docs/release_2017.1/NhsContractionModel_8cpp_source.html

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 */
 #include "NhsContractionModel.hpp"
 #include "OdeSystemInformation.hpp"
 #include "EulerIvpOdeSolver.hpp"
 #include "UblasCustomFunctions.hpp"

 #include <cmath>

 //
 // Model-scope constant parameters
 //
 const double NhsContractionModel::mKon = 100;
 const double NhsContractionModel::mKrefoff = 0.2;
 const double NhsContractionModel::mGamma = 2;
 const double NhsContractionModel::mCalciumTroponinMax = 0.07;
 const double NhsContractionModel::mAlphaR1 = 0.002;
 const double NhsContractionModel::mAlphaR2 = 0.0017;
 const double NhsContractionModel::mKZ = 0.15;
 const unsigned NhsContractionModel::mNr = 3u;
 const double NhsContractionModel::mBeta1 = -4;
 const double NhsContractionModel::mAlpha0 = 0.008;
 const unsigned NhsContractionModel::mN = 3u;
 const double NhsContractionModel::mZp = 0.85;
 const double NhsContractionModel::mCalcium50ref = 0.00105;
 const double NhsContractionModel::mTref = 56.2;
 const double NhsContractionModel::mBeta0 = 4.9;
 const double NhsContractionModel::mA = 0.35;
 const double NhsContractionModel::mA1 = -29;
 const double NhsContractionModel::mA2 = 138;
 const double NhsContractionModel::mA3 = 129;
 const double NhsContractionModel::mAlpha1 = 0.03;
 const double NhsContractionModel::mAlpha2 = 0.130;
 const double NhsContractionModel::mAlpha3 = 0.625;


 /*
  * ============================== PRIVATE FUNCTIONS =====================================
  */
 void NhsContractionModel::CalculateCalciumTrop50()
 {
     double Ca50ref_times_one_plus_beta1_times_lam_minus_one = mCalcium50ref * (1 + mBeta1*(mLambda-1));
     double one_plus_beta0_times_lam_minus_one_over_two_gamma = (1 + mBeta0*(mLambda-1))/(2*mGamma);

     mCalciumTrop50 = mCalciumTroponinMax * Ca50ref_times_one_plus_beta1_times_lam_minus_one;
     mCalciumTrop50 /= (Ca50ref_times_one_plus_beta1_times_lam_minus_one + (1-one_plus_beta0_times_lam_minus_one_over_two_gamma)*mKrefoff/mKon);
 }


 double NhsContractionModel::CalculateT0(double z)
 {
     double calcium_ratio_to_n = SmallPow(mCalciumTrop50/mCalciumTroponinMax, mN);

     double z_max = mAlpha0 - mK2*calcium_ratio_to_n;
     z_max /= mAlpha0 + (mAlphaR1 + mK1)*calcium_ratio_to_n;

     return z * mTref * (1+mBeta0*(mLambda-1)) / z_max;
 }

 /*
  * ============================== PUBLIC FUNCTIONS =====================================
  */

 NhsContractionModel::NhsContractionModel()
     :   AbstractOdeBasedContractionModel(5) // five state variables
 {
     mpSystemInfo = OdeSystemInformation<NhsContractionModel>::Instance();
     ResetToInitialConditions();

     mLambda = 1.0;
     mDLambdaDt = 0.0;
     mCalciumI = 0.0;

     // Initialise mCalciumTrop50!!
     CalculateCalciumTrop50();

     double zp_to_n_plus_K_to_n = SmallPow(mZp,mNr) + SmallPow(mKZ,mNr);

     mK1 = mAlphaR2 * SmallPow(mZp,mNr-1) * mNr * SmallPow(mKZ,mNr);
     mK1 /= zp_to_n_plus_K_to_n * zp_to_n_plus_K_to_n;

     mK2 = mAlphaR2 * SmallPow(mZp,mNr)/zp_to_n_plus_K_to_n;
     mK2 *= 1 - mNr*SmallPow(mKZ,mNr)/zp_to_n_plus_K_to_n;
 }

 void NhsContractionModel::SetStretchAndStretchRate(double lambda, double dlambdaDt)
 {
     assert(lambda>0.0);
     mLambda = lambda;
     mDLambdaDt = dlambdaDt;
     // lambda changed so update mCalciumTrop50!!
     CalculateCalciumTrop50();
 }

 void NhsContractionModel::SetInputParameters(ContractionModelInputParameters& rInputParameters)
 {
     assert(rInputParameters.intracellularCalciumConcentration != DOUBLE_UNSET);
     assert(rInputParameters.intracellularCalciumConcentration > 0.0);
     mCalciumI = rInputParameters.intracellularCalciumConcentration;
 }

 void NhsContractionModel::SetIntracellularCalciumConcentration(double calciumConcentration)
 {
     assert(calciumConcentration > 0.0);
     mCalciumI = calciumConcentration;
 }

 double NhsContractionModel::GetCalciumTroponinValue()
 {
     return mStateVariables[0];
 }

 void NhsContractionModel::EvaluateYDerivatives(double time,
                                                const std::vector<double> &rY,
                                                std::vector<double> &rDY)
 {

     const double& calcium_troponin = rY[0];
     const double& z = rY[1];
     const double& Q1 = rY[2];
     const double& Q2 = rY[3];
     const double& Q3 = rY[4];

     // check the state vars are in the expected range
     // LCOV_EXCL_START
     if (calcium_troponin < 0)
     {
         EXCEPTION("CalciumTrop concentration went negative");
     }
     if (z<0)
     {
         EXCEPTION("z went negative");
     }
     if (z>1)
     {
         EXCEPTION("z became greater than 1");
     }
     // LCOV_EXCL_STOP


     double Q = Q1 + Q2 + Q3;
     double T0 = CalculateT0(z);

     double Ta;
     if (Q>0)
     {
         Ta = T0*(1+(2+mA)*Q)/(1+Q);
     }
     else
     {
         Ta = T0*(1+mA*Q)/(1-Q);
     }

     rDY[0] =   mKon * mCalciumI * ( mCalciumTroponinMax - calcium_troponin)
              - mKrefoff * (1-Ta/(mGamma*mTref)) * calcium_troponin;

     double ca_trop_to_ca_trop50_ratio_to_n = SmallPow(calcium_troponin/mCalciumTrop50, mN);

     rDY[1] =   mAlpha0 * ca_trop_to_ca_trop50_ratio_to_n * (1-z)
              - mAlphaR1 * z
              - mAlphaR2 * SmallPow(z,mNr) / (SmallPow(z,mNr) + SmallPow(mKZ,mNr));


     rDY[2] = mA1 * mDLambdaDt - mAlpha1 * Q1;
     rDY[3] = mA2 * mDLambdaDt - mAlpha2 * Q2;
     rDY[4] = mA3 * mDLambdaDt - mAlpha3 * Q3;
 }


 double NhsContractionModel::GetActiveTension()
 {
     double T0 = CalculateT0(mStateVariables[1]);
     double Q = mStateVariables[2]+mStateVariables[3]+mStateVariables[4];

     if (Q>0)
     {
         return T0*(1+(2+mA)*Q)/(1+Q);
     }
     else
     {
         return T0*(1+mA*Q)/(1-Q);
     }
 }

 template<>
 void OdeSystemInformation<NhsContractionModel>::Initialise(void)
 {
     this->mVariableNames.push_back("CalciumTroponin");
     this->mVariableUnits.push_back("microMols");
     this->mInitialConditions.push_back(0);

     this->mVariableNames.push_back("z");
     this->mVariableUnits.push_back("");
     this->mInitialConditions.push_back(0);

     this->mVariableNames.push_back("Q1");
     this->mVariableUnits.push_back("");
     this->mInitialConditions.push_back(0);

     this->mVariableNames.push_back("Q2");
     this->mVariableUnits.push_back("");
     this->mInitialConditions.push_back(0);

     this->mVariableNames.push_back("Q3");
     this->mVariableUnits.push_back("");
     this->mInitialConditions.push_back(0);

     this->mInitialised = true;
 }
OdeSystemInformation::Instance
static boost::shared_ptr< OdeSystemInformation< ODE_SYSTEM > > Instance()
Definition: OdeSystemInformation.hpp:114

NhsContractionModel::mLambda
double mLambda
Definition: NhsContractionModel.hpp:62

NhsContractionModel::mBeta0
static const double mBeta0
Definition: NhsContractionModel.hpp:122

NhsContractionModel::SetStretchAndStretchRate
void SetStretchAndStretchRate(double lambda, double dlambdaDt)
Definition: NhsContractionModel.cpp:118

OdeSystemInformation::Initialise
void Initialise()
Definition: OdeSystemInformation.hpp:132

ContractionModelInputParameters_
Definition: AbstractContractionModel.hpp:46

NhsContractionModel::CalculateT0
double CalculateT0(double z)
Definition: NhsContractionModel.cpp:82

SmallPow
double SmallPow(double x, unsigned exponent)
Definition: MathsCustomFunctions.cpp:41

AbstractParameterisedSystem< std::vector< double > >::mStateVariables
std::vector< double > mStateVariables
Definition: AbstractParameterisedSystem.hpp:71

NhsContractionModel::mTref
static const double mTref
Definition: NhsContractionModel.hpp:119

EXCEPTION
#define EXCEPTION(message)
Definition: Exception.hpp:143

AbstractParameterisedSystem< std::vector< double > >::ResetToInitialConditions
void ResetToInitialConditions()

NhsContractionModel::GetActiveTension
double GetActiveTension()
Definition: NhsContractionModel.cpp:203

NhsContractionModel::mKZ
static const double mKZ
Definition: NhsContractionModel.hpp:98

NhsContractionModel::mNr
static const unsigned mNr
Definition: NhsContractionModel.hpp:101

AbstractOdeBasedContractionModel
Definition: AbstractOdeBasedContractionModel.hpp:58

NhsContractionModel::mZp
static const double mZp
Definition: NhsContractionModel.hpp:113

NhsContractionModel::mAlphaR1
static const double mAlphaR1
Definition: NhsContractionModel.hpp:92

DOUBLE_UNSET
const double DOUBLE_UNSET
Definition: Exception.hpp:56

NhsContractionModel::mCalciumTrop50
double mCalciumTrop50
Definition: NhsContractionModel.hpp:70

NhsContractionModel::mAlpha0
static const double mAlpha0
Definition: NhsContractionModel.hpp:107

NhsContractionModel::SetInputParameters
void SetInputParameters(ContractionModelInputParameters &rInputParameters)
Definition: NhsContractionModel.cpp:127

NhsContractionModel::mN
static const unsigned mN
Definition: NhsContractionModel.hpp:110

NhsContractionModel::mAlpha3
static const double mAlpha3
Definition: NhsContractionModel.hpp:143

NhsContractionModel::NhsContractionModel
NhsContractionModel()
Definition: NhsContractionModel.cpp:96

NhsContractionModel::GetCalciumTroponinValue
double GetCalciumTroponinValue()
Definition: NhsContractionModel.cpp:140

NhsContractionModel::mCalciumTroponinMax
static const double mCalciumTroponinMax
Definition: NhsContractionModel.hpp:89

NhsContractionModel::SetIntracellularCalciumConcentration
void SetIntracellularCalciumConcentration(double calciumConcentration)
Definition: NhsContractionModel.cpp:134

NhsContractionModel::EvaluateYDerivatives
void EvaluateYDerivatives(double time, const std::vector< double > &rY, std::vector< double > &rDY)
Definition: NhsContractionModel.cpp:145

NhsContractionModel::mK2
double mK2
Definition: NhsContractionModel.hpp:75

NhsContractionModel::mBeta1
static const double mBeta1
Definition: NhsContractionModel.hpp:104

NhsContractionModel::mA
static const double mA
Definition: NhsContractionModel.hpp:125

NhsContractionModel::mCalciumI
double mCalciumI
Definition: NhsContractionModel.hpp:66

ContractionModelInputParameters_::intracellularCalciumConcentration
double intracellularCalciumConcentration
Definition: AbstractContractionModel.hpp:49

NhsContractionModel::mA2
static const double mA2
Definition: NhsContractionModel.hpp:131

NhsContractionModel::CalculateCalciumTrop50
void CalculateCalciumTrop50()
Definition: NhsContractionModel.cpp:72

AbstractUntemplatedParameterisedSystem::mpSystemInfo
boost::shared_ptr< AbstractOdeSystemInformation > mpSystemInfo
Definition: AbstractUntemplatedParameterisedSystem.hpp:301

NhsContractionModel::mK1
double mK1
Definition: NhsContractionModel.hpp:73

NhsContractionModel::mCalcium50ref
static const double mCalcium50ref
Definition: NhsContractionModel.hpp:116

NhsContractionModel::mA3
static const double mA3
Definition: NhsContractionModel.hpp:134

NhsContractionModel::mAlpha2
static const double mAlpha2
Definition: NhsContractionModel.hpp:140

NhsContractionModel::mGamma
static const double mGamma
Definition: NhsContractionModel.hpp:86

NhsContractionModel::mKon
static const double mKon
Definition: NhsContractionModel.hpp:80

UblasCustomFunctions.hpp

NhsContractionModel::mDLambdaDt
double mDLambdaDt
Definition: NhsContractionModel.hpp:64

NhsContractionModel::mAlpha1
static const double mAlpha1
Definition: NhsContractionModel.hpp:137

NhsContractionModel::mAlphaR2
static const double mAlphaR2
Definition: NhsContractionModel.hpp:95

NhsContractionModel::mKrefoff
static const double mKrefoff
Definition: NhsContractionModel.hpp:83

NhsContractionModel::mA1
static const double mA1
Definition: NhsContractionModel.hpp:128