Visit and Period Variables

Introduction

The derivation of visit variables like AVISIT, AVISITN, AWLO, AWHI, … or period, subperiod, or phase variables like APERIOD, TRT01A, TRT02A, ASPER, PHSDTM, PHEDTM, … is highly study-specific. Therefore {admiral} cannot provide functions which derive these variables. However, for common scenarios like visit assignments based on time windows or deriving BDS period variables from ADSL period variables, functions are provided which support those derivations.

Required Packages

The examples of this vignette require the following packages.

library(admiral)
library(tibble)
library(dplyr, warn.conflicts = FALSE)
library(lubridate)

Visit variables (AVISIT, AVISITN, AWLO, AWHI, …)

The most common ways of deriving AVISIT and AVISITN are:

The former can be achieved simply by calling mutate(), like in the vignettes and the template scripts.

For the latter a (study-specific) reference dataset needs to be created which provides for each visit the start and end day (AWLO and AWHI) and the values of other visit related variables (AVISIT, AVISITN, AWTARGET, …).

windows <- tribble(
  ~AVISIT,    ~AWLO, ~AWHI, ~AVISITN, ~AWTARGET,
  "BASELINE",   -30,     1,        0,         1,
  "WEEK 1",       2,     7,        1,         5,
  "WEEK 2",       8,    15,        2,        11,
  "WEEK 3",      16,    22,        3,        19,
  "WEEK 4",      23,    30,        4,        26
)

Then the visits can be assigned based on the analysis day (ADY) by calling derive_vars_joined():

adbds <- tribble(
  ~USUBJID, ~ADY,
  "1",       -33,
  "1",        -2,
  "1",         3,
  "1",        24,
  "2",        NA,
)

adbds1 <- adbds %>%
  derive_vars_joined(
    dataset_add = windows,
    filter_join = AWLO <= ADY & ADY <= AWHI,
    join_type = "all",
  )
USUBJID ADY AVISIT AWLO AWHI AVISITN AWTARGET
1 -33 NA NA NA NA NA
1 -2 BASELINE -30 1 0 1
1 3 WEEK 1 2 7 1 5
1 24 WEEK 4 23 30 4 26
2 NA NA NA NA NA NA

Period, Subperiod, and Phase Variables

If periods, subperiods, or phases are used, in the simpler of ADaM applications the corresponding variables have to be consistent across all datasets. This can be achieved by defining the periods, subperiods, or phases once and then using this definition for all datasets. The definition can be stored in ADSL or in a separate dataset. In this vignette’s examples, this separate dataset is called period/phase reference dataset depending what data it contains.

Note that periods, subperiods, or phases can be defined differently across datasets (for instance, they may be different across safety and efficacy analyses) in which case the start/stop dates should be defined in the individual datasets, instead of in ADSL. However, this vignette will not cover this scenario.

A Note on Study Specific Code

The sections below showcase the available tools in {admiral} to work with period, subperiod and phase variables. However, at some point study specific code will always be required. There are two options:

It depends on the specific definition of the periods/subperiods which option works best. If the definition is based on other ADSL variables, the first option would work best. If the definition is based on vertically structured data like exposure data (EX dataset), the second option should be used. This vignette contains examples for both workflows.

The Period/Phase Reference Dataset

The {admiral} functions expect separate reference datasets for periods, subperiods, and phases. For periods the numeric variable APERIOD is expected, for subperiods the numeric variables APERIOD and ASPER, and for phases the numeric variable APHASEN.

The period/phase reference dataset should be created according to the design and ADaM needs of the study in question. It should contain one observation per subject and period, subperiod, or phase. See the next section for an example dataset.

Example Creation of the Period/Phase Reference Dataset

Consider a simple crossover study with the following design:

Given this design, an option could be to split the study into two periods:

Alternatively (or additionally) one could split into two phases:

Below, we present two example workflows: one where where a period reference dataset is created from the exposure dataset EX, and the other where a phase reference dataset is created using ADSL variables.

Creating the Period/Phase Reference Dataset from EX

Below we create a period reference dataset starting from the exposure dataset EX. Consider the following exposure dataset:

ex <- tribble(
  ~STUDYID, ~USUBJID,  ~VISIT,    ~EXTRT,   ~EXSTDTC,
  "xyz",    "1",       "Day 1",   "Drug X", "2022-01-02",
  "xyz",    "1",       "Week 4",  "Drug X", "2022-02-05",
  "xyz",    "1",       "Week 8",  "Drug X", "2022-03-01",
  "xyz",    "1",       "Week 12", "Drug X", "2022-04-03",
  "xyz",    "1",       "Week 16", "Drug Y", "2022-05-03",
  "xyz",    "1",       "Week 20", "Drug Y", "2022-06-02",
  "xyz",    "1",       "Week 24", "Drug Y", "2022-07-01",
  "xyz",    "1",       "Week 28", "Drug Y", "2022-08-04",
  "xyz",    "2",       "Day 1",   "Drug Y", "2023-10-20",
  "xyz",    "2",       "Week 4",  "Drug Y", "2023-11-21",
  "xyz",    "2",       "Week 8",  "Drug Y", "2023-12-19",
  "xyz",    "2",       "Week 12", "Drug Y", "2024-01-19",
  "xyz",    "2",       "Week 16", "Drug X", "2024-02-20",
  "xyz",    "2",       "Week 20", "Drug X", "2024-03-17",
  "xyz",    "2",       "Week 24", "Drug X", "2024-04-22",
  "xyz",    "2",       "Week 28", "Drug X", "2024-05-21"
)

Then to create a period reference dataset, code like this (or similar) would suffice:

period_ref <- ex %>%
  # Select visits marking the start of each period
  filter(VISIT %in% c("Day 1", "Week 16")) %>%
  # Create APERIOD, APERSDT, TRTA based on SDTM counterparts
  mutate(
    APERIOD = case_when(
      VISIT == "Day 1" ~ 1,
      VISIT == "Week 16" ~ 2
    ),
    TRTA = EXTRT,
    APERSDT = convert_dtc_to_dt(EXSTDTC)
  ) %>%
  # Create APEREDT based on start date of next period
  arrange(USUBJID, APERSDT) %>%
  group_by(USUBJID) %>%
  mutate(
    APEREDT = lead(APERSDT) - 1 # one day before start of next period
  ) %>%
  # Tidy up
  ungroup() %>%
  select(-starts_with("EX"), -VISIT)
STUDYID USUBJID APERIOD TRTA APERSDT APEREDT
xyz 1 1 Drug X 2022-01-02 2022-05-02
xyz 1 2 Drug Y 2022-05-03 NA
xyz 2 1 Drug Y 2023-10-20 2024-02-19
xyz 2 2 Drug X 2024-02-20 NA

The workflow above populates the Period End Date APEREDT for all periods except the last one. The value of the last period could then be populated with the End of Study Date (EOSDT) from ADSL, to obtain:

adsl <- tribble(
  ~STUDYID,  ~USUBJID,  ~TRTSDT,           ~TRTEDT,           ~EOSDT,
  "xyz",     "1",       ymd("2022-01-02"), ymd("2022-08-04"), ymd("2022-09-10"),
  "xyz",     "2",       ymd("2023-10-20"), ymd("2024-05-21"), ymd("2024-06-30")
)

period_ref <- period_ref %>%
  left_join(adsl, by = c("STUDYID", "USUBJID")) %>%
  mutate(APEREDT = case_when(
    APERIOD == "1" ~ APEREDT,
    APERIOD == "2" ~ EOSDT
  )) %>%
  select(-EOSDT, -TRTSDT, -TRTEDT)
STUDYID USUBJID APERIOD TRTA APERSDT APEREDT
xyz 1 1 Drug X 2022-01-02 2022-05-02
xyz 1 2 Drug Y 2022-05-03 2022-09-10
xyz 2 1 Drug Y 2023-10-20 2024-02-19
xyz 2 2 Drug X 2024-02-20 2024-06-30

Creating the Period/Phase Reference Dataset from ADSL

If the treatment start and end dates are already included in ADSL, we can derive the phase variables directly in ADSL and create a phase reference dataset by employing create_period_dataset(). Here is an example command to achieve this goal:

adsl1 <- adsl %>%
  mutate(
    PH1SDT = TRTSDT,
    PH1EDT = TRTEDT + 28,
    APHASE1 = "TREATMENT",
    PH2SDT = TRTEDT + 29,
    PH2EDT = EOSDT,
    APHASE2 = "FUP"
  )

phase_ref <- create_period_dataset(
  adsl1,
  new_vars = exprs(PHSDT = PHwSDT, PHEDT = PHwEDT, APHASE = APHASEw)
)
STUDYID USUBJID APHASEN PHSDT PHEDT APHASE
xyz 1 1 2022-01-02 2022-09-01 TREATMENT
xyz 1 2 2022-09-02 2022-09-10 FUP
xyz 2 1 2023-10-20 2024-06-18 TREATMENT
xyz 2 2 2024-06-19 2024-06-30 FUP

Creating ADSL Period, Subperiod, or Phase Variables

If a period/phase reference dataset is available, the ADSL variables for periods, subperiods, or phases can be created from this dataset by calling derive_vars_period().

For example the period reference dataset from the previous section can be used to add the period variables (APxxSDT, APxxEDT) to ADSL:

adsl2 <- derive_vars_period(
  adsl,
  dataset_ref = period_ref,
  new_vars = exprs(APxxSDT = APERSDT, APxxEDT = APEREDT)
)
STUDYID USUBJID AP01SDT AP01EDT AP02SDT AP02EDT
xyz 1 2022-01-02 2022-05-02 2022-05-03 2022-09-10
xyz 2 2023-10-20 2024-02-19 2024-02-20 2024-06-30

Creating BDS and OCCDS Period, Subperiod, or Phase Variables

If a period/phase reference dataset is available, BDS and OCCDS variables for periods, subperiods, or phases can be created by calling derive_vars_joined().

For example the variables APHASEN, PHSDT, PHEDT, APHASE can be derived from the phase reference dataset defined above.

adae <- tribble(
  ~STUDYID, ~USUBJID, ~ASTDT,
  "xyz",    "1",      "2022-01-31",
  "xyz",    "1",      "2022-05-02",
  "xyz",    "1",      "2022-09-03",
  "xyz",    "1",      "2022-09-09",
  "xyz",    "2",      "2023-12-25",
  "xyz",    "2",      "2024-06-19",
) %>%
  mutate(ASTDT = ymd(ASTDT))

adae1 <- adae %>%
  derive_vars_joined(
    dataset_add = phase_ref,
    by_vars = exprs(STUDYID, USUBJID),
    filter_join = PHSDT <= ASTDT & ASTDT <= PHEDT,
    join_type = "all"
  )
STUDYID USUBJID ASTDT APHASEN PHSDT PHEDT APHASE
xyz 1 2022-01-31 1 2022-01-02 2022-09-01 TREATMENT
xyz 1 2022-05-02 1 2022-01-02 2022-09-01 TREATMENT
xyz 1 2022-09-03 2 2022-09-02 2022-09-10 FUP
xyz 1 2022-09-09 2 2022-09-02 2022-09-10 FUP
xyz 2 2023-12-25 1 2023-10-20 2024-06-18 TREATMENT
xyz 2 2024-06-19 2 2024-06-19 2024-06-30 FUP

Treatment Variables (TRTxxP, TRTxxA, TRTP, TRTA, …)

In studies with multiple periods the treatment can differ by period, e.g. for a crossover trial - see the previous section for an example design showcasing this. CDISC defines variables for planned and actual treatments in ADSL (TRTxxP, TRTxxA, TRxxPGy, TRxxAGy, …) and corresponding variables in BDS and OCCDS datasets (TRTP, TRTA, TRTPGy, TRTAGy, …). They can be derived in the same way (and same step) as the period, subperiod, and phase variables.

Creating ADSL Treatment Variables

If the treatment information is included in the period/phase reference dataset, the treatment ADSL variables can be created by calling derive_vars_period(). This is showcased below using the period reference dataset from previous sections.

adsl <- derive_vars_period(
  adsl,
  dataset_ref = period_ref,
  new_vars = exprs(
    APxxSDT = APERSDT,
    APxxEDT = APEREDT,
    TRTxxA = TRTA
  )
)
STUDYID USUBJID TRT01A TRT02A AP01SDT AP01EDT AP02SDT AP02EDT
xyz 1 Drug X Drug Y 2022-01-02 2022-05-02 2022-05-03 2022-09-10
xyz 2 Drug Y Drug X 2023-10-20 2024-02-19 2024-02-20 2024-06-30

Creating BDS and OCCDS Treatment Variables

If a period/phase reference dataset is available, BDS and OCCDS variables for treatment can be created by calling derive_vars_joined().

For example the variables APERIOD and TRTA can be derived from the period reference dataset defined above.

adae <- tribble(
  ~STUDYID, ~USUBJID, ~ASTDT,
  "xyz",    "1",      "2022-01-31",
  "xyz",    "1",      "2022-05-02",
  "xyz",    "1",      "2022-08-24",
  "xyz",    "1",      "2022-09-09",
  "xyz",    "2",      "2023-12-25",
  "xyz",    "2",      "2024-06-07",
) %>%
  mutate(ASTDT = ymd(ASTDT))

adae2 <- adae %>%
  derive_vars_joined(
    dataset_add = period_ref,
    by_vars = exprs(STUDYID, USUBJID),
    new_vars = exprs(APERIOD, TRTA),
    join_vars = exprs(APERSDT, APEREDT),
    join_type = "all",
    filter_join = APERSDT <= ASTDT & ASTDT <= APEREDT
  )
STUDYID USUBJID ASTDT APERIOD TRTA
xyz 1 2022-01-31 1 Drug X
xyz 1 2022-05-02 1 Drug X
xyz 1 2022-08-24 2 Drug Y
xyz 1 2022-09-09 2 Drug Y
xyz 2 2023-12-25 1 Drug Y
xyz 2 2024-06-07 2 Drug X

If no period/phase reference dataset is available but period/phase variables are in ADSL, then the former can again be created from ADSL by calling create_period_dataset(), as was showcased here.

This time, when calling create_period_dataset() we just need to make sure we include TRTA = TRTxxA as part of the new_vars argument to create the treatment variables as well.

period_ref1 <- adsl %>%
  create_period_dataset(
    new_vars = exprs(APERSDT = APxxSDT, APEREDT = APxxEDT, TRTA = TRTxxA)
  )
STUDYID USUBJID APERIOD APERSDT APEREDT TRTA
xyz 1 1 2022-01-02 2022-05-02 Drug X
xyz 1 2 2022-05-03 2022-09-10 Drug Y
xyz 2 1 2023-10-20 2024-02-19 Drug Y
xyz 2 2 2024-02-20 2024-06-30 Drug X