrm{Vm}}{100}}}$ $\frac{1}{2200000e^{\frac{\mathrm{Vm}}{7.4}}+11e^{\frac{\mathrm{Vm}}{100}}}$ $\frac{0.04}{1+\frac{\mathrm{k\_AI\_AP}\mathrm{k\_AP\_RP}\mathrm{k\_RI\_AI}}{\mathrm{k\_AP\_AI}\mathrm{k\_RP\_AP}\mathrm{k\_AI\_RI}}}$ $0.04-\mathrm{k\_RP\_RI}$ $\mathrm{p\_C}\mathrm{k\_C\_U}+\mathrm{p\_UCa}\mathrm{k\_UCa\_U}-\mathrm{p\_U}(\mathrm{k\_UUCa\_Ca}+\mathrm{k\_U\_C})$ $\mathrm{p\_U}\mathrm{k\_UUCa\_Ca}+\mathrm{p\_CCa}\mathrm{k\_CCa\_UCa}-\mathrm{p\_UCa}(\mathrm{k\_UCa\_CCa}+\mathrm{k\_UCa\_U})$ $0.0676\mathrm{CF\_Ca}$ $\mathrm{Cai}-0.3\mathrm{iCaL}$ $1-\mathrm{p\_C}-\mathrm{p\_U}-\mathrm{p\_UCa}$ $\mathrm{p\_CCa}\mathrm{k\_CCa\_C}+\mathrm{p\_U}\mathrm{k\_U\_C}-\mathrm{p\_C}(\mathrm{k\_C\_U}+\mathrm{k\_C\_CCa}\mathrm{Cacm}\mathrm{p\_AP\_CaL})$ $\frac{\mathrm{k\_CCa\_C}\mathrm{k\_C\_U}\mathrm{k\_U\_UCa}\mathrm{k\_UCa\_CCa}}{\mathrm{k\_U\_C}\mathrm{k\_C\_CCa}\mathrm{k\_CCa\_UCa}}$ $\mathrm{Cacm}\mathrm{p\_AP\_CaL}$ $\mathrm{CaEffC}+\mathrm{Cai}(1-\mathrm{p\_AP\_CaL})$ $\mathrm{k\_U\_UCa}\mathrm{CaEffU}$ $\mathrm{k\_C\_CCa}\mathrm{CaEffC}$ $\mathrm{iCaL}\mathrm{p\_open\_CaL}$ $\mathrm{alpha\_y}(1-y)-\mathrm{beta\_y}y$ $\frac{1}{250000e^{\frac{\mathrm{Vm}}{9}}+58e^{\frac{\mathrm{Vm}}{65}}}$ $\frac{1}{1800e^{\frac{-\mathrm{Vm}}{14}}+66e^{\frac{-\mathrm{Vm}}{65}}}$ $\mathrm{i\_CaL\_Na}+\mathrm{i\_CaL\_Ca}+\mathrm{i\_CaL\_K}$ $1.85E-5\mathrm{P\_CaL}\mathrm{CF\_Na}\mathrm{p\_open\_CaL}$ $\mathrm{P\_CaL}\mathrm{CF\_Ca}\mathrm{p\_open\_CaL}$ $0.000365\mathrm{P\_CaL}\mathrm{CF\_K}\mathrm{p\_open\_CaL}$ $\frac{\mathrm{p\_AP\_CaL}(\mathrm{p\_U}+\mathrm{p\_UCa})y}{1+\left(\frac{1.4}{\mathrm{ATPi}}\right)^3}$ $\mathrm{alpha\_y1}(1-\mathrm{y1})-\mathrm{beta\_y1}\mathrm{y1}$ $\frac{1}{0.019e^{\frac{-\mathrm{Vm}}{5.6}}+0.82e^{\frac{-\mathrm{Vm}}{250}}}$ $\frac{1}{40e^{\frac{\mathrm{Vm}}{6.3}}+1.5e^{\frac{\mathrm{Vm}}{10000}}}$ $\mathrm{alpha\_y2}(1-\mathrm{y2})-\mathrm{beta\_y2}\mathrm{y2}$ $\frac{1}{62000e^{\frac{\mathrm{Vm}}{10.1}}+30e^{\frac{\mathrm{Vm}}{3000}}}$ $\frac{1}{0.0006e^{\frac{-\mathrm{Vm}}{6.7}}+1.2e^{\frac{-\mathrm{Vm}}{25}}}$ $\mathrm{P\_CaT}\mathrm{CF\_Ca}\mathrm{y1}\mathrm{y2}$ $\mathrm{alpha\_y1}(1-\mathrm{y1})-\mathrm{beta\_y1}\mathrm{y1}$ $\frac{1}{0.15e^{\frac{-\mathrm{Vm}}{11}}+0.2e^{\frac{-\mathrm{Vm}}{700}}}$ $\frac{1}{16e^{\frac{\mathrm{Vm}}{8}}+15e^{\frac{\mathrm{Vm}}{50}}}$ $\mathrm{alpha\_y2}(1-\mathrm{y2})-\mathrm{beta\_y2}\mathrm{y2}$ $\frac{1}{3100e^{\frac{\mathrm{Vm}}{13}}+700e^{\frac{\mathrm{Vm}}{70}}}$ $\frac{1}{95e^{\frac{-\mathrm{Vm}}{10}}+50e^{\frac{-\mathrm{Vm}}{700}}}+\frac{\mathrm{Cai}\times 2.5}{1+e^{\frac{-\mathrm{Vm}}{5}}}$ $\mathrm{alpha\_y3}(1-\mathrm{y3})-\mathrm{beta\_y3}\mathrm{y3}$ $\frac{1}{400000e^{\frac{\mathrm{Vm}}{9}}+60e^{\frac{\mathrm{Vm}}{65}}}$ $\frac{1}{700e^{\frac{-\mathrm{Vm}}{14}}+60e^{\frac{-\mathrm{Vm}}{65}}}$ $\mathrm{i\_st\_Na}+\mathrm{i\_st\_K}$ $\mathrm{P\_st\_Na}\mathrm{CF\_Na}\mathrm{y1}\mathrm{y2}\mathrm{y3}$ $\mathrm{P\_st\_K}\mathrm{CF\_K}\mathrm{y1}\mathrm{y2}\mathrm{y3}$ $\mathrm{alpha}\mathrm{C2}+\mathrm{beta}\mathrm{O2}-(\mathrm{alpha}+\mathrm{beta})\mathrm{O1}$ $\mathrm{alpha}\mathrm{O1}+\mathrm{beta}\mathrm{O3}-(\mathrm{alpha}+\mathrm{beta})\mathrm{O2}$ $1-\mathrm{C1}-\mathrm{C2}-\mathrm{O1}-\mathrm{O2}$ $\mathrm{lambda}\mathrm{C2}-\mathrm{mu}\mathrm{C1}$ $\mathrm{mu}\mathrm{C1}+\mathrm{beta}\mathrm{O1}-(\mathrm{alpha}+\mathrm{lambda})\mathrm{C2}$ $\frac{1}{3500e^{\frac{\mathrm{Vm}}{16.8}}+0.3e^{\frac{\mathrm{Vm}}{400}}}$ $\frac{1}{4e^{\frac{-\mathrm{Vm}}{14}}+2e^{\frac{-\mathrm{Vm}}{400}}}$ $\frac{1}{45000000e^{\frac{\mathrm{Vm}}{8}}+500e^{\frac{\mathrm{Vm}}{200}}}$ $\frac{1}{10.5e^{\frac{-\mathrm{Vm}}{16.4}}+0.4e^{\frac{-\mathrm{Vm}}{400}}}$ $\mathrm{i\_ha\_Na}+\mathrm{i\_ha\_K}$ $\mathrm{P\_ha\_Na}\mathrm{CF\_Na}(1-\mathrm{C1}-\mathrm{C2})$ $\mathrm{P\_ha\_K}\mathrm{CF\_K}(1-\mathrm{C1}-\mathrm{C2})$ $\mathrm{alpha\_y}(1-y)-\mathrm{beta\_y}y$ $\frac{1}{8000e^{\frac{\mathrm{Vm}-\mathrm{E\_K}-97}{8.5}}+7e^{\frac{\mathrm{Vm}-\mathrm{E\_K}-97}{300}}}$ $\frac{\mathrm{fO}^4\times 1}{0.00014e^{\frac{-(\mathrm{Vm}-\mathrm{E\_K}-97)}{9.1}}+0.2e^{\frac{-(\mathrm{Vm}-\mathrm{E\_K}-97)}{500}}}$ $\mathrm{g\_K1}(\mathrm{Vm}-\mathrm{E\_K})(\mathrm{fO4}+\mathrm{fO3}+\mathrm{fO2})y$ $\frac{RT}{F}\ln \left(\frac{\mathrm{Ko}}{\mathrm{Ki}}\right)$ $\mathrm{P\_K1\_0}\mathrm{Cm}\left(\frac{\mathrm{Ko}}{5.4}\right)^{0.4}$ $\frac{\mathrm{lambda}}{\mathrm{mu}+\mathrm{lambda}}$ $2\mathrm{fO}^2\mathrm{fB}^2$ $\frac{8}{3}\mathrm{fO}^3\mathrm{fB}$ $\mathrm{fO}^4$ $\frac{\mathrm{mu}}{\mathrm{mu}+\mathrm{lambda}}$ $\frac{0.75e^{0.035(\mathrm{Vm}-\mathrm{E\_K}-10)}}{1+e^{0.015(\mathrm{Vm}-\mathrm{E\_K}-140)}}$ $\frac{3e^{-0.048(\mathrm{Vm}-\mathrm{E\_K}-10)}(1+e^{0.064(\mathrm{Vm}-\mathrm{E\_K}-38)})}{1+e^{0.03(\mathrm{Vm}-\mathrm{E\_K}-70)}}$ $\mathrm{alpha\_y1}(1-\mathrm{y1})-\mathrm{beta\_y1}\mathrm{y1}$ $\frac{1}{20e^{\frac{-\mathrm{Vm}}{11.5}}+5e^{\frac{-\mathrm{Vm}}{300}}}$ $\frac{1}{160e^{\frac{\mathrm{Vm}}{28}}+200e^{\frac{\mathrm{Vm}}{1000}}}+\frac{1}{2500e^{\frac{\mathrm{Vm}}{20}}}$ $\mathrm{alpha\_y2}(1-\mathrm{y2})-\mathrm{beta\_y2}\mathrm{y2}$ $\frac{1}{200e^{\frac{-\mathrm{Vm}}{13}}+20e^{\frac{-\mathrm{Vm}}{300}}}$ $\frac{1}{1600e^{\frac{\mathrm{Vm}}{28}}+2000e^{\frac{\mathrm{Vm}}{1000}}}+\frac{1}{10000e^{\frac{\mathrm{Vm}}{20}}}$ $\mathrm{alpha\_y3}(1-\mathrm{y3})-\mathrm{beta\_y3}\mathrm{y3}$ $\frac{1}{10e^{\frac{\mathrm{Vm}}{17}}+2.5e^{\frac{\mathrm{Vm}}{300}}}$ $\frac{1}{0.35e^{\frac{-\mathrm{Vm}}{17}}+2e^{\frac{-\mathrm{Vm}}{150}}}$ $\mathrm{g\_Kr}(\mathrm{Vm}-\mathrm{E\_K})(0.6\mathrm{y1}+0.4\mathrm{y2})\mathrm{y3}$ $\mathrm{P\_Kr}\mathrm{Cm}\left(\frac{\mathrm{Ko}}{5.4}\right)^{0.2}$ $\mathrm{alpha\_y}(1-y)-\mathrm{beta\_y}y$ $\begin{cases}0.0002475 & \text{if $\mathrm{ACh}=0$}\\ \frac{0.01232}{1+\frac{\mathrm{Km\_ACh}}{\mathrm{ACh}}}+0.0002475 & \text{otherwise}\end{cases}$ $0.01e^{0.0133(\mathrm{Vm}+40)}$ $\frac{\mathrm{g\_ACh}(\mathrm{Vm}-\mathrm{E\_K})}{1+e^{\frac{\mathrm{Vm}+20}{20}}}y$ $\mathrm{i\_bNSC\_K}+\mathrm{i\_bNSC\_Na}$ $\mathrm{P\_bNSC}\mathrm{CF\_Na}$ $0.4\mathrm{P\_bNSC}\mathrm{CF\_K}$ $\begin{cases}\mathrm{P\_Kpl}\mathrm{CF\_K}\times 13.0077 & \text{if $\mathrm{Vm}=-3$}\\ \frac{\mathrm{P\_Kpl}\mathrm{CF\_K}(\mathrm{Vm}+3)}{1-e^{\frac{-(\mathrm{Vm}+3)}{13}}} & \text{otherwise}\end{cases}$ $0.007\left(\frac{\mathrm{Ko}}{5.4}\right)^{0.16}$ $\mathrm{i\_lCa\_K}+\mathrm{i\_lCa\_Na}$ $\mathrm{P\_lCa}\mathrm{CF\_Na}\mathrm{p\_open}$ $\mathrm{P\_lCa}\mathrm{CF\_K}\mathrm{p\_open}$ $\frac{1}{1+\left(\frac{0.0012}{\mathrm{Cai}}\right)^3}$ $\mathrm{gamma}(\mathrm{Vm}-\mathrm{E\_K})\mathrm{p\_open}$ $\frac{0.8}{1+\left(\frac{\mathrm{ATPi}}{0.1}\right)^2}$ $\mathrm{P\_KATP}N\left(\frac{\mathrm{Ko}}{1}\right)^{0.24}$ $\mathrm{P\_Cab}\mathrm{CF\_Ca}$ $\mathrm{alpha\_y}(1-y)-\mathrm{beta\_y}y$ $\mathrm{k2}\mathrm{p\_E2Na}+\mathrm{k4}\mathrm{p\_E2Ca}$ $\mathrm{k1}\mathrm{p\_E1Na}+\mathrm{k3}\mathrm{p\_E1Ca}$ $\mathrm{P\_NaCa}\mathrm{Cm}\times 1(\mathrm{k1}\mathrm{p\_E1Na}y-\mathrm{k2}\mathrm{p\_E2Na}(1-y))$ $\frac{1}{1+\left(\frac{\mathrm{Km\_Nao}}{\mathrm{Nao}}\right)^3(1+\frac{\mathrm{Cao}}{\mathrm{Km\_Cao}})}$ $\frac{1}{1+\left(\frac{\mathrm{Km\_Nai}}{\mathrm{Nai}}\right)^3(1+\frac{\mathrm{Cai}}{\mathrm{Km\_Cai}})}$ $\frac{1}{1+\frac{\mathrm{Km\_Cai}}{\mathrm{Cai}}(1+\left(\frac{\mathrm{Nai}}{\mathrm{Km\_Nai}}\right)^3)}$ $\frac{1}{1+\frac{\mathrm{Km\_Cao}}{\mathrm{Cao}}(1+\left(\frac{\mathrm{Nao}}{\mathrm{Km\_Nao}}\right)^3)}$ $1e^{\frac{\mathrm{Partition}F\mathrm{Vm}}{RT}}$ $1e^{\frac{(\mathrm{Partition}-1)F\mathrm{Vm}}{RT}}$ $\mathrm{alpha\_y}(1-y)-\mathrm{beta\_y}y$ $\mathrm{k2}\mathrm{p\_E2Na}+\mathrm{k4}\mathrm{p\_E2K}$ $\mathrm{k1}\mathrm{p\_E1Na}+\mathrm{k3}\mathrm{p\_E1K}$ $\mathrm{P\_NaK}\mathrm{Cm}\times 1(\mathrm{k1}\mathrm{p\_E1Na}y-\mathrm{k2}\mathrm{p\_E2Na}(1-y))$ $\frac{1}{1+\left(\frac{\mathrm{Km\_Nao}}{\mathrm{Nao\_Eff}}\right)^{1.06}(1+\left(\frac{\mathrm{Ko}}{\mathrm{Km\_Ko}}\right)^{1.12})}$ $\frac{1}{1+\left(\frac{\mathrm{Km\_Nai}}{\mathrm{Nai}}\right)^{1.06}(1+\left(\frac{\mathrm{Ki}}{\mathrm{Km\_Ki}}\right)^{1.12})}$ $\frac{1}{1+\left(\frac{\mathrm{Km\_Ki}}{\mathrm{Ki}}\right)^{1.12}(1+\left(\frac{\mathrm{Nai}}{\mathrm{Km\_Nai}}\right)^{1.06})}$ $\frac{1}{1+\left(\frac{\mathrm{Km\_Ko}}{\mathrm{Ko}}\right)^{1.12}(1+\left(\frac{\mathrm{Nao\_Eff}}{\mathrm{Km\_Nao}}\right)^{1.06})}$ $\frac{0.37}{1+\frac{\mathrm{Km\_ATP}}{\mathrm{ATPi}}}$ $\mathrm{Nao}e^{\frac{-0.82F\mathrm{Vm}}{RT}}$ $\mathrm{alpha\_y}(1-y)-\mathrm{beta\_y}y$ $\mathrm{k2}\mathrm{p\_E2Ca}+\mathrm{k4}\mathrm{p\_E2}$ $\mathrm{k1}\mathrm{p\_E1Ca}+\mathrm{k3}\mathrm{p\_E1}$ $\mathrm{i\_max}\times 1(\mathrm{k1}\mathrm{p\_E1Ca}y-\mathrm{k2}\mathrm{p\_E2Ca}(1-y))$ $\frac{1}{1+\frac{\mathrm{Km\_CaCyto}}{\mathrm{Cai}}}$ $\frac{1}{1+\frac{\mathrm{Km\_CaSR}}{\mathrm{Caup}}}$ $1-\mathrm{p\_E1Ca}$ $1-\mathrm{p\_E2Ca}$ $\frac{1}{1+\frac{\mathrm{Km\_ATP}}{\mathrm{ATPi}}}$ $\mathrm{P\_RyR}(\mathrm{Carel}-\mathrm{Cai})\mathrm{p\_open\_RyR}$ $280000\left(\frac{\mathrm{Cai}}{1}\right)^2+\mathrm{Diadid\_Factor}\mathrm{CaDiadic}$ $\frac{0.08}{1+\frac{0.36}{\mathrm{Carel}}}$ $0.000377\left(\frac{\mathrm{Carel}}{1}\right)^2$ $\mathrm{p\_close\_RyR}\mathrm{k1}-\mathrm{p\_open\_RyR}\mathrm{k2}$ $\mathrm{k3}(1-\mathrm{p\_open\_RyR}+\mathrm{p\_close\_RyR})-(\mathrm{k1}+\mathrm{k4})\mathrm{p\_close\_RyR}$ $\mathrm{P\_SR\_T}(\mathrm{Caup}-\mathrm{Carel})$ $\mathrm{P\_SR\_L}(\mathrm{Caup}-\mathrm{Cai})$ $\frac{\mathrm{i\_SR\_T}-\mathrm{i\_RyR}}{2F\mathrm{V\_rel}}$ $\frac{\sqrt{\mathrm{b1}^2+4\mathrm{c1}}-\mathrm{b1}}{2}$ $\frac{-\mathrm{i\_SR\_U}-\mathrm{i\_SR\_T}-\mathrm{i\_SR\_L}}{2F\mathrm{V\_up}}$ $\mathrm{CSQN\_max}-\mathrm{Ca\_Total}+\mathrm{K\_mCSQN}$ $\mathrm{K\_mCSQN}\mathrm{Ca\_Total}$ $\mathrm{T\_t}(\mathrm{Q\_d2}+\mathrm{Q\_r}-\mathrm{Q\_b})$ $-0.4\mathrm{pCaCB}\mathrm{T\_t}$ $e^{-20(L-\mathrm{L\_a})^2}$ $\mathrm{Q\_b}-\mathrm{Q\_a}$ $\mathrm{Q\_a}-\mathrm{Q\_r}-\mathrm{Q\_d2}$ $\mathrm{Q\_r}-\mathrm{Q\_d}-\mathrm{Q\_d1}$ $1-\mathrm{pCa}-\mathrm{pCaCB}-\mathrm{pCB}$ $\mathrm{Y\_2}\mathrm{pCa}\mathrm{EffFraction}-\mathrm{Z\_2}\mathrm{pCaCB}$ $\mathrm{Y\_1}\mathrm{Cai}p-\mathrm{Z\_1}\mathrm{pCa}$ $\mathrm{Y\_3}\mathrm{pCaCB}-\mathrm{Z\_3}\mathrm{pCB}\mathrm{Cai}$ $\mathrm{Y\_4}\mathrm{pCB}$ $\mathrm{Y\_d}\left(\frac{d(X)}{d(\mathrm{unknown}-\mathrm{element})}\right)^2\mathrm{pCB}$ $\mathrm{Y\_d}\left(\frac{d(X)}{d(\mathrm{unknown}-\mathrm{element})}\right)^2\mathrm{pCaCB}$ $L-X$ $\mathrm{NewCBF}h$ $B(h-\mathrm{h\_c})$ $\mathrm{ForceFactor}\mathrm{CBBound}$ $\mathrm{T\_t}(\mathrm{pCaCB}+\mathrm{pCB})$ $\mathrm{KForceEC}(\mathrm{ZeroForceEL}-L)^5+\mathrm{KForceLinearEc}(\mathrm{ZeroForceEL}-L)$ $-\mathrm{ForceEcomp}+\mathrm{ForceCB}$