- Author:
- nima <nafs080@aucklanduni.ac.nz>
- Date:
- 2020-09-30 10:48:46+13:00
- Desc:
- Renamed the files
- Permanent Source URI:
- https://models.physiomeproject.org/workspace/572/rawfile/c052b0c460280139dad150937fbee4fa6a026505/SEDML_files/Fig09.py
# To reproduce the data needed for Figure 4 in associated Physiome paper,
# execute this script in the Python console in OpenCOR. This can be done
# with the following commands at the prompt in the OpenCOR Python console:
#
# In [1]: cd path/to/folder_this_file_is_in
# In [2]: %run Fig04.py
#
import opencor as opencor
# import numpy as np
Na_m = [0.13, 0.1275, 0.125, 0.1175, 0.11, 0.105]
Cl_m = [0.131, 0.1285, 0.126, 0.1185, 0.111, 0.106]
glucose_m = [0.0, 0.005, 0.01, 0.025, 0.04, 0.05]
#######
#Caco2-30 sec
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(30)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("Caco2_30(inf).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(30)
# data.constants()["Basolateral_concentrations/theta"] = 1
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# cache results for plotting
outfile = open("Caco2_30(Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(30)
# data.constants()["Basolateral_concentrations/theta"] = 1
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 10
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# cache results for plotting
outfile = open("Caco2_30(10Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(30)
# data.constants()["Basolateral_concentrations/theta"] = 1
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 0.1
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# cache results for plotting
outfile = open("Caco2_30(0.1Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(30)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 0
data.constants()["Cell_concentration/theta_26"] = 0 #Apical GLUT2 is turned off
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("IEC_30(inf).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(30)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 1
data.constants()["Cell_concentration/theta_26"] = 0 #Apical GLUT2 is turned off
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("IEC_30(Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(30)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 10
data.constants()["Cell_concentration/theta_26"] = 0 #Apical GLUT2 is turned off
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("IEC_30(10Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(30)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 0.1
data.constants()["Cell_concentration/theta_26"] = 0 #Apical GLUT2 is turned off
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("IEC_30(0.1Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
#######
#Caco2-60 sec
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(60)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("Caco2_60(inf).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(60)
# data.constants()["Basolateral_concentrations/theta"] = 1
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# cache results for plotting
outfile = open("Caco2_60(Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(60)
# data.constants()["Basolateral_concentrations/theta"] = 1
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 10
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# cache results for plotting
outfile = open("Caco2_60(10Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(60)
# data.constants()["Basolateral_concentrations/theta"] = 1
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 0.1
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# cache results for plotting
outfile = open("Caco2_60(0.1Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(60)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 0
data.constants()["Cell_concentration/theta_26"] = 0 #Apical GLUT2 is turned off
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("IEC_60(inf).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(60)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 1
data.constants()["Cell_concentration/theta_26"] = 0 #Apical GLUT2 is turned off
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("IEC_60(Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(60)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 10
data.constants()["Cell_concentration/theta_26"] = 0 #Apical GLUT2 is turned off
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("IEC_60(10Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(60)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 0.1
data.constants()["Cell_concentration/theta_26"] = 0 #Apical GLUT2 is turned off
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("IEC_60(0.1Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
#######
#Caco2-300 sec
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(300)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("Caco2_300(inf).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(300)
# data.constants()["Basolateral_concentrations/theta"] = 1
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# cache results for plotting
outfile = open("Caco2_300(Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(300)
# data.constants()["Basolateral_concentrations/theta"] = 1
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 10
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# cache results for plotting
outfile = open("Caco2_300(10Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(300)
# data.constants()["Basolateral_concentrations/theta"] = 1
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 0.1
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# cache results for plotting
outfile = open("Caco2_300(0.1Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(300)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 0
data.constants()["Cell_concentration/theta_26"] = 0 #Apical GLUT2 is turned off
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("IEC_300(inf).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(300)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 1
data.constants()["Cell_concentration/theta_26"] = 0 #Apical GLUT2 is turned off
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("IEC_300(Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(300)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 10
data.constants()["Cell_concentration/theta_26"] = 0 #Apical GLUT2 is turned off
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("IEC_300(10Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(300)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 0.1
data.constants()["Cell_concentration/theta_26"] = 0 #Apical GLUT2 is turned off
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("IEC_300(0.1Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
#######
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(600)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("Caco2_600(inf).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(600)
# data.constants()["Basolateral_concentrations/theta"] = 1
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# cache results for plotting
outfile = open("Caco2_600(Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(600)
# data.constants()["Basolateral_concentrations/theta"] = 1
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 10
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# cache results for plotting
outfile = open("Caco2_600(10Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(600)
# data.constants()["Basolateral_concentrations/theta"] = 1
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 0.1
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# cache results for plotting
outfile = open("Caco2_600(0.1Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(600)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 0
data.constants()["Cell_concentration/theta_26"] = 0 #Apical GLUT2 is turned off
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("IEC_600(inf).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(600)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 1
data.constants()["Cell_concentration/theta_26"] = 0 #Apical GLUT2 is turned off
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("IEC_600(Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(600)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 10
data.constants()["Cell_concentration/theta_26"] = 0 #Apical GLUT2 is turned off
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("IEC_600(10Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
glucose_i = {}
simulation = opencor.open_simulation("https://models.physiomeproject.org/workspace/572/rawfile/59488c15178b09bcb5b11f795383b1435f7b7ef1/SEDML_files/Model.sedml")
data = simulation.data()
data.set_ending_point(600)
for i, glu_m in enumerate(glucose_m):
# reset everything in case we are running interactively and have existing results
simulation.reset(True)
simulation.clear_results()
data.constants()["Basolateral_concentrations/theta"] = 1
data.constants()["Basolateral_concentrations/m"] = 0.1
data.constants()["Cell_concentration/theta_26"] = 0 #Apical GLUT2 is turned off
data.constants()["Apical_concentrations/Na_m"] = Na_m[i]
data.constants()["Apical_concentrations/Cl_m"] = Cl_m[i]
data.constants()["Apical_concentrations/glucose_m"] = glu_m
simulation.run()
ds = simulation.results().data_store()
glucose_i[glu_m] = ds.voi_and_variables()["Cell_concentration/glucose_i"].values()
# print((glucose_i))
# for key, value in glucose_i.items():
# print(key, value)
# cache results for plotting
outfile = open("IEC_600(0.1Vc).csv", 'w')
cols = []
for key, item in glucose_i.items():
outfile.write(str(key) + ",")
cols.append(item)
outfile.write("\n")
for i in range(0, len(cols[0])):
for j in range(0, len(cols)):
outfile.write(str(cols[j][i]) + ",")
outfile.write("\n")
outfile.close()
