Description of Guyton stress relaxation module
Effect of Stress Relaxation on Basic Venous Volume (V0)
This section calculates the effect over a period of time caused by excess volume
(or too little volume) in the venous tree to cause changes in the volume holding
capacity of the venous tree when it is fully filled with blood but at zero pressure.
In this model, there are two separate parallel stress relaxations of the veins.
One of these has a short time constant (SRK) and the other has a long time constant (SRK2).
Stress Relaxation
SR1 and SR2:
Calculation of the ultimate degree of change in basic venous volume to
be caused by the short-term stress relaxation factor with input to the
system equal to the instantaneous excess venous volume (VVE); a multiplier
factor controls the degree of stress relaxation that will occur (SR).
SR3, SR4, and SR5:
This is a delay circuit having a short time constant (SRK). The output of
this circuit (VV7) approaches the ultimate degree of stress relaxation
caused by short-term stress relaxation as calculated from Block SR2.
NB - REMOVED THE DAMPING FROM THE INTEGRAL!!!
organ systems
stress relaxation
physiology
cardiovascular circulation
Guyton
Encapsulation grouping component containing all the components in the Stress Relaxation Model. The inputs and
outputs of the Stress Relaxation Model must be passed by this component.
organ systems
stress relaxation
physiology
Guyton
cardiovascular circulation
keyword
Description of Guyton stress relaxation module
This is the CellML 1.1 "parent" file to test the Stress Relaxation Model.
SR1A, SR2A, SR3A, AR4A, and SR5A:
Similar calculations to the above but this time with a long time constant
for stress relaxation (SRK2), and also having a separate variable for control
of the ultimate degree of the stress relaxation (SR2). The output of this
long time constant stress relaxation (VV6) along with the output from the
short time constant stress relaxation (VV7) are subtracted from the actual
venous volume (VVS) in Block CD15 in the hemodynamic section of the model.
keyword
2008-00-00 00:00
Guyton
Stress Relaxation
Guyton
Component to set all input values to 1.0 or a prescribed value.
200000
100000
SR1A, SR2A, SR3A, AR4A, and SR5A:
Similar calculations to the above but this time with a long time constant
for stress relaxation (SRK2), and also having a separate variable for control
of the ultimate degree of the stress relaxation (SR2). The output of this
long time constant stress relaxation (VV6) along with the output from the
short time constant stress relaxation (VV7) are subtracted from the actual
venous volume (VVS) in Block CD15 in the hemodynamic section of the model.
SR1 and SR2:
Calculation of the ultimate degree of change in basic venous volume to
be caused by the short-term stress relaxation factor with input to the
system equal to the instantaneous excess venous volume (VVE); a multiplier
factor controls the degree of stress relaxation that will occur (SR).
SR3, SR4, and SR5:
This is a delay circuit having a short time constant (SRK). The output of
this circuit (VV7) approaches the ultimate degree of stress relaxation
caused by short-term stress relaxation as calculated from Block SR2.
NB - REMOVED THE DAMPING FROM THE INTEGRAL!!!
2008-00-00 00:00