- Author:
- Kenneth Tran <k.tran@auckland.ac.nz>
- Date:
- 2017-08-31 15:20:50+12:00
- Desc:
- Adding image.
- Permanent Source URI:
- https://models.cellml.org/workspace/4a2/rawfile/b09963ece3950a7e2c1256070cab0b5e13411d90/XBSolve.m
% Function that executes the isometric and work-loop protocols
function [T Y dy F_total ATPase] = XBSolve(loop,T_loop,preload_SL,Afterload,protocol,passive)
Params = [Afterload,loop,preload_SL,T_loop,passive];
if strcmp(protocol,'Isometric')
Phase = 'isometric';
run IC_XBModel;
init(9) = preload_SL; % Set the initial SL
options = odeset('RelTol',1e-6,'AbsTol',1e-6);
tspan = [0 1000]; %ms
% Solve ODE
[T_isom,Y_isom] = ode15s(@getDeriv,tspan,init,options,Phase,Params);
T = [T_isom];
Y = [Y_isom];
%Retrieve Force and ATPase information
for i=1:length(T)
Phase = 'isometric';
[dy F_total(i) ATPase(i) F_net(i)] = XBModel(T(i),Y(i,:),Phase,Params);
dSL(i) = dy(9);
end
else % Work loop contraction
% Isometric phase ******************************************
Phase = 'isometric';
run IC_XBModel;
init(9) = preload_SL; % Set the preloaded length
options = odeset('RelTol',1e-6,'AbsTol',1e-6,'Events',@Fevents); % Set event for finding the start of isotonic contraction
tspan = [0 2000]; %ms
% Solve the ODE to find the contraction point (point of shortening)
[T_isom,Y_isom,te1,ye,ie] = ode15s(@getDeriv,tspan,init,options,Phase,Params);
% Isotonic phase *******************************************
Phase = 'isotonic';
options = odeset('Events',[]); %Remove the stop condition
tspan = [te1 900]; % Use the time when isotonic contraction starts
init = ye; % Use the state variables from the end of isometric
init(8) = 0; % Reset the force integral
init(9) = preload_SL; % Set the preload
% Solve through the contraction to find the relaxation point
[T_isoton,Y_isoton] = ode15s(@getDeriv,tspan,init,options,Phase,Params);
T = [T_isom; T_isoton;];
Y = [Y_isom; Y_isoton];
%Retrieve force information
for i=1:length(T)
if i<=length(T_isom)
Phase = 'isometric';
else
Phase = 'isotonic';
end
[dy F_total(i) ATPase(i) F_net(i)] = XBModel(T(i),Y(i,:),Phase,Params);
dSL(i) = dy(9);
end
end