Dosing Functions¶
Table 74 shows the dosing functions that are available in the DERIVATIVES section and their parameters:-
| Name | Parameters |
|---|---|
| @bolus | amt/lag |
| @inf_rate | amt/lag/rate |
| @inf_dur | amt/lag/dur |
| @gamma | amt/lag/alpha/beta |
| @weibull | amt/lag/lambda/kappa |
@bolus¶
Example of Bolus dosing:-
DERIVATIVES: |
d[DEPOT] = @bolus{amt: c[AMT], lag: m[LAG]} - m[KE] * s[DEPOT]
This bolus dose will be activated by the ‘dose’ entry in the TYPE field of the PoPy data file. Note it is also possible to specify a named bolus dose as follows:-
DERIVATIVES: |
dose[my_bolus] = @bolus{amt: c[AMT], lag: m[LAG]}
d[DEPOT] = dose[my_bolus] * s[DEPOT]
This bolus dose will be activated by the ‘dose:my_bolus’ entry in the TYPE field of the PoPy data file.
@inf_rate¶
Example of infusion rate dosing:-
DERIVATIVES: |
d[DEPOT] = (
@inf_rate{amt: c[AMT], lag: m[LAG], rate: c[RATE]}
- m[KE] * s[DEPOT])
This infusion rate dose will be activated by the ‘dose’ entry in the TYPE field of the PoPy data file. Note it is also possible to specify a named infusion rate dose as follows:-
DERIVATIVES: |
dose[my_inf_rate] = @inf_rate{amt: c[AMT], lag: m[LAG], rate: c[RATE]}
d[DEPOT] = dose[my_inf_rate] * s[DEPOT]
This infusion rate dose will be activated by the ‘dose:my_inf_rate’ entry in the TYPE field of the PoPy data file.
@inf_dur¶
Example of infusion duration dosing:-
DERIVATIVES: |
d[DEPOT] = (
@inf_dur{amt: c[AMT], lag: m[LAG], dur: c[DUR]}
- m[KE] * s[DEPOT])
This infusion duration dose will be activated by the ‘dose’ entry in the TYPE field of the PoPy data file. Note it is also possible to specify a named infusion duration dose as follows:-
DERIVATIVES: |
dose[my_inf_dur] = @inf_dur{
amt: c[AMT], lag: m[LAG], dur: c[DUR]}
d[DEPOT] = dose[my_inf_dur] * s[DEPOT]
This infusion duration dose will be activated by the ‘dose:my_inf_dur’ entry in the TYPE field of the PoPy data file.
@gamma¶
Example of gamma dosing:-
DERIVATIVES: |
d[DEPOT] = (
@gamma{amt: c[AMT], lag: m[LAG],
alpha: m[ALPHA], beta: m[BETA]}
- m[KE] * s[DEPOT]
)
This gamma dose will be activated by the ‘dose’ entry in the TYPE field of the PoPy data file. Note it is also possible to specify a named gamma dose as follows:-
DERIVATIVES: |
dose[my_gamma] = @gamma{
amt: c[AMT], lag: m[LAG],
alpha: m[ALPHA], beta: m[BETA]}
d[DEPOT] = dose[my_gamma] * s[DEPOT]
This gamma dose will be activated by the ‘dose:my_gamma’ entry in the TYPE field of the PoPy data file.
@weibull¶
Example of weibull dosing:-
DERIVATIVES: |
d[DEPOT] = (
@weibull{
amt: c[AMT], lag: m[LAG],
lambda: m[LAMBDA], kappa: m[KAPPA]}
- m[KE] * s[DEPOT]
)
This weibull dose will be activated by the ‘dose’ entry in the TYPE field of the PoPy data file. Note it is also possible to specify a named weibull dose as follows:-
DERIVATIVES: |
dose[my_weibull] = @weibull{
amt: c[AMT], lag: m[LAG],
lambda: m[LAMBDA], kappa: m[KAPPA]}
d[DEPOT] = dose[my_weibull] * s[DEPOT]
This weibull dose will be activated by the ‘dose:my_weibull’ entry in the TYPE field of the PoPy data file.