This transforms a vector to a new class disk
, which is a disk diffusion growth zone size (around an antibiotic disk) in millimetres between 6 and 50.
Arguments
- x
vector
- na.rm
a logical indicating whether missing values should be removed
Value
An integer with additional class disk
Details
Interpret disk values as RSI values with as.rsi()
. It supports guidelines from EUCAST and CLSI.
NA_disk_
is a missing value of the new <disk>
class.
Examples
# transform existing disk zones to the `disk` class (using base R)
df <- data.frame(
microorganism = "Escherichia coli",
AMP = 20,
CIP = 14,
GEN = 18,
TOB = 16
)
df[, 2:5] <- lapply(df[, 2:5], as.disk)
str(df)
#> 'data.frame': 1 obs. of 5 variables:
#> $ microorganism: chr "Escherichia coli"
#> $ AMP : 'disk' int 20
#> $ CIP : 'disk' int 14
#> $ GEN : 'disk' int 18
#> $ TOB : 'disk' int 16
# \donttest{
# transforming is easier with dplyr:
if (require("dplyr")) {
df %>% mutate(across(AMP:TOB, as.disk))
}
#> microorganism AMP CIP GEN TOB
#> 1 Escherichia coli 20 14 18 16
# }
# interpret disk values, see ?as.rsi
as.rsi(
x = as.disk(18),
mo = "Strep pneu", # `mo` will be coerced with as.mo()
ab = "ampicillin", # and `ab` with as.ab()
guideline = "EUCAST"
)
#> => Interpreting disk diffusion zones of 'ampicillin' according to EUCAST
#> 2022...
#> OK.
#> Class <rsi>
#> [1] R
# interpret whole data set, pretend to be all from urinary tract infections:
as.rsi(df, uti = TRUE)
#> ℹ Using column 'microorganism' as input for `col_mo`.
#> => Interpreting disk diffusion zones of column 'AMP' (ampicillin) according
#> to EUCAST 2022...
#> OK.
#> => Interpreting disk diffusion zones of column 'CIP' (ciprofloxacin)
#> according to EUCAST 2022...
#> OK.
#> => Interpreting disk diffusion zones of column 'GEN' (gentamicin) according
#> to EUCAST 2022...
#> OK.
#> => Interpreting disk diffusion zones of column 'TOB' (tobramycin) according
#> to EUCAST 2022...
#> OK.
#> microorganism AMP CIP GEN TOB
#> 1 Escherichia coli S R S S