Doses in SimBiology Models
Doses let you increase the amount of a species in a SimBiology® model during simulation, either at specific time points or regular intervals. For example, you can use a dose object to model an instantaneous supply of a drug regimen during the simulation of a model. The increase in the amount of a species occurs only during simulation and does not alter the species value permanently (that is, the value in the model is not changed).
Representing Doses
There are two types of dose objects.
ScheduleDose object
— Applies a dose to a single species at a predefined list of time pointsRepeatDose object
— Applies a dose to a single species at regular intervals
SimBiology dose objects support the following dosing types.
Dosing Strategy | Description | Dose Object Properties Configuration |
---|---|---|
Bolus | Instantaneous increase in the amount of drug in the compartment | To create a bolus dose, set the Amount
and TargetName properties of a SimBiology.ScheduleDose or SimBiology.RepeatDose object. You might also need
to configure other properties such as
RepeatCount , Interval, or
scheduled dose times (Time ) if you
are applying a series of doses. For details on these properties,
see ScheduleDose
object and RepeatDose
object . |
Infusion | Increase of the drug at a fixed rate over a period of time, which is calculated from the dose amount | Unlike a bolus dose, you also need to specify the infusion
rate (Rate property) of the dose
object. |
Zero-order | Increase of the drug at a fixed rate calculated from the dose amount and dose duration | Unlike a bolus dose, you also need to create a zero-order
duration parameter and specify the duration parameter name
(DurationParameterName property) of the
dose object. |
First-order | Increase of the drug via first-order absorption kinetics | Unlike bolus, infusion, or zero-order, you need to create an additional reaction for the drug absorption. |
Creating Doses Programmatically
There are two common ways to create dose objects using the command-line interface.
One way is to create a dose object using the sbiodose
or adddose
function. Another is to
create dose objects automatically from data containing dosing information. This
first approach is useful when you want to explore different dosing strategies
through simulation. The second approach is useful if you already have a data set
with dosing information and plan to use this dosing information in your simulation
or parameter estimation.
Create a Dose Object Using sbiodose or adddose
sbiodose
creates a standalone
dose object that is not attached to any model. You can apply a standalone dose
to different models during simulation by specifying it as a dosing argument for
sbiosimulate
, or attach it to
any model using adddose
. You can also use it
during parameter estimation using sbiofit
or sbiofitmixed
.
adddose
creates a dose object
and adds it to a model. You must set its Active
property to
true
to apply the dose to the model during
simulation.
The following examples show how to add a dose object to a one-compartment PK
model using sbiodose
and set up the dose properties
manually. Alternatively, you can use the built-in PK models with different
dosing types. For details, see Create Pharmacokinetic Models.
Create Dose Objects from Dosing Data
If you already have dosing data for one or more subjects or patients that you
would like to use in your parameter estimation, first create a groupedData
object
from your data set. Use createDoses
function to
automatically generate an array of dose objects. You can then use the dose array
during parameter estimation using sbiofit
or sbiofitmixed
. For a complete
workflow, see Model the Population Pharmacokinetics of Phenobarbital in Neonates.
Creating Doses Graphically
You can interactively create and add doses using the SimBiology Model Builder app. For details, see Add Doses.
Parameterized and Adaptive Doses
You can specify some of the properties of RepeatDose
and
ScheduleDose
objects by using model parameters. This
parameterization of dose properties gives you more flexibility in modeling different
dosing applications, such as scaling the dose amount by body weight.
SimBiology.RepeatDose
properties that
you can parameterize are: Amount
, Rate
,
Interval
, StartTime
,
RepeatCount
, LagParameterName
, and
DurationParameterName
. ScheduleDose
properties that can be parameterized are LagParameterName
and
DurationParameterName
. You can set these
RepeatDose
properties, except
LagParameterName
and
DurationParameterName
, to either a numeric value or the name of a
model-scoped parameter (as a character vector or string).
You can make doses adaptive to events, such as increasing the dose amount when the drug concentration drops below some threshold. This adaptive feature of doses is useful for doses that are not instantaneous. Consider an IV infusion for a drug being added at a fixed rate over a fixed duration. If an event modifies a dose parameter while this dose is in progress, you have two options:
Stop the ongoing dose if any relevant parameter values change by setting the
EventMode
property of the dose object to'stop'
.Continue the ongoing dose to completion, and updated parameter values affect only subsequent doses by setting
EventMode
to'continue'
.
For details, see the EventMode
property of
SimBiology.ScheduleDose
or SimBiology.RepeatDose
. For
illustrated examples, see Scale Dose Amount by Body Weight and Change Dose Behavior In Response to Changes in Model Parameters.
Units Validation on Parameterized Dose Properties
If you parameterize a dose property and enable dimensional analysis, the unit
of the dose property (dose unit) is validated. The dose unit is valid either if
it is empty or if it exactly matches the unit of the parameter. If the dose unit
is invalid, SimBiology issues a warning and uses the unit of the parameter
instead. To remove the warning, set the dose unit to empty
(''
) or to the same unit as the parameter unit.
Simulation Solvers for Models Containing Doses
To simulate models containing doses, use a deterministic (ODE or SUNDIALS) solver. Stochastic solvers do not support doses. For details, see Choosing a Simulation Solver.
See Also
sbiodose
| adddose
| ScheduleDose object
| RepeatDose object