Creating ADFACE

Introduction

This article describes about creating ADFACE ADaM dataset which is part of Vaccine - Reactogenicity based on the Center for Biologics Evaluation and Research (CBER) guidelines.

See the below links for more information:

Center for Biologics Evaluation and Research (CBER) Guidelines

Therapeutic Area Data Standards User Guide for Vaccines (TAUG-Vax)

Examples are currently tested using ADSL (ADaM) and face, vs, ex (SDTM) inputs.

Note: All examples assume CDISC SDTM and/or ADaM format as input unless otherwise specified.

Programming Workflow

Read in Data

To start, all data frames needed for the creation of ADFACE should be read into the environment. Some of the data frames needed are VS,EX and FACE.

library(admiral)
library(admiralvaccine)
library(admiraldev)
library(pharmaversesdtm)
library(dplyr, warn.conflicts = FALSE)
library(lubridate)
library(stringr)
library(tidyr)
library(tibble)

data("face_vaccine")
data("suppface_vaccine")
data("ex_vaccine")
data("suppex_vaccine")
data("vs_vaccine")
data("admiralvaccine_adsl")

face <- convert_blanks_to_na(face_vaccine)
ex <- convert_blanks_to_na(ex_vaccine)
vs <- convert_blanks_to_na(vs_vaccine)
suppface <- convert_blanks_to_na(suppface_vaccine)
suppex <- convert_blanks_to_na(suppex_vaccine)
adsl <- convert_blanks_to_na(admiralvaccine_adsl)

Pre-processing of Input Dataset

This step involves company-specific pre-processing of required input dataset for further analysis. In this step, we will filter records that has only reactogenicity events.

face <- face %>%
  filter(FACAT == "REACTOGENICITY" & grepl("ADMIN|SYS", FASCAT)) %>%
  mutate(FAOBJ = str_to_upper(FAOBJ))
USUBJID FAOBJ FATESTCD FACAT FASCAT FATPTREF FADTC
ABC-1001 CHILLS OCCUR REACTOGENICITY SYSTEMIC VACCINATION 1 2021-11-03T18:00:23
ABC-1001 CHILLS OCCUR REACTOGENICITY SYSTEMIC VACCINATION 1 2021-11-04T18:01:09
ABC-1001 CHILLS OCCUR REACTOGENICITY SYSTEMIC VACCINATION 1 2021-11-05T19:04:07
ABC-1001 CHILLS OCCUR REACTOGENICITY SYSTEMIC VACCINATION 1 2021-11-06T18:00:33
ABC-1001 CHILLS OCCUR REACTOGENICITY SYSTEMIC VACCINATION 1 2021-11-07T18:01:25
ABC-1001 CHILLS OCCUR REACTOGENICITY SYSTEMIC VACCINATION 1 2021-11-08T18:00:26
ABC-1001 CHILLS OCCUR REACTOGENICITY SYSTEMIC VACCINATION 1 2021-11-09T18:08:04
ABC-1001 PAIN AT INJECTION SITE OCCUR REACTOGENICITY ADMINISTRATION SITE VACCINATION 1 2021-11-03T18:00:23
ABC-1001 PAIN AT INJECTION SITE OCCUR REACTOGENICITY ADMINISTRATION SITE VACCINATION 1 2021-11-04T18:01:09
ABC-1001 PAIN AT INJECTION SITE SEV REACTOGENICITY ADMINISTRATION SITE VACCINATION 1 2021-11-04T18:01:09

Merge FACE with EX

In this step, we will merge face with ex domain and add required variables from ex domain to the input dataset. If subjects have multiple vaccination at same visit then this function will not merge input dataset with ex dataset and throws a warning.

The function derive_vars_merged_vaccine() is used to merge face with ex domain.

adface <- derive_vars_merged_vaccine(
  dataset = face,
  dataset_ex = ex,
  dataset_supp = suppface,
  dataset_suppex = suppex,
  by_vars_sys = exprs(USUBJID, FATPTREF = EXLNKGRP),
  by_vars_adms = exprs(USUBJID, FATPTREF = EXLNKGRP, FALOC = EXLOC, FALAT = EXLAT),
  ex_vars = exprs(EXTRT, EXDOSE, EXSEQ, EXSTDTC, EXENDTC, VISIT, VISITNUM)
)
USUBJID FAOBJ FATESTCD FATPTREF EXTRT
ABC-1001 PAIN AT INJECTION SITE OCCUR VACCINATION 1 VACCINE A
ABC-1001 PAIN AT INJECTION SITE OCCUR VACCINATION 1 VACCINE A
ABC-1001 PAIN AT INJECTION SITE SEV VACCINATION 1 VACCINE A
ABC-1001 PAIN AT INJECTION SITE OCCUR VACCINATION 1 VACCINE A
ABC-1001 PAIN AT INJECTION SITE SEV VACCINATION 1 VACCINE A
ABC-1001 PAIN AT INJECTION SITE OCCUR VACCINATION 1 VACCINE A
ABC-1001 PAIN AT INJECTION SITE SEV VACCINATION 1 VACCINE A
ABC-1001 PAIN AT INJECTION SITE OCCUR VACCINATION 1 VACCINE A
ABC-1001 PAIN AT INJECTION SITE SEV VACCINATION 1 VACCINE A
ABC-1001 PAIN AT INJECTION SITE OCCUR VACCINATION 1 VACCINE A

This call would return the input dataset with columns from ex_vars added if the subjects does not have multiple vaccination at same visit.

Though the function will throw warning if subjects have multiple vaccination at same visit, this call would return the input dataset merging it with supplementary dataset.

Merge Required ADSL Variables Needed for Analysis

At this step, it may be useful to join ADSL to your face domain. Only the ADSL variables used for derivations are selected at this step. The rest of the relevant ADSL variables would be added later.

adsl_vars <- exprs(RFSTDTC, RFENDTC)

adface <- derive_vars_merged(
  face,
  dataset_add = adsl,
  new_vars = adsl_vars,
  by_vars = exprs(STUDYID, USUBJID)
)
USUBJID RFSTDTC RFENDTC
ABC-1001 2021-11-03T10:50:00 2022-04-27
ABC-1001 2021-11-03T10:50:00 2022-04-27
ABC-1001 2021-11-03T10:50:00 2022-04-27
ABC-1001 2021-11-03T10:50:00 2022-04-27
ABC-1001 2021-11-03T10:50:00 2022-04-27
ABC-1001 2021-11-03T10:50:00 2022-04-27
ABC-1001 2021-11-03T10:50:00 2022-04-27
ABC-1001 2021-11-03T10:50:00 2022-04-27
ABC-1001 2021-11-03T10:50:00 2022-04-27
ABC-1001 2021-11-03T10:50:00 2022-04-27

This call would return the input dataset with columns RFSTDTC, RFENDTC added.

Derive Fever Records from VS Domain

In this step, we will merge fever records from the VS domain with the input dataset if the fever records does not present in the input dataset.

The function derive_fever_records() is used to merge fever records. These records will also be used in maximum temperature calculation.

adface <- derive_fever_records(
  dataset = adface,
  dataset_source = ungroup(vs),
  filter_source = VSCAT == "REACTOGENICITY" & VSTESTCD == "TEMP",
  faobj = "FEVER"
)
USUBJID FAOBJ FATESTCD FAORRES VSSTRESN
ABC-1001 FEVER OCCUR N 36.61
ABC-1001 FEVER OCCUR N 37.28
ABC-1001 FEVER OCCUR N 36.28
ABC-1001 FEVER OCCUR N 36.83
ABC-1001 FEVER OCCUR N 36.56
ABC-1001 FEVER OCCUR N 37.28
ABC-1001 FEVER OCCUR N 36.72
ABC-1001 FEVER OCCUR NA NA
ABC-1001 FEVER OCCUR NA NA
ABC-1001 FEVER OCCUR NA NA

This call returns the input dataset with FEVER records added if the input dataset does not have FEVER records. If the input dataset has FEVER records, the output dataset will be same as the input dataset.

Derive/Impute Numeric Date/Time and Analysis Day (ADT, ADTM, ADTF, ATMF, ADY)

The function derive_vars_dt() can be used to derive ADT. This function allows the user to impute the date as well.

Similarly, ADTM can be created using the function derive_vars_dtm(). Imputation can be done on both the date and time components of ADTM.

Example calls:

adface <- adface %>%
  derive_vars_dt(
    new_vars_prefix = "A",
    dtc = FADTC
  ) %>%
  derive_vars_dtm(
    new_vars_prefix = "A",
    dtc = FADTC,
    highest_imputation = "n"
  )

Once ADT is derived, the function derive_vars_dy() can be used to derive ADY. This example assumes both ADT and RFSTDTC exist on the data frame.

adface <- adface %>%
  mutate(RFSTDTC = as.Date(RFSTDTC)) %>%
  derive_vars_dy(reference_date = RFSTDTC, source_vars = exprs(ADT))
USUBJID FATPTREF FAOBJ ADT ADTM ADY
ABC-1001 VACCINATION 1 CHILLS 2021-11-03 2021-11-03 18:00:23 1
ABC-1001 VACCINATION 1 CHILLS 2021-11-04 2021-11-04 18:01:09 2
ABC-1001 VACCINATION 1 CHILLS 2021-11-05 2021-11-05 19:04:07 3
ABC-1001 VACCINATION 1 CHILLS 2021-11-06 2021-11-06 18:00:33 4
ABC-1001 VACCINATION 1 CHILLS 2021-11-07 2021-11-07 18:01:25 5
ABC-1001 VACCINATION 1 CHILLS 2021-11-08 2021-11-08 18:00:26 6
ABC-1001 VACCINATION 1 CHILLS 2021-11-09 2021-11-09 18:08:04 7
ABC-1001 VACCINATION 1 PAIN AT INJECTION SITE 2021-11-03 2021-11-03 18:00:23 1
ABC-1001 VACCINATION 1 PAIN AT INJECTION SITE 2021-11-04 2021-11-04 18:01:09 2
ABC-1001 VACCINATION 1 PAIN AT INJECTION SITE 2021-11-04 2021-11-04 18:01:09 2

Derive Period Variables (e.g. APxxSDT, APxxEDT, …)

The {admiral} core package has separate functions to handle period variables since these variables are study specific.

See the “Visit and Period Variables” vignette for more information.

If the variables are not derived based on a period reference dataset, they may be derived at a later point of the flow. For example, phases like “Treatment Phase” and “Follow up” could be derived based on treatment start and end date.

period_ref <- create_period_dataset(
  dataset = adsl,
  new_vars = exprs(
    APERSDT = APxxSDT, APEREDT = APxxEDT, TRTA = TRTxxA,
    TRTP = TRTxxP
  )
)

adface <- derive_vars_joined(
  adface,
  dataset_add = period_ref,
  by_vars = exprs(STUDYID, USUBJID),
  filter_join = ADT >= APERSDT & ADT <= APEREDT,
  join_type = "all"
)
USUBJID APERSDT APEREDT TRTA TRTP
ABC-1001 2021-11-03 2021-12-29 VACCINE A VACCINE A
ABC-1001 2021-11-03 2021-12-29 VACCINE A VACCINE A
ABC-1001 2021-11-03 2021-12-29 VACCINE A VACCINE A
ABC-1001 2021-11-03 2021-12-29 VACCINE A VACCINE A
ABC-1001 2021-11-03 2021-12-29 VACCINE A VACCINE A
ABC-1001 2021-11-03 2021-12-29 VACCINE A VACCINE A
ABC-1001 2021-11-03 2021-12-29 VACCINE A VACCINE A
ABC-1001 2021-11-03 2021-12-29 VACCINE A VACCINE A
ABC-1001 2021-11-03 2021-12-29 VACCINE A VACCINE A
ABC-1001 2021-11-03 2021-12-29 VACCINE A VACCINE A

Derive Direct Mapping Variables

In this step,we will create the user defined function to assign AVAL values from AVALC which will be used in further steps.

The user defined functions would look like the following:

sev_to_numeric <- function(x, y) {
  case_when(
    x == "NONE" ~ 0,
    x == "MILD" ~ 1,
    x == "MODERATE" ~ 2,
    x == "SEVERE" ~ 3,
    TRUE ~ y
  )
}

The mapping of these variables is left to the User. An example mapping may be:

adface <- adface %>%
  mutate(
    AVALC = as.character(FASTRESC),
    AVAL = suppressWarnings(as.numeric(FASTRESN)),
    AVAL = sev_to_numeric(AVALC, AVAL),
    ATPTREF = FATPTREF,
    ATPT = FATPT,
    ATPTN = FATPTNUM
  )
USUBJID FAOBJ AVAL AVALC ATPTREF ATPTN
ABC-1001 CHILLS NA N VACCINATION 1 1
ABC-1001 CHILLS NA N VACCINATION 1 2
ABC-1001 CHILLS NA N VACCINATION 1 3
ABC-1001 CHILLS NA N VACCINATION 1 4
ABC-1001 CHILLS NA N VACCINATION 1 5
ABC-1001 CHILLS NA N VACCINATION 1 6
ABC-1001 CHILLS NA N VACCINATION 1 7
ABC-1001 PAIN AT INJECTION SITE NA N VACCINATION 1 1
ABC-1001 PAIN AT INJECTION SITE NA Y VACCINATION 1 2
ABC-1001 PAIN AT INJECTION SITE 2 MODERATE VACCINATION 1 2

Derive Severity Records for Administration Site Events

The function derive_diam_to_sev_records() is used to derive the severity records from the diameter records for an event.

The severity records created will be useful for calculating the maximum severity.

adface <- derive_diam_to_sev_records(
  dataset = adface,
  diam_code = "DIAMETER",
  faobj_values = c("REDNESS", "SWELLING"),
  testcd_sev = "SEV",
  test_sev = "Severity/Intensity",
  none = 0,
  mild = 2,
  mod = 5,
  sev = 10
)
USUBJID FAOBJ ATPTREF FATESTCD FATEST AVAL AVALC
ABC-1001 REDNESS VACCINATION 1 SEV Severity/Intensity 2 MODERATE
ABC-1001 SWELLING VACCINATION 1 SEV Severity/Intensity 0 NONE
ABC-1001 SWELLING VACCINATION 1 SEV Severity/Intensity 2 MODERATE
ABC-1001 SWELLING VACCINATION 1 SEV Severity/Intensity 1 MILD
ABC-1001 SWELLING VACCINATION 1 SEV Severity/Intensity 1 MILD
ABC-1001 SWELLING VACCINATION 1 SEV Severity/Intensity 1 MILD
ABC-1001 SWELLING VACCINATION 1 SEV Severity/Intensity 1 MILD
ABC-1001 SWELLING VACCINATION 1 SEV Severity/Intensity 0 NONE
ABC-1002 REDNESS VACCINATION 1 SEV Severity/Intensity 1 MILD
ABC-1002 REDNESS VACCINATION 2 SEV Severity/Intensity 1 MILD

This call returns the input dataset with severity records derived from the diameter records for an event.

By default, we will populate SEV and Severity/Intensity as the FATESTCD and FATEST for the newly added records. The function allows the user to change the FATESTCD and FATEST as well.

Derive Maximum Records

In this step, we will derive maximum records for severity, diameter, temperature using the function derive_extreme_records().

adface <- derive_extreme_records(
  dataset = adface,
  dataset_add = adface,
  filter_add = FATESTCD == "SEV",
  by_vars = exprs(USUBJID, FAOBJ, ATPTREF),
  order = exprs(AVAL),
  check_type = "none",
  mode = "last",
  set_values_to = exprs(
    FATEST = "Maximum Severity",
    FATESTCD = "MAXSEV"
  )
)

adface <- derive_extreme_records(
  dataset = adface,
  dataset_add = adface,
  filter_add = FAOBJ %in% c("REDNESS", "SWELLING") & FATESTCD == "DIAMETER",
  by_vars = exprs(USUBJID, FAOBJ, FALNKGRP),
  order = exprs(AVAL),
  check_type = "none",
  mode = "last",
  set_values_to = exprs(
    FATEST = "Maximum Diameter",
    FATESTCD = "MAXDIAM"
  )
)

adface <- derive_extreme_records(
  dataset = adface,
  dataset_add = adface,
  filter_add = FAOBJ == "FEVER",
  by_vars = exprs(USUBJID, FAOBJ, ATPTREF),
  order = exprs(VSSTRESN),
  check_type = "none",
  mode = "last",
  set_values_to = exprs(
    FATEST = "Maximum Temperature",
    FATESTCD = "MAXTEMP"
  )
)
USUBJID FAOBJ ATPTREF FATESTCD FATEST AVAL AVALC
ABC-1001 FATIGUE VACCINATION 1 MAXSEV Maximum Severity 1 MILD
ABC-1001 NEW OR WORSENED JOINT PAIN VACCINATION 1 MAXSEV Maximum Severity 1 MILD
ABC-1001 NEW OR WORSENED MUSCLE PAIN VACCINATION 1 MAXSEV Maximum Severity 1 MILD
ABC-1001 PAIN AT INJECTION SITE VACCINATION 1 MAXSEV Maximum Severity 2 MODERATE
ABC-1001 REDNESS VACCINATION 1 MAXSEV Maximum Severity 2 MODERATE
ABC-1001 SWELLING VACCINATION 1 MAXSEV Maximum Severity 2 MODERATE
ABC-1002 HEADACHE VACCINATION 1 MAXSEV Maximum Severity 2 MODERATE
ABC-1002 HEADACHE VACCINATION 2 MAXSEV Maximum Severity 1 MILD
ABC-1002 PAIN AT INJECTION SITE VACCINATION 2 MAXSEV Maximum Severity 1 MILD
ABC-1002 REDNESS VACCINATION 1 MAXSEV Maximum Severity 1 MILD

This call returns the input dataset with maximum records added for the severity, diameter, temperature.

Assign PARAMCD, PARAM, PARAMN, PARCAT1

To assign parameter level values such as PARAMCD, PARAM, PARAMN, etc., a lookup needs to be created to join to the source data. PARCAT1, PARCAT2 variables are assigned from FACAT, FASCAT variables.

For example, when creating ADFACE dataset, a lookup based on the SDTM --TESTCD value can be created:

FATESTCD PARAMCD PARAMN FATEST
SEV SEVREDN 1 Severity
DIAMETER DIARE 2 Diameter
MAXDIAM MDIRE 3 Maximum Diameter cm
MAXTEMP MAXTEMP 4 Maximum Temperature
MAXSEV MAXSWEL 5 Maximum Severity
OCCUR OCFEVER 6 Occurrence Indicator
OCCUR OCERYTH 7 Occurrence Indicator
SEV SEVPAIN 8 Severity
OCCUR OCPAIN 9 Occurrence Indicator
OCCUR OCSWEL 10 Occurrence Indicator

This lookup can now be joined to the source data:

adface <- derive_vars_params(
  dataset = adface,
  lookup_dataset = lookup_dataset,
  merge_vars = exprs(PARAMCD, PARAMN)
)
USUBJID FAOBJ ATPTREF FATEST PARAMCD PARAM PARAMN PARCAT1 PARCAT2
ABC-1001 REDNESS VACCINATION 1 Severity/Intensity SEVREDN Redness severity/intensity deltoid muscle left 1 REACTOGENICITY ADMINISTRATION SITE
ABC-1001 SWELLING VACCINATION 1 Severity/Intensity SEVSWEL Swelling severity/intensity deltoid muscle left 22 REACTOGENICITY ADMINISTRATION SITE
ABC-1001 SWELLING VACCINATION 1 Severity/Intensity SEVSWEL Swelling severity/intensity deltoid muscle left 22 REACTOGENICITY ADMINISTRATION SITE
ABC-1001 SWELLING VACCINATION 1 Severity/Intensity SEVSWEL Swelling severity/intensity deltoid muscle left 22 REACTOGENICITY ADMINISTRATION SITE
ABC-1001 SWELLING VACCINATION 1 Severity/Intensity SEVSWEL Swelling severity/intensity deltoid muscle left 22 REACTOGENICITY ADMINISTRATION SITE
ABC-1001 SWELLING VACCINATION 1 Severity/Intensity SEVSWEL Swelling severity/intensity deltoid muscle left 22 REACTOGENICITY ADMINISTRATION SITE
ABC-1001 SWELLING VACCINATION 1 Severity/Intensity SEVSWEL Swelling severity/intensity deltoid muscle left 22 REACTOGENICITY ADMINISTRATION SITE
ABC-1001 SWELLING VACCINATION 1 Severity/Intensity SEVSWEL Swelling severity/intensity deltoid muscle left 22 REACTOGENICITY ADMINISTRATION SITE
ABC-1002 REDNESS VACCINATION 1 Severity/Intensity SEVREDN Redness severity/intensity deltoid muscle left 1 REACTOGENICITY ADMINISTRATION SITE
ABC-1002 REDNESS VACCINATION 2 Severity/Intensity SEVREDN Redness severity/intensity deltoid muscle left 1 REACTOGENICITY ADMINISTRATION SITE

PARAMCD will be always derived from lookup dataset whereas PARAMN, PARAM, PARCAT1, PARCAT2 can be either derived from lookup dataset if mentioned in merge_vars argument or derived in the function.

Derive Maximum Severity Flag

The function derive_vars_max_flag() is used to derive flag variable for the maximum values of an event.

flag1 - Flags the maximum value per subject per event per Vaccination. flag2 - Flags the maximum value per subject per event for Overall.

adface <- derive_vars_max_flag(
  dataset = adface,
  flag1 = "ANL01FL",
  flag2 = "ANL02FL"
)
#> Joining with `by = join_by(STUDYID, DOMAIN, USUBJID, FASEQ, FALNKGRP, PARAM,
#> FALAT, FALNKID, FALOC, FATESTCD, FATEST, FAOBJ, FACAT, FASCAT, FAEVAL, FAORRES,
#> FAORRESU, EPOCH, FADTC, FADY, FATPT, FATPTNUM, FATPTREF, FARFTDTC, FAEVLINT,
#> FAEVINTX, FASTAT, FAREASND, FASTRESC, FASTRESN, FASTRESU, RFSTDTC, RFENDTC,
#> VSSTRESN, ADT, ADTM, ADY, APERIOD, APERSDT, APEREDT, TRTA, TRTP, AVALC, AVAL,
#> ATPTREF, ATPT, ATPTN, PARAMCD, PARAMN, PARCAT1, PARCAT2)`
#> Joining with `by = join_by(STUDYID, DOMAIN, USUBJID, FASEQ, FALNKGRP, PARAM,
#> FALAT, FALNKID, FALOC, FATESTCD, FATEST, FAOBJ, FACAT, FASCAT, FAEVAL, FAORRES,
#> FAORRESU, EPOCH, FADTC, FADY, FATPT, FATPTNUM, FATPTREF, FARFTDTC, FAEVLINT,
#> FAEVINTX, FASTAT, FAREASND, FASTRESC, FASTRESN, FASTRESU, RFSTDTC, RFENDTC,
#> VSSTRESN, ADT, ADTM, ADY, APERIOD, APERSDT, APEREDT, TRTA, TRTP, AVALC, AVAL,
#> ATPTREF, ATPT, ATPTN, PARAMCD, PARAMN, PARCAT1, PARCAT2, ANL01FL)`
USUBJID FAOBJ ATPTREF AVAL AVALC ANL01FL ANL02FL
ABC-1001 REDNESS VACCINATION 1 2 MODERATE Y Y
ABC-1001 SWELLING VACCINATION 1 0 NONE NA NA
ABC-1001 SWELLING VACCINATION 1 2 MODERATE Y Y
ABC-1001 SWELLING VACCINATION 1 1 MILD NA NA
ABC-1001 SWELLING VACCINATION 1 1 MILD NA NA
ABC-1001 SWELLING VACCINATION 1 1 MILD NA NA
ABC-1001 SWELLING VACCINATION 1 1 MILD NA NA
ABC-1001 SWELLING VACCINATION 1 0 NONE NA NA
ABC-1002 REDNESS VACCINATION 1 1 MILD Y NA
ABC-1002 REDNESS VACCINATION 2 1 MILD Y Y

This call would return the input dataset with columns ANL01FL, ANL02FL added by default. This function allows the user to change the name of the new variables created.

Derive Event Occurrence Flag

The function derive_vars_event_flag() is used to derive flag variable for the events that occurred.

new_var1 - Flags the record if at least one of the event occurred within the observation period. new_var2 - Flags the record if the event is occurred.

adface <- derive_vars_event_flag(
  dataset = adface,
  by_vars = exprs(USUBJID, FAOBJ, ATPTREF),
  aval_cutoff = 2.5,
  new_var1 = EVENTFL,
  new_var2 = EVENTDFL
)
USUBJID FAOBJ ATPTREF AVAL AVALC EVENTFL EVENTDFL
ABC-1001 REDNESS VACCINATION 1 2 MODERATE Y Y
ABC-1001 SWELLING VACCINATION 1 0 NONE Y N
ABC-1001 SWELLING VACCINATION 1 2 MODERATE Y Y
ABC-1001 SWELLING VACCINATION 1 1 MILD Y Y
ABC-1001 SWELLING VACCINATION 1 1 MILD Y Y
ABC-1001 SWELLING VACCINATION 1 1 MILD Y Y
ABC-1001 SWELLING VACCINATION 1 1 MILD Y Y
ABC-1001 SWELLING VACCINATION 1 0 NONE Y N
ABC-1002 REDNESS VACCINATION 1 1 MILD Y Y
ABC-1002 REDNESS VACCINATION 2 1 MILD Y Y

This call would return the input dataset with columns EVENTFL, EVENTDFL added by default. This function allows the user to change the name of the new variables created as well.

Post-processing of the Dataset

In this step, we will remove values for all the derived records in SDTM variables.

adface <- post_process_reacto(
  dataset = adface,
  filter_dataset = FATESTCD %in% c("MAXDIAM", "MAXSEV", "MAXTEMP") |
    (FATESTCD %in% c("OCCUR", "SEV") & FAOBJ %in% c("FEVER", "REDNESS", "SWELLING"))
)

Add ADSL variables

If needed, the other ADSL variables can now be added. List of ADSL variables already merged held in vector adsl_vars

adsl <- adsl %>%
  convert_blanks_to_na() %>%
  filter(!is.na(USUBJID))

adface <- derive_vars_merged(
  dataset = adface,
  dataset_add = select(adsl, !!!negate_vars(adsl_vars)),
  by_vars = exprs(STUDYID, USUBJID)
)
USUBJID TRTSDT TRTEDT AGE SEX
ABC-1001 2021-11-03 2021-12-30 74 F
ABC-1001 2021-11-03 2021-12-30 74 F
ABC-1001 2021-11-03 2021-12-30 74 F
ABC-1001 2021-11-03 2021-12-30 74 F
ABC-1001 2021-11-03 2021-12-30 74 F
ABC-1001 2021-11-03 2021-12-30 74 F
ABC-1001 2021-11-03 2021-12-30 74 F
ABC-1001 2021-11-03 2021-12-30 74 F
ABC-1002 2021-10-07 2021-12-16 70 F
ABC-1002 2021-10-07 2021-12-16 70 F

Example Script

ADaM Sample Code
ADFACE ad_adface.R