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AMR/man/bug_drug_combinations.Rd

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3.5 KiB
R

% Generated by roxygen2: do not edit by hand
% Please edit documentation in R/bug_drug_combinations.R
\name{bug_drug_combinations}
\alias{bug_drug_combinations}
\alias{format.bug_drug_combinations}
\title{Determine Bug-Drug Combinations}
\usage{
bug_drug_combinations(x, col_mo = NULL, FUN = mo_shortname, ...)
\method{format}{bug_drug_combinations}(
x,
translate_ab = "name (ab, atc)",
language = get_AMR_locale(),
minimum = 30,
combine_SI = TRUE,
add_ab_group = TRUE,
remove_intrinsic_resistant = FALSE,
decimal.mark = getOption("OutDec"),
big.mark = ifelse(decimal.mark == ",", ".", ","),
...
)
}
\arguments{
\item{x}{a data set with antibiotic columns, such as \code{amox}, \code{AMX} and \code{AMC}}
\item{col_mo}{column name of the IDs of the microorganisms (see \code{\link[=as.mo]{as.mo()}}), defaults to the first column of class \code{\link{mo}}. Values will be coerced using \code{\link[=as.mo]{as.mo()}}.}
\item{FUN}{the function to call on the \code{mo} column to transform the microorganism codes, defaults to \code{\link[=mo_shortname]{mo_shortname()}}}
\item{...}{arguments passed on to \code{FUN}}
\item{translate_ab}{a \link{character} of length 1 containing column names of the \link{antibiotics} data set}
\item{language}{language of the returned text, defaults to system language (see \code{\link[=get_AMR_locale]{get_AMR_locale()}}) and can also be set with \code{getOption("AMR_locale")}. Use \code{language = NULL} or \code{language = ""} to prevent translation.}
\item{minimum}{the minimum allowed number of available (tested) isolates. Any isolate count lower than \code{minimum} will return \code{NA} with a warning. The default number of \code{30} isolates is advised by the Clinical and Laboratory Standards Institute (CLSI) as best practice, see \emph{Source}.}
\item{combine_SI}{a \link{logical} to indicate whether values S and I should be summed, so resistance will be based on only R, defaults to \code{TRUE}}
\item{add_ab_group}{a \link{logical} to indicate where the group of the antimicrobials must be included as a first column}
\item{remove_intrinsic_resistant}{\link{logical} to indicate that rows and columns with 100\% resistance for all tested antimicrobials must be removed from the table}
\item{decimal.mark}{the character to be used to indicate the numeric
decimal point.}
\item{big.mark}{character; if not empty used as mark between every
\code{big.interval} decimals \emph{before} (hence \code{big}) the
decimal point.}
}
\value{
The function \code{\link[=bug_drug_combinations]{bug_drug_combinations()}} returns a \link{data.frame} with columns "mo", "ab", "S", "I", "R" and "total".
}
\description{
Determine antimicrobial resistance (AMR) of all bug-drug combinations in your data set where at least 30 (default) isolates are available per species. Use \code{\link[=format]{format()}} on the result to prettify it to a publishable/printable format, see \emph{Examples}.
}
\details{
The function \code{\link[=format]{format()}} calculates the resistance per bug-drug combination. Use \code{combine_SI = TRUE} (default) to test R vs. S+I and \code{combine_SI = FALSE} to test R+I vs. S.
}
\examples{
\donttest{
x <- bug_drug_combinations(example_isolates)
head(x)
format(x, translate_ab = "name (atc)")
# Use FUN to change to transformation of microorganism codes
bug_drug_combinations(example_isolates,
FUN = mo_gramstain
)
bug_drug_combinations(example_isolates,
FUN = function(x) {
ifelse(x == as.mo("Escherichia coli"),
"E. coli",
"Others"
)
}
)
}
}