LinearSpringWithVariableSpringConstantsForce.cpp

00001 /*
00002 
00003 Copyright (C) University of Oxford, 2005-2011
00004 
00005 University of Oxford means the Chancellor, Masters and Scholars of the
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00007 Square, Oxford OX1 2JD, UK.
00008 
00009 This file is part of Chaste.
00010 
00011 Chaste is free software: you can redistribute it and/or modify it
00012 under the terms of the GNU Lesser General Public License as published
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00014 (at your option) any later version.
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00016 Chaste is distributed in the hope that it will be useful, but WITHOUT
00017 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
00018 FITNESS FOR A PARTICULAR PURPOSE.  See the GNU Lesser General Public
00019 License for more details. The offer of Chaste under the terms of the
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00022 being under the jurisdiction of the English Courts.
00023 
00024 You should have received a copy of the GNU Lesser General Public License
00025 along with Chaste. If not, see <http://www.gnu.org/licenses/>.
00026 
00027 */
00028 
00029 #include "LinearSpringWithVariableSpringConstantsForce.hpp"
00030 #include "MeshBasedCellPopulation.hpp"
00031 #include "VanLeeuwen2009WntSwatCellCycleModelHypothesisOne.hpp"
00032 #include "VanLeeuwen2009WntSwatCellCycleModelHypothesisTwo.hpp"
00033 #include "ApoptoticCellProperty.hpp"
00034 
00035 template<unsigned DIM>
00036 LinearSpringWithVariableSpringConstantsForce<DIM>::LinearSpringWithVariableSpringConstantsForce()
00037     : GeneralisedLinearSpringForce<DIM>(),
00038       mUseEdgeBasedSpringConstant(false),
00039       mUseMutantSprings(false),
00040       mMutantMutantMultiplier(DOUBLE_UNSET),
00041       mNormalMutantMultiplier(DOUBLE_UNSET),
00042       mUseBCatSprings(false),
00043       mUseApoptoticSprings(false),
00044       mBetaCatSpringScaler(18.14/6.0), // scale spring constant with beta-catenin level (divided by 6 for heaxagonal cells)
00045       mApoptoticSpringTensionStiffness(15.0*0.25),
00046       mApoptoticSpringCompressionStiffness(15.0*0.75)
00047 {
00048 }
00049 
00050 template<unsigned DIM>
00051 LinearSpringWithVariableSpringConstantsForce<DIM>::~LinearSpringWithVariableSpringConstantsForce()
00052 {
00053 }
00054 
00055 template<unsigned DIM>
00056 void LinearSpringWithVariableSpringConstantsForce<DIM>::SetEdgeBasedSpringConstant(bool useEdgeBasedSpringConstant)
00057 {
00058     assert(DIM == 2);
00059     mUseEdgeBasedSpringConstant = useEdgeBasedSpringConstant;
00060 }
00061 
00062 template<unsigned DIM>
00063 void LinearSpringWithVariableSpringConstantsForce<DIM>::SetMutantSprings(bool useMutantSprings, double mutantMutantMultiplier, double normalMutantMultiplier)
00064 {
00065     mUseMutantSprings = useMutantSprings;
00066     mMutantMutantMultiplier = mutantMutantMultiplier;
00067     mNormalMutantMultiplier = normalMutantMultiplier;
00068 }
00069 
00070 template<unsigned DIM>
00071 void LinearSpringWithVariableSpringConstantsForce<DIM>::SetBetaCateninSprings(bool useBCatSprings)
00072 {
00073     mUseBCatSprings = useBCatSprings;
00074 }
00075 
00076 template<unsigned DIM>
00077 void LinearSpringWithVariableSpringConstantsForce<DIM>::SetApoptoticSprings(bool useApoptoticSprings)
00078 {
00079     mUseApoptoticSprings = useApoptoticSprings;
00080 }
00081 
00082 template<unsigned DIM>
00083 double LinearSpringWithVariableSpringConstantsForce<DIM>::VariableSpringConstantMultiplicationFactor(
00084     unsigned nodeAGlobalIndex,
00085     unsigned nodeBGlobalIndex,
00086     AbstractCellPopulation<DIM>& rCellPopulation,
00087     bool isCloserThanRestLength)
00088 {
00089 
00090     double multiplication_factor = GeneralisedLinearSpringForce<DIM>::VariableSpringConstantMultiplicationFactor(nodeAGlobalIndex,
00091                                                                                                             nodeBGlobalIndex,
00092                                                                                                             rCellPopulation,
00093                                                                                                             isCloserThanRestLength);
00094 
00095     CellPtr p_cell_A = rCellPopulation.GetCellUsingLocationIndex(nodeAGlobalIndex);
00096     CellPtr p_cell_B = rCellPopulation.GetCellUsingLocationIndex(nodeBGlobalIndex);
00097 
00098     if (mUseEdgeBasedSpringConstant)
00099     {
00100         assert(rCellPopulation.IsMeshBasedCellPopulation());
00101         assert(!mUseBCatSprings);   // don't want to do both (both account for edge length)
00102 
00103         multiplication_factor = (static_cast<MeshBasedCellPopulation<DIM>*>(&rCellPopulation))->GetVoronoiEdgeLength(nodeAGlobalIndex, nodeBGlobalIndex)*sqrt(3);
00104     }
00105 
00106     if (mUseMutantSprings)
00107     {
00108         unsigned number_of_mutants = 0;
00109 
00110         if (p_cell_A->GetMutationState()->IsType<ApcTwoHitCellMutationState>() || p_cell_A->GetMutationState()->IsType<BetaCateninOneHitCellMutationState>())
00111         {
00112             // If cell A is mutant
00113             number_of_mutants++;
00114         }
00115 
00116         if (p_cell_B->GetMutationState()->IsType<ApcTwoHitCellMutationState>() || p_cell_B->GetMutationState()->IsType<BetaCateninOneHitCellMutationState>())
00117         {
00118             // If cell B is mutant
00119             number_of_mutants++;
00120         }
00121 
00122         switch (number_of_mutants)
00123         {
00124             case 1u:
00125             {
00126                 multiplication_factor *= mNormalMutantMultiplier;
00127                 break;
00128             }
00129             case 2u:
00130             {
00131                 multiplication_factor *= mMutantMutantMultiplier;
00132                 break;
00133             }
00134         }
00135     }
00136 
00137     if (mUseBCatSprings)
00138     {
00139         assert(rCellPopulation.IsMeshBasedCellPopulation());
00140         // If using beta-cat dependent springs, both cell-cycle models had better be VanLeeuwen2009WntSwatCellCycleModel
00141         AbstractVanLeeuwen2009WntSwatCellCycleModel* p_model_A = dynamic_cast<AbstractVanLeeuwen2009WntSwatCellCycleModel*>(p_cell_A->GetCellCycleModel());
00142         AbstractVanLeeuwen2009WntSwatCellCycleModel* p_model_B = dynamic_cast<AbstractVanLeeuwen2009WntSwatCellCycleModel*>(p_cell_B->GetCellCycleModel());
00143 
00144         assert(!mUseEdgeBasedSpringConstant);   // This already adapts for edge lengths - don't want to do it twice.
00145         double beta_cat_cell_1 = p_model_A->GetMembraneBoundBetaCateninLevel();
00146         double beta_cat_cell_2 = p_model_B->GetMembraneBoundBetaCateninLevel();
00147 
00148         MeshBasedCellPopulation<DIM>* p_static_cast_cell_population = (static_cast<MeshBasedCellPopulation<DIM>*>(&rCellPopulation));
00149 
00150         double perim_cell_1 = p_static_cast_cell_population->GetSurfaceAreaOfVoronoiElement(nodeAGlobalIndex);
00151         double perim_cell_2 = p_static_cast_cell_population->GetSurfaceAreaOfVoronoiElement(nodeBGlobalIndex);
00152         double edge_length_between_1_and_2 = p_static_cast_cell_population->GetVoronoiEdgeLength(nodeAGlobalIndex, nodeBGlobalIndex);
00153 
00154         double beta_cat_on_cell_1_edge = beta_cat_cell_1 *  edge_length_between_1_and_2 / perim_cell_1;
00155         double beta_cat_on_cell_2_edge = beta_cat_cell_2 *  edge_length_between_1_and_2 / perim_cell_2;
00156 
00157         double min_beta_Cat_of_two_cells = std::min(beta_cat_on_cell_1_edge, beta_cat_on_cell_2_edge);
00158 
00159         multiplication_factor *= min_beta_Cat_of_two_cells / mBetaCatSpringScaler;
00160     }
00161 
00162     if (mUseApoptoticSprings)
00163     {
00164         bool cell_A_is_apoptotic = p_cell_A->HasCellProperty<ApoptoticCellProperty>();
00165         bool cell_B_is_apoptotic = p_cell_B->HasCellProperty<ApoptoticCellProperty>();
00166 
00167         if (cell_A_is_apoptotic || cell_B_is_apoptotic)
00168         {
00169             double spring_a_stiffness = 2.0 * this->GetMeinekeSpringStiffness();
00170             double spring_b_stiffness = 2.0 * this->GetMeinekeSpringStiffness();
00171 
00172             if (cell_A_is_apoptotic)
00173             {
00174                 if (!isCloserThanRestLength) // if under tension
00175                 {
00176                     spring_a_stiffness = mApoptoticSpringTensionStiffness;
00177                 }
00178                 else // if under compression
00179                 {
00180                     spring_a_stiffness = mApoptoticSpringCompressionStiffness;
00181                 }
00182             }
00183             if (cell_B_is_apoptotic)
00184             {
00185                 if (!isCloserThanRestLength) // if under tension
00186                 {
00187                     spring_b_stiffness = mApoptoticSpringTensionStiffness;
00188                 }
00189                 else // if under compression
00190                 {
00191                     spring_b_stiffness = mApoptoticSpringCompressionStiffness;
00192                 }
00193             }
00194 
00195             multiplication_factor /= (1.0/spring_a_stiffness + 1.0/spring_b_stiffness)*this->GetMeinekeSpringStiffness();
00196         }
00197     }
00198 
00199     return multiplication_factor;
00200 }
00201 
00202 template<unsigned DIM>
00203 void LinearSpringWithVariableSpringConstantsForce<DIM>::AddForceContribution(std::vector<c_vector<double, DIM> >& rForces,
00204                                                                              AbstractCellPopulation<DIM>& rCellPopulation)
00205 {
00206     // Throw an exception message if not using a MeshBasedCellPopulation
00207     if (dynamic_cast<MeshBasedCellPopulation<DIM>*>(&rCellPopulation) == NULL)
00208     {
00209         EXCEPTION("LinearSpringWithVariableSpringConstantsForce is to be used with a subclass of MeshBasedCellPopulation only");
00210     }
00211 
00212     MeshBasedCellPopulation<DIM>* p_static_cast_cell_population = static_cast<MeshBasedCellPopulation<DIM>*>(&rCellPopulation);
00213 
00214     for (typename MeshBasedCellPopulation<DIM>::SpringIterator spring_iterator = p_static_cast_cell_population->SpringsBegin();
00215         spring_iterator != p_static_cast_cell_population->SpringsEnd();
00216         ++spring_iterator)
00217     {
00218         unsigned nodeA_global_index = spring_iterator.GetNodeA()->GetIndex();
00219         unsigned nodeB_global_index = spring_iterator.GetNodeB()->GetIndex();
00220 
00221         c_vector<double, DIM> force = CalculateForceBetweenNodes(nodeA_global_index, nodeB_global_index, rCellPopulation);
00222 
00223         rForces[nodeB_global_index] -= force;
00224         rForces[nodeA_global_index] += force;
00225     }
00226 }
00227 
00228 template<unsigned DIM>
00229 double LinearSpringWithVariableSpringConstantsForce<DIM>::GetBetaCatSpringScaler()
00230 {
00231     return mBetaCatSpringScaler;
00232 }
00233 
00234 template<unsigned DIM>
00235 void LinearSpringWithVariableSpringConstantsForce<DIM>::SetBetaCatSpringScaler(double betaCatSpringScaler)
00236 {
00237     assert(betaCatSpringScaler > 0.0);
00238     mBetaCatSpringScaler = betaCatSpringScaler;
00239 }
00240 
00241 template<unsigned DIM>
00242 double LinearSpringWithVariableSpringConstantsForce<DIM>::GetApoptoticSpringTensionStiffness()
00243 {
00244     return mApoptoticSpringTensionStiffness;
00245 }
00246 
00247 template<unsigned DIM>
00248 void LinearSpringWithVariableSpringConstantsForce<DIM>::SetApoptoticSpringTensionStiffness(double apoptoticSpringTensionStiffness)
00249 {
00250     assert(apoptoticSpringTensionStiffness >= 0.0);
00251     mApoptoticSpringTensionStiffness = apoptoticSpringTensionStiffness;
00252 }
00253 
00254 template<unsigned DIM>
00255 double LinearSpringWithVariableSpringConstantsForce<DIM>::GetApoptoticSpringCompressionStiffness()
00256 {
00257     return mApoptoticSpringCompressionStiffness;
00258 }
00259 
00260 template<unsigned DIM>
00261 void LinearSpringWithVariableSpringConstantsForce<DIM>::SetApoptoticSpringCompressionStiffness(double apoptoticSpringCompressionStiffness)
00262 {
00263     assert(apoptoticSpringCompressionStiffness >= 0.0);
00264     mApoptoticSpringCompressionStiffness = apoptoticSpringCompressionStiffness;
00265 }
00266 
00267 template<unsigned DIM>
00268 void LinearSpringWithVariableSpringConstantsForce<DIM>::OutputForceParameters(out_stream& rParamsFile)
00269 {
00270     *rParamsFile << "\t\t\t<UseEdgeBasedSpringConstant>" << mUseEdgeBasedSpringConstant << "</UseEdgeBasedSpringConstant> \n";
00271     *rParamsFile << "\t\t\t<UseMutantSprings>" << mUseMutantSprings << "</UseMutantSprings> \n";
00272     *rParamsFile << "\t\t\t<MutantMutantMultiplier>" << mMutantMutantMultiplier << "</MutantMutantMultiplier> \n";
00273     *rParamsFile << "\t\t\t<NormalMutantMultiplier>" << mNormalMutantMultiplier << "</NormalMutantMultiplier> \n";
00274     *rParamsFile << "\t\t\t<UseBCatSprings>" << mUseBCatSprings << "</UseBCatSprings> \n";
00275     *rParamsFile << "\t\t\t<UseApoptoticSprings>" << mUseApoptoticSprings << "</UseApoptoticSprings> \n";
00276     *rParamsFile << "\t\t\t<BetaCatSpringScaler>" << mBetaCatSpringScaler << "</BetaCatSpringScaler> \n";
00277     *rParamsFile << "\t\t\t<ApoptoticSpringTensionStiffness>" << mApoptoticSpringTensionStiffness << "</ApoptoticSpringTensionStiffness> \n";
00278     *rParamsFile << "\t\t\t<ApoptoticSpringCompressionStiffness>" << mApoptoticSpringCompressionStiffness << "</ApoptoticSpringCompressionStiffness> \n";
00279 
00280     // Call method on direct parent class
00281     GeneralisedLinearSpringForce<DIM>::OutputForceParameters(rParamsFile);
00282 }
00283 
00285 // Explicit instantiation
00287 
00288 template class LinearSpringWithVariableSpringConstantsForce<1>;
00289 template class LinearSpringWithVariableSpringConstantsForce<2>;
00290 template class LinearSpringWithVariableSpringConstantsForce<3>;
00291 
00292 
00293 // Serialization for Boost >= 1.36
00294 #include "SerializationExportWrapperForCpp.hpp"
00295 EXPORT_TEMPLATE_CLASS_SAME_DIMS(LinearSpringWithVariableSpringConstantsForce)

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