10000
0.1
50000
Penny
Noble
J
This variant (02) describes the human cardiac epicardial cell, as defined by ten Tusscher et al. in their 2004 paper.
keyword
Lawson
James
Richard
Lawson
James
Richard
Penny
Noble
J
unknown
unknown
unknown
This variant of the model was created by Penny Noble of Oxford University, and represents the parameters given for the epicardial cell variant in Ten Tusscher et al. 2004. A stimulus protocol component has been added to the model to allow simulation of trains of action potentials (JL, 18/06/07). This file is known to run in PCEnv and COR.
K
Ten Tusscher
H
A model for human ventricular tissue (Midmyocardial Cell)
Department of Physiology, Anatomy & Genetics, University of Oxford
A model for human ventricular tissue (Epicardial Cell)
Department of Physiology, Anatomy & Genetics, University of Oxford
2007-05-05T12:55:00+12:00
14656705
10000
10000
0.01
Noble
J
Penny
Richard
James
Lawson
Noble
J
Penny
keyword
Some variables have been given cmeta:id's to allow a PCEnv session to be created.
J
Penny
Noble
Units checked, curated.
2008-05-27T12:42:18+12:00
K
Ten Tusscher
H
A stimulus protocol component was added to the model to allow simulation of trains of action potentials. Values for the amplitude (-52 picoA per picoF) and duration (1 ms) of the stimulus were taken from the original single stimulus in the model. The period of 1000 ms is intended to reflect beat period of the human heart, on which this model is based.
ventricular myocyte
ventricular
myocyte
electrophysiology
A model for human ventricular tissue (Endocardial Cell)
Department of Physiology, Anatomy & Genetics, University of Oxford
electrophysiology
myocyte
ventricular myocyte
ventricular
A
V
Panfilov
Version 03 Variant 01 duplicated as version 04 to allow repository main page listing to point straight to latest TT04 version. v3v1 session also duplicated.
Penny
Noble
J
unknown
ventricular myocyte
electrophysiology
cardiac
0.1
50000
1E-8
10000
Noble
J
P
2007-05-06T12:50:00+12:00
1589
1573
286 4
A model for human ventricular tissue
Department of Physiology, Anatomy & Genetics
Oxford University
penny.noble@dpag.ox.ac.uk
286 4
A model for human ventricular tissue
1589
1573
Oxford University
Department of Physiology, Anatomy & Genetics
unknown
keyword
2007-06-22T15:51:38+12:00
James
Lawson
Richard
Richard
James
Lawson
2006-01-01
Tommy
Yu
2004-04-01 00:00
Lawson
James
Richard
2007-10-18T15:39:05+13:00
American Journal of Physiology Heart and Circulatory Physiology
14656705
Panfilov
A
V
Lawson
Richard
James
2006-11-08T00:00:00+00:00
1589
1573
A model for human ventricular tissue
286 4
J
Penny
Noble
This variant of the model was created by Penny Noble of Oxford University, and represents the parameters given for the M-cell variant in Ten Tusscher et al. 2004. A stimulus protocol component has been added to the model to allow simulation of trains of action potentials (JL, 18/06/07). This file is known to run in PCEnv and COR.
added cmeta:id's to some variables to allow referencing by a PCEnv session file
penny.noble@dpag.ox.ac.uk
replaced illegal - in model cmeta:id with _
Lawson
James
Richard
penny.noble@dpag.ox.ac.uk
replaced illegal - in model cmeta:id with _
Richard
James
Lawson
2004-04-01
Richard
James
Lawson
James
Richard
Lawson
Units checked, curated.
Penny's file was modified to allow it to run in PCEnv. This required rearrangement of some differential equations such that the differential was on the left hand side. This modification produces a mathematically equivalent model and the output of the pre-modified model has not been altered in any way.
Noble
unknown
Penny
unknown
unknown
Oxford University
unknown
2006-01-01
Tommy hand-fixed the RDF to get the repository to save the simulation metadata.
unknown
Penny's file was modified to allow it to run in PCEnv. This required rearrangement of some differential equations such that the differential was on the left hand side. This modification produces a mathematically equivalent model and the output of the pre-modified model has not been altered in any way.
D
Noble
2008-05-27T12:41:26+12:00
10000
10000
0.01
A stimulus protocol component was added to the model to allow simulation of trains of action potentials. Values for the amplitude (-52 picoA per picoF) and duration (1 ms) of the stimulus were taken from the original single stimulus in the model. The period of 1000 ms is intended to reflect beat period of the human heart, on which this model is based.
units checked, curated
This variant of the model was created by Penny Noble of Oxford University, and represents the parameters given for the endocardial cell variant in Ten Tusscher et al. 2004. A stimulus protocol component has been added to the model to allow simulation of trains of action potentials (JL, 18/06/07). This file is known to run in PCEnv and COR.
0.1
100000
10000
James Lawson
2006-11-08T00:00:00+00:00
James Lawson
Noble
J
P
Panfilov
A
V
K
Ten Tusscher
H
James Lawson
D
Noble
James Lawson
unknown
American Journal of Physiology Heart and Circulatory Physiology
2007-05-06T12:35:00+12:00
Noble
D
J
Noble
James Lawson
2007-11-26T12:38:03+13:00
2007-06-18T12:39:04+12:00
2004-04-01
Lawson
Richard
James
This variant describes the human cardiac M-cell, as described in ten Tusscher et al. 2004
unknown
Oxford Univeristy
0.01
100000
10000
A stimulus protocol component was added to the model to allow simulation of trains of action potentials. Values for the amplitude (-52 picoA per picoF) and duration (1 ms) of the stimulus were taken from the original single stimulus in the model. The period of 1000 ms is intended to reflect beat period of the human heart, on which this model is based.
Penny's file was modified to allow it to run in PCEnv. This required rearrangement of some differential equations such that the differential was on the left hand side. This modification produces a mathematically equivalent model and the output of the pre-modified model has not been altered in any way.
2007-12-06T15:13:38+13:00
2008-04-01T14:14:36+13:00
14656705
replaced illegal - in model cmeta:id with _
2006-01-01
10000
10000
0.01
2008-01-25T09:54:15+13:00
This variant represents the human endocardial cell, as defined by ten Tusscher et al. in their 2004 paper.
Oxford University
Department of Physiology, Anatomy & Genetics
2007-12-06T15:15:54+13:00
0.1
10000
10000
2008-05-27T12:42:02+12:00
American Journal of Physiology Heart and Circulatory Physiology
unknown
unknown
James Lawson
2007-12-06T15:14:33+13:00
2007-06-18T12:53:19+12:00
2006-11-08T00:00:00+00:00
2007-05-06T12:50:00+12:00