drugDemand 0.1.3
- remove the dependence on pscl and icenReg packages
- add stringr to imported packages
- add survival::survreg and stats::optim to imported functions
- use the Brent method for optimization to fit an interval-censored
exponential distribution to the time from randomization to the first
drug dispensing visit
- check the number of unique combinations of time and k1 in
f_fit_ti
- use the VarCorr function from the nlme package to obtain the
variance of random effects from the lme function call
- use data from all kit types to inform the common time model
- add the pred_pp_only parameter to f_drug_demand to make
protocol-based predictions only
- ensure that df and visitview have all the required columns and none
of the required columns have missing values
- combine dosing_pred_df and dosing_pred_pp in the f_drug_demand
output
- handle cases where all patients in a treatment arm discontinued
before the cutoff
- replace round with formatC to retain the zeros after the decimal
point
- rename fit_xx to xx_fit, where xx = k0, t0, t1, ki, ti, di to be
consistent with enroll_fit and event_fit naming convention
- add kit and kit_name to handle cases when a drug has different kit
types depending on the site
- add the prior probability of different kit types within a drug at
the design stage
- streamline the examples through the use of function calls
- update the initial parameter values in f_fit_ki for zero-inflated
Poisson model
- update the p.fit calculation in f_fit_ti when using the least
absolute deviations model
- convert kit_name to a factor to ensure the correct order when
creating a plot
- add kit_name as the sub plot title in f_dispensing_models.R
- add the vf_kit parameter to f_dose_draw_1 to get the kit information
for each subject in each simulation draw
- add the f_ongoing_new function to prepare the dosing data sets to
impute for ongoing and new subjects
- add kit_description_df to the output of f_dose_observed
- add the rdirichlet function to generate cell probabilities from the
Dirichlet distribution
- remove the f_treatment_by_drug_df function
- replace the treatment_by_drug matrix with the treatment_by_drug_df
data frame
- add kit_description_df, treatment_by_drug_df, and dosing_schedule_df
to the f_drug_demand output
drugDemand 0.1.2
- add least absolute deviations (LAD) regression as an option for
modelling the gap time between drug dispensing visits and rename the
original linear model as least squares (LS)
- use more descriptive names for drug dispensing models
drugDemand 0.1.1
- add a reference for parametric analysis of interval-censored
survival data
- only keep one record per subject and drug dispensing day when using
a common time model
- rename f_dosing_draw, f_dosing_draw_1, and f_dosing_draw_t_1 to
f_dose_draw, f_dose_draw_1, and f_dose_draw_t_1, respectively
- remove the vf_new parameter of the f_dose_draw_1 function
- remove the nreps parameter from the f_drug_demand function
- add the f_dose_observed function and incorporate it in the
f_drug_demand function
- modify the condition “Vi + Ti <= D(i)” to “Vi + Ti < D(i)” in
the f_dose_ongoing_cpp and f_dose_new_cpp functions
- change “as.numeric(exp(attr(a\(apVar,
"Pars")))" to
"exp(as.numeric(attr(a\)apVar,”Pars”)))” in the f_fit_di
function to avoid the error for non-numeric argument to mathematical
function
- simplify the condition for common_time_model to
“length(unique(target_days)) == 1”
- add dosing_summary_t0 to the output of the f_drug_demand
function
- replace mutate and slice(n()) with summarise in the f_dose_observed
and f_dose_draw functions to improve efficiency
- plot gap time t0 instead of t0 + 1 in the f_fit_t0 function
- plot the rounded value of di based on probability calculations
alongside the observed value of di in the f_fit_di function
- replace the residual plot with the fitted gap time bar chart in the
f_fit_ti function
- redefine row_id for vf1 if common_time_model is true in the
f_dispensing_models function
- use df and visitview to derive treatment_by_drug_df for real-time
drug demand forecasting
- update the examples of the f_fit_t0, f_fit_ki, and f_fit_ti
functions
- add trialsdt and cutoffdt to the output of the f_dose_observed and
f_drug_demand functions
- move the arrange operation of dosing_subject_newi out of the
f_dose_draw_1 function into the f_dose_draw function to improve
efficiency
- combine the two summarise operation of dosing_summary_newi in the
f_dose_draw_1 function to improve efficiency
- replace the zero-inflated negative binomial distribution with the
negative binomial distribution in the f_fit_ki function to avoid
convergence issues
- print cum_dispense_plot if showplot is TRUE in the f_dose_observed
function
- add colors = “Set2” to cum_dispense_plot, bar_t0_plot, bar_ti_plot,
and bar_di_plot in the f_dose_observed function
- remove the custom legend of cum_dispense_plot in the f_dose_observed
and f_drug_demand functions
- add parameter l to the f_dose_draw_1 function to improve
efficiency
- add structure and more details to the function parameters and output
descriptions
- combine the dosing_subject_t and dosing_summary_t steps in the
f_dose_observed function to improve efficiency
- replace target_days with dosing_schedule_df in the argument for the
f_dispensing_models function
- drop the creation of the status variable and use table instead of
survfit for observed data summary in the f_fit_t0 function
- add the handling of one observation case in the f_fit_ti
function
- remove the creation of the unames1 variable in the f_dose_draw
function
drugDemand 0.1.0