View source: R/simulate_trials.R
simulate_trials | R Documentation |
This function takes a selector_factory
, such as
that returned by get_dfcrm
, get_boin
or
get_three_plus_three
, and conducts many notional clinical
trials. We conduct simulations to learn about the operating characteristics
of adaptive trial designs.
simulate_trials(
selector_factory,
num_sims,
true_prob_tox,
true_prob_eff = NULL,
...
)
selector_factory |
Object of type |
num_sims |
integer, number of trial iterations to simulate. |
true_prob_tox |
numeric vector of true but unknown toxicity probabilities |
true_prob_eff |
numeric vector of true but unknown efficacy probabilities. NULL if efficacy not analysed. |
... |
Extra args are passed onwards. |
By default, dose decisions in simulated trials are made after each
cohort of 3 patients. This can be changed by providing a function by the
sample_patient_arrivals
parameter that simulates the arrival of new
patients. The new patients will be added to the existing patients and the
model will be fit to the set of all patients. The function that simulates
patient arrivals should take as a single parameter a data-frame with one
row for each existing patient and columns including cohort, patient, dose,
tox, time (and possibly also eff and weight, if a phase I/II or
time-to-event method is used). The provision of data on the existing
patients allows the patient sampling function to be adaptive. The function
should return a data-frame with a row for each new patient and a column for
time_delta, the time between the arrival of this patient and the previous,
as in cohorts_of_n
. See Examples.
This method can simulate the culmination of trials that are partly
completed. We just have to specify the outcomes already observed via the
previous_outcomes
parameter. Each simulated trial will commence from
those outcomes seen thus far. See Examples.
We can specify the immediate next dose by specifying next_dose
. If
omitted, the next dose is calculated by invoking the model on the outcomes
seen thus far.
Designs must eventually choose to stop the trial. Some designs, like 3+3,
have intrinsic stopping rules. However, some selectors like those derived
from get_dfcrm
offer no default stopping method. You may need
to append stopping behaviour to your selector via something like
stop_at_n
or stop_when_n_at_dose
, etc. To
safeguard against simulating runaway trials that never end, the function
will halt a simulated trial after 30 invocations of the dose-selection
decision. To breach this limit, specify i_like_big_trials = TRUE
in
the function call. However, when you forego the safety net, the onus is on
you to write selectors that will eventually stop the trial! See Examples.
The model is fit to the prevailing data at each dose selection point. By
default, only the final model fit for each simulated trial is retained.
This is done to conserve memory. With a high number of simulated trials,
storing many model fits per trial may cause the executing machine to run
out of memory. However, you can force this method to retain all model fits
by specifying return_all_fits = TRUE
. See Examples.
Object of type simulations
.
simulations
selector_factory
get_dfcrm
get_boin
get_three_plus_three
cohorts_of_n
# In a five-dose scenario, we have assumed probabilities for Prob(tox):
true_prob_tox <- c(0.12, 0.27, 0.44, 0.53, 0.57)
# Simulate ten 3+3 trials:
sims <- get_three_plus_three(num_doses = 5) %>%
simulate_trials(num_sims = 10, true_prob_tox = true_prob_tox)
# Likewise, simulate 10 trials using a continual reassessment method:
skeleton <- c(0.05, 0.1, 0.25, 0.4, 0.6)
target <- 0.25
sims <- get_dfcrm(skeleton = skeleton, target = target) %>%
stop_at_n(n = 12) %>%
simulate_trials(num_sims = 10, true_prob_tox = true_prob_tox)
# Lots of useful information is contained in the returned object:
sims %>% num_patients()
sims %>% num_doses()
sims %>% dose_indices()
sims %>% n_at_dose()
sims %>% n_at_recommended_dose()
sims %>% tox_at_dose()
sims %>% num_tox()
sims %>% recommended_dose()
sims %>% prob_administer()
sims %>% prob_recommend()
sims %>% trial_duration()
# By default, dose decisions are made after each cohort of 3 patients. See
# Details. To override, specify an alternative function via the
# sample_patient_arrivals parameter. E.g. to use cohorts of 2, we run:
patient_arrivals_func <- function(current_data) cohorts_of_n(n = 2)
sims <- get_dfcrm(skeleton = skeleton, target = target) %>%
stop_at_n(n = 12) %>%
simulate_trials(num_sims = 10, true_prob_tox = true_prob_tox,
sample_patient_arrivals = patient_arrivals_func)
# To simulate the culmination of trials that are partly completed, specify
# the outcomes already observed via the previous_outcomes parameter. Imagine
# one cohort has already been evaluated, returning outcomes 1NTN. We can
# simulate the remaining part of the trial with:
sims <- get_dfcrm(skeleton = skeleton, target = target) %>%
stop_at_n(n = 12) %>%
simulate_trials(num_sims = 10, true_prob_tox = true_prob_tox,
previous_outcomes = '1NTN')
# Outcomes can be described by the above outcome string method or data-frame:
previous_outcomes <- data.frame(
patient = 1:3,
cohort = c(1, 1, 1),
tox = c(0, 1, 0),
dose = c(1, 1, 1)
)
sims <- get_dfcrm(skeleton = skeleton, target = target) %>%
stop_at_n(n = 12) %>%
simulate_trials(num_sims = 10, true_prob_tox = true_prob_tox,
previous_outcomes = previous_outcomes)
# We can specify the immediate next dose:
sims <- get_dfcrm(skeleton = skeleton, target = target) %>%
stop_at_n(n = 12) %>%
simulate_trials(num_sims = 10, true_prob_tox = true_prob_tox,
next_dose = 5)
# By default, the method will stop simulated trials after 30 dose selections.
# To suppress this, specify i_like_big_trials = TRUE. However, please take
# care to specify selectors that will eventually stop!
sims <- get_dfcrm(skeleton = skeleton, target = target) %>%
stop_at_n(n = 99) %>%
simulate_trials(num_sims = 1, true_prob_tox = true_prob_tox,
i_like_big_trials = TRUE)
# By default, only the final model fit is retained for each simulated trial.
# To retain all interim model fits, specify return_all_fits = TRUE.
sims <- get_three_plus_three(num_doses = 5) %>%
simulate_trials(num_sims = 10, true_prob_tox = true_prob_tox,
return_all_fits = TRUE)
# Verify that there are now many analyses per trial with:
sapply(sims$fits, length)
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