Incidence rates describe the rate at which new events occur in a population, with the denominator the person-time at risk of the event during this period. In the previous vignettes we have seen how we can identify a set of denominator and outcome cohorts. Incidence rates can then be calculated using time contributed from these denominator cohorts up to their entry into an outcome cohort.
There are a number of options to consider when calculating incidence rates. This package accommodates two main parameters, including:
In this example there is no outcome washout specified and repetitive events are not allowed, so individuals contribute time up to their first event during the study period.
In this example the outcome washout is all history and repetitive events are not allowed. As before individuals contribute time up to their first event during the study period, but having an outcome prior to the study period (such as person “3”) means that no time at risk is contributed.
In this example there is some amount of outcome washout and repetitive events are not allowed. As before individuals contribute time up to their first event during the study period, but having an outcome prior to the study period (such as person “3”) means that time at risk is only contributed once sufficient time has passed for the outcome washout criteria to have been satisfied.
Now repetitive events are allowed with some amount of outcome washout specified. So individuals contribute time up to their first event during the study period, and then after passing the outcome washout requirement they begin to contribute time at risk again.
Outcome cohorts are defined externally. When creating outcome cohorts for estimating incidence, the most important recommendations for defining an outcome cohort for calculating incidence are:
generateDenominatorCohortSet()
function.estimateIncidence()
is the function we use to estimate
incidence rates. To demonstrate its use, let´s load the
IncidencePrevalence package (along with a couple of packages to help for
subsequent plots) and generate 50,000 example patients using the
mockIncidencePrevalenceRef()
function, from whom we´ll
create a denominator population without adding any restrictions other
than a study period. In this example we’ll use permanent tables (rather
than temporary tables which would be used by default).
library(IncidencePrevalence)
library(dplyr)
library(tidyr)
cdm <- mockIncidencePrevalenceRef(
sampleSize = 20000,
earliestObservationStartDate = as.Date("1960-01-01"),
minOutcomeDays = 365,
outPre = 0.3
)
cdm <- generateDenominatorCohortSet(
cdm = cdm, name = "denominator",
cohortDateRange = c(as.Date("1990-01-01"), as.Date("2009-12-31")),
ageGroup = list(c(0, 150)),
sex = "Both",
daysPriorObservation = 0
)
#> ℹ Creating denominator cohorts
#> ✔ Cohorts created in 0 min and 3 sec
cdm$denominator %>%
glimpse()
#> Rows: ??
#> Columns: 4
#> Database: DuckDB v1.1.2 [unknown@Linux 6.5.0-1025-azure:R 4.4.1/:memory:]
#> $ cohort_definition_id <int> 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1…
#> $ subject_id <int> 1, 3, 10, 12, 14, 16, 18, 19, 20, 22, 23, 25, 27,…
#> $ cohort_start_date <date> 1991-08-05, 2007-02-16, 2009-04-21, 1992-01-28, …
#> $ cohort_end_date <date> 1996-01-10, 2007-12-09, 2009-12-31, 1999-08-18, …
Let´s first calculate incidence rates on a yearly basis, without allowing repetitive events
inc <- estimateIncidence(
cdm = cdm,
denominatorTable = "denominator",
outcomeTable = "outcome",
interval = "years",
outcomeWashout = 0,
repeatedEvents = FALSE
)
inc %>%
glimpse()
#> Rows: 184
#> Columns: 13
#> $ result_id <int> 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,…
#> $ cdm_name <chr> "mock", "mock", "mock", "mock", "mock", "mock", "mock…
#> $ group_name <chr> "denominator_cohort_name", "denominator_cohort_name",…
#> $ group_level <chr> "denominator_cohort_1", "denominator_cohort_1", "deno…
#> $ strata_name <chr> "overall", "overall", "overall", "overall", "overall"…
#> $ strata_level <chr> "overall", "overall", "overall", "overall", "overall"…
#> $ variable_name <chr> "outcome_cohort_name", "outcome_cohort_name", "outcom…
#> $ variable_level <chr> "cohort_1", "cohort_1", "cohort_1", "cohort_1", "coho…
#> $ estimate_name <chr> "denominator_count", "outcome_count", "person_days", …
#> $ estimate_type <chr> "integer", "integer", "numeric", "numeric", "numeric"…
#> $ estimate_value <chr> "2517", "107", "760044", "2080.887", "5142.038", "421…
#> $ additional_name <chr> "incidence_start_date &&& incidence_end_date", "incid…
#> $ additional_level <chr> "1990-01-01 &&& 1990-12-31", "1990-01-01 &&& 1990-12-…
plotIncidence(inc)
Now with a washout of all prior history while still not allowing
repetitive events. Here we use Inf
to specify that we will
use a washout of all prior history for an individual.
inc <- estimateIncidence(
cdm = cdm,
denominatorTable = "denominator",
outcomeTable = "outcome",
interval = "years",
outcomeWashout = Inf,
repeatedEvents = FALSE
)
inc %>%
glimpse()
#> Rows: 184
#> Columns: 13
#> $ result_id <int> 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,…
#> $ cdm_name <chr> "mock", "mock", "mock", "mock", "mock", "mock", "mock…
#> $ group_name <chr> "denominator_cohort_name", "denominator_cohort_name",…
#> $ group_level <chr> "denominator_cohort_1", "denominator_cohort_1", "deno…
#> $ strata_name <chr> "overall", "overall", "overall", "overall", "overall"…
#> $ strata_level <chr> "overall", "overall", "overall", "overall", "overall"…
#> $ variable_name <chr> "outcome_cohort_name", "outcome_cohort_name", "outcom…
#> $ variable_level <chr> "cohort_1", "cohort_1", "cohort_1", "cohort_1", "coho…
#> $ estimate_name <chr> "denominator_count", "outcome_count", "person_days", …
#> $ estimate_type <chr> "integer", "integer", "numeric", "numeric", "numeric"…
#> $ estimate_value <chr> "2168", "107", "659947", "1806.836", "5921.954", "485…
#> $ additional_name <chr> "incidence_start_date &&& incidence_end_date", "incid…
#> $ additional_level <chr> "1990-01-01 &&& 1990-12-31", "1990-01-01 &&& 1990-12-…
plotIncidence(inc)
Now we´ll set the washout to 180 days while still not allowing repetitive events
inc <- estimateIncidence(
cdm = cdm,
denominatorTable = "denominator",
outcomeTable = "outcome",
interval = "years",
outcomeWashout = 180,
repeatedEvents = FALSE
)
inc %>%
glimpse()
#> Rows: 184
#> Columns: 13
#> $ result_id <int> 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,…
#> $ cdm_name <chr> "mock", "mock", "mock", "mock", "mock", "mock", "mock…
#> $ group_name <chr> "denominator_cohort_name", "denominator_cohort_name",…
#> $ group_level <chr> "denominator_cohort_1", "denominator_cohort_1", "deno…
#> $ strata_name <chr> "overall", "overall", "overall", "overall", "overall"…
#> $ strata_level <chr> "overall", "overall", "overall", "overall", "overall"…
#> $ variable_name <chr> "outcome_cohort_name", "outcome_cohort_name", "outcom…
#> $ variable_level <chr> "cohort_1", "cohort_1", "cohort_1", "cohort_1", "coho…
#> $ estimate_name <chr> "denominator_count", "outcome_count", "person_days", …
#> $ estimate_type <chr> "integer", "integer", "numeric", "numeric", "numeric"…
#> $ estimate_value <chr> "2491", "107", "743647", "2035.995", "5255.416", "430…
#> $ additional_name <chr> "incidence_start_date &&& incidence_end_date", "incid…
#> $ additional_level <chr> "1990-01-01 &&& 1990-12-31", "1990-01-01 &&& 1990-12-…
plotIncidence(inc)
And finally we´ll set the washout to 180 days and allow repetitive events
inc <- estimateIncidence(
cdm = cdm,
denominatorTable = "denominator",
outcomeTable = "outcome",
interval = "years",
outcomeWashout = 180,
repeatedEvents = TRUE
)
inc %>%
glimpse()
#> Rows: 184
#> Columns: 13
#> $ result_id <int> 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,…
#> $ cdm_name <chr> "mock", "mock", "mock", "mock", "mock", "mock", "mock…
#> $ group_name <chr> "denominator_cohort_name", "denominator_cohort_name",…
#> $ group_level <chr> "denominator_cohort_1", "denominator_cohort_1", "deno…
#> $ strata_name <chr> "overall", "overall", "overall", "overall", "overall"…
#> $ strata_level <chr> "overall", "overall", "overall", "overall", "overall"…
#> $ variable_name <chr> "outcome_cohort_name", "outcome_cohort_name", "outcom…
#> $ variable_level <chr> "cohort_1", "cohort_1", "cohort_1", "cohort_1", "coho…
#> $ estimate_name <chr> "denominator_count", "outcome_count", "person_days", …
#> $ estimate_type <chr> "integer", "integer", "numeric", "numeric", "numeric"…
#> $ estimate_value <chr> "2491", "107", "743647", "2035.995", "5255.416", "430…
#> $ additional_name <chr> "incidence_start_date &&& incidence_end_date", "incid…
#> $ additional_level <chr> "1990-01-01 &&& 1990-12-31", "1990-01-01 &&& 1990-12-…
plotIncidence(inc)
As with prevalence. if we specified multiple denominator populations results will be returned for each. Here for example we define three age groups for denominator populations and get three sets of estimates back when estimating incidence
cdm <- generateDenominatorCohortSet(
cdm = cdm, name = "denominator_age_sex",
cohortDateRange = c(as.Date("1990-01-01"), as.Date("2009-12-31")),
ageGroup = list(c(0, 39),
c(41, 65),
c(66, 150)),
sex = "Both",
daysPriorObservation = 0
)
#> ℹ Creating denominator cohorts
#> ✔ Cohorts created in 0 min and 5 sec
inc <- estimateIncidence(
cdm = cdm,
denominatorTable = "denominator_age_sex",
outcomeTable = "outcome",
interval = "years",
outcomeWashout = 180,
repeatedEvents = TRUE
)
#> Getting incidence for analysis 1 of 3
#> Getting incidence for analysis 2 of 3
#> Getting incidence for analysis 3 of 3
#> Overall time taken: 0 mins and 3 secs
plotIncidence(inc, facet = "denominator_age_group")
And again, as with prevalence while we specify time-varying stratifications when defining our denominator populations, if we have time-invariant stratifications we can include these at the the estimation stage.
cdm$denominator <- cdm$denominator %>%
mutate(group = if_else(as.numeric(subject_id) < 3000, "first", "second"))
inc <- estimateIncidence(
cdm = cdm,
denominatorTable = "denominator",
outcomeTable = "outcome",
strata = list("group"),
outcomeWashout = 180,
repeatedEvents = TRUE
)
#> Getting incidence for analysis 1 of 1
#> Overall time taken: 0 mins and 2 secs
plotIncidence(inc,
facet = "strata_level")
cdm$denominator <- cdm$denominator %>%
mutate(group_1 = if_else(as.numeric(subject_id) < 3000, "first", "second"),
group_2 = if_else(as.numeric(subject_id) < 2000, "one", "two"))
inc <- estimateIncidence(
cdm = cdm,
denominatorTable = "denominator",
outcomeTable = "outcome",
strata = list(c("group_1"), # for just group_1
c("group_2"), # for just group_2
c("group_1", "group_2")), # for group_1 and group_2 outcomeWashout = 180,
repeatedEvents = TRUE
)
#> Getting incidence for analysis 1 of 1
#> Overall time taken: 0 mins and 2 secs
plotIncidence(inc,
facet = "strata_level")
#> Warning: Removed 9 rows containing missing values or values outside the scale range
#> (`geom_point()`).
In the examples above, we have used calculated incidence rates by months and years, but it can be also calculated by weeks, months, quarters, or for the entire study time period. In addition, we can decide whether to include time intervals that are not fully captured in the database (e.g., having data up to June for the last study year when computing yearly incidence rates). By default, incidence will only be estimated for those intervals where the denominator cohort captures all the interval (completeDatabaseIntervals=TRUE).
Given that we can set estimateIncidence()
to exclude
individuals based on other parameters (e.g., outcomeWashout), it is
important to note that the denominator population used to compute
incidence rates might differ from the one calculated with
generateDenominatorCohortSet()
.
The user can also set the minimum number of events to be reported, below which results will be obscured. By default, results with <5 occurrences are blinded, but if minCellCount=0, all results will be reported. 95 % confidence intervals are calculated using the exact method. We can set verbose=TRUE to report progress as code is running. By default, no progress is reported (verbose=FALSE).
inc <- estimateIncidence(
cdm = cdm,
denominatorTable = "denominator",
outcomeTable = "outcome",
interval = c("weeks"),
completeDatabaseIntervals = FALSE,
outcomeWashout = 180,
repeatedEvents = TRUE,
minCellCount = 0
)
#> Getting incidence for analysis 1 of 1
#> Overall time taken: 0 mins and 12 secs
As with our prevalence results, we can also view the attrition associate with estimating incidence.
inc <- estimateIncidence(
cdm = cdm,
denominatorTable = "denominator",
outcomeTable = "outcome",
interval = c("Years"),
outcomeWashout = 180,
repeatedEvents = TRUE
)
tableIncidenceAttrition(inc)
Denominator cohort name | Reason | Reason id | Result type | Package name | Package version | Analysis outcome washout | Analysis repeated events | Analysis interval | Analysis complete database intervals | Denominator age group | Denominator sex | Denominator days prior observation | Denominator start date | Denominator end date | Denominator target cohort name | Denominator time at risk | Outcome cohort name | Min cell count |
Variable name
|
|||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Number records | Number subjects | Excluded records | Excluded subjects | |||||||||||||||||||
mock; cohort_1 | ||||||||||||||||||||||
denominator_cohort_1 | Starting population | 1 | incidence_attrition | IncidencePrevalence | 0.8.1 | 180 | TRUE | years | TRUE | 0 to 150 | Both | 0 | 1990-01-01 | 2009-12-31 | None | 0 to Inf | cohort_1 | 5 | 20,000 | 20,000 | <5 | <5 |
Missing year of birth | 2 | incidence_attrition | IncidencePrevalence | 0.8.1 | 180 | TRUE | years | TRUE | 0 to 150 | Both | 0 | 1990-01-01 | 2009-12-31 | None | 0 to Inf | cohort_1 | 5 | 20,000 | 20,000 | 0 | 0 | |
Missing sex | 3 | incidence_attrition | IncidencePrevalence | 0.8.1 | 180 | TRUE | years | TRUE | 0 to 150 | Both | 0 | 1990-01-01 | 2009-12-31 | None | 0 to Inf | cohort_1 | 5 | 20,000 | 20,000 | 0 | 0 | |
Cannot satisfy age criteria during the study period based on year of birth | 4 | incidence_attrition | IncidencePrevalence | 0.8.1 | 180 | TRUE | years | TRUE | 0 to 150 | Both | 0 | 1990-01-01 | 2009-12-31 | None | 0 to Inf | cohort_1 | 5 | 20,000 | 20,000 | 0 | 0 | |
No observation time available during study period | 5 | incidence_attrition | IncidencePrevalence | 0.8.1 | 180 | TRUE | years | TRUE | 0 to 150 | Both | 0 | 1990-01-01 | 2009-12-31 | None | 0 to Inf | cohort_1 | 5 | 10,399 | 10,399 | 9,601 | 9,601 | |
Doesn't satisfy age criteria during the study period | 6 | incidence_attrition | IncidencePrevalence | 0.8.1 | 180 | TRUE | years | TRUE | 0 to 150 | Both | 0 | 1990-01-01 | 2009-12-31 | None | 0 to Inf | cohort_1 | 5 | 10,399 | 10,399 | 0 | 0 | |
Prior history requirement not fulfilled during study period | 7 | incidence_attrition | IncidencePrevalence | 0.8.1 | 180 | TRUE | years | TRUE | 0 to 150 | Both | 0 | 1990-01-01 | 2009-12-31 | None | 0 to Inf | cohort_1 | 5 | 10,399 | 10,399 | 0 | 0 | |
No observation time available after applying age, prior observation and, if applicable, target criteria | 10 | incidence_attrition | IncidencePrevalence | 0.8.1 | 180 | TRUE | years | TRUE | 0 to 150 | Both | 0 | 1990-01-01 | 2009-12-31 | None | 0 to Inf | cohort_1 | 5 | 10,149 | 10,149 | 250 | 250 | |
Starting analysis population | 11 | incidence_attrition | IncidencePrevalence | 0.8.1 | 180 | TRUE | years | TRUE | 0 to 150 | Both | 0 | 1990-01-01 | 2009-12-31 | None | 0 to Inf | cohort_1 | 5 | 12,775 | 10,149 | <5 | <5 | |
Excluded due to prior event (do not pass outcome washout during study period) | 12 | incidence_attrition | IncidencePrevalence | 0.8.1 | 180 | TRUE | years | TRUE | 0 to 150 | Both | 0 | 1990-01-01 | 2009-12-31 | None | 0 to Inf | cohort_1 | 5 | 11,583 | 10,132 | 1,192 | 17 | |
Not observed during the complete database interval | 14 | incidence_attrition | IncidencePrevalence | 0.8.1 | 180 | TRUE | years | TRUE | 0 to 150 | Both | 0 | 1990-01-01 | 2009-12-31 | None | 0 to Inf | cohort_1 | 5 | 11,583 | 10,132 | 0 | 0 |