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751 lines
36 KiB
R
Executable File
751 lines
36 KiB
R
Executable File
# ==================================================================== #
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# TITLE #
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# Antimicrobial Resistance (AMR) Analysis #
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# #
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# SOURCE #
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# https://gitlab.com/msberends/AMR #
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# #
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# LICENCE #
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# (c) 2019 Berends MS (m.s.berends@umcg.nl), Luz CF (c.f.luz@umcg.nl) #
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# #
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# This R package is free software; you can freely use and distribute #
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# it for both personal and commercial purposes under the terms of the #
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# GNU General Public License version 2.0 (GNU GPL-2), as published by #
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# the Free Software Foundation. #
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# #
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# This R package was created for academic research and was publicly #
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# released in the hope that it will be useful, but it comes WITHOUT #
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# ANY WARRANTY OR LIABILITY. #
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# Visit our website for more info: https://msberends.gitlab.io/AMR. #
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# ==================================================================== #
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# global variables
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EUCAST_VERSION_BREAKPOINTS <- "9.0, 2019"
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EUCAST_VERSION_EXPERT_RULES <- "3.1, 2016"
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#' EUCAST rules
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#'
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#' Apply susceptibility rules as defined by the European Committee on Antimicrobial Susceptibility Testing (EUCAST, \url{http://eucast.org}), see \emph{Source}. This includes (1) expert rules, (2) intrinsic resistance and (3) inferred resistance as defined in their breakpoint tables.
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#' @param x data with antibiotic columns, like e.g. \code{AMX} and \code{AMC}
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#' @param info print progress
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#' @param rules a character vector that specifies which rules should be applied - one or more of \code{c("breakpoints", "expert", "other", "all")}
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#' @param verbose a logical to indicate whether extensive info should be returned as a \code{data.frame} with info about which rows and columns are effected. It runs all EUCAST rules, but will not be applied to an output - only an informative \code{data.frame} with changes will be returned as output.
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#' @param ... column name of an antibiotic, see section Antibiotics
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#' @inheritParams first_isolate
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#' @details
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#' \strong{Note:} This function does not translate MIC values to RSI values. Use \code{\link{as.rsi}} for that. \cr
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#' \strong{Note:} When ampicillin (AMP, J01CA01) is not available but amoxicillin (AMX, J01CA04) is, the latter will be used for all rules where there is a dependency on ampicillin. These drugs are interchangeable when it comes to expression of antimicrobial resistance.
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#'
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#' The file containing all EUCAST rules is located here: \url{https://gitlab.com/msberends/AMR/blob/master/data-raw/eucast_rules.tsv}.
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#'
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#' @section Antibiotics:
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#' To define antibiotics column names, leave as it is to determine it automatically with \code{\link{guess_ab_col}} or input a text (case-insensitive), or use \code{NULL} to skip a column (e.g. \code{TIC = NULL} to skip ticarcillin). Manually defined but non-existing columns will be skipped with a warning.
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#'
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#' The following antibiotics are used for the functions \code{\link{eucast_rules}} and \code{\link{mdro}}. These are shown in the format '\strong{antimicrobial ID}: name (\emph{ATC code})', sorted by name:
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#'
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#' \strong{AMK}: amikacin (\href{https://www.whocc.no/atc_ddd_index/?code=J01GB06}{J01GB06}),
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#' \strong{AMX}: amoxicillin (\href{https://www.whocc.no/atc_ddd_index/?code=J01CA04}{J01CA04}),
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#' \strong{AMC}: amoxicillin/clavulanic acid (\href{https://www.whocc.no/atc_ddd_index/?code=J01CR02}{J01CR02}),
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#' \strong{AMP}: ampicillin (\href{https://www.whocc.no/atc_ddd_index/?code=J01CA01}{J01CA01}),
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#' \strong{AZM}: azithromycin (\href{https://www.whocc.no/atc_ddd_index/?code=J01FA10}{J01FA10}),
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#' \strong{AZL}: azlocillin (\href{https://www.whocc.no/atc_ddd_index/?code=J01CA09}{J01CA09}),
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#' \strong{ATM}: aztreonam (\href{https://www.whocc.no/atc_ddd_index/?code=J01DF01}{J01DF01}),
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#' \strong{CAP}: capreomycin (\href{https://www.whocc.no/atc_ddd_index/?code=J04AB30}{J04AB30}),
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#' \strong{RID}: cefaloridine (\href{https://www.whocc.no/atc_ddd_index/?code=J01DB02}{J01DB02}),
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#' \strong{CZO}: cefazolin (\href{https://www.whocc.no/atc_ddd_index/?code=J01DB04}{J01DB04}),
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#' \strong{FEP}: cefepime (\href{https://www.whocc.no/atc_ddd_index/?code=J01DE01}{J01DE01}),
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#' \strong{CTX}: cefotaxime (\href{https://www.whocc.no/atc_ddd_index/?code=J01DD01}{J01DD01}),
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#' \strong{FOX}: cefoxitin (\href{https://www.whocc.no/atc_ddd_index/?code=J01DC01}{J01DC01}),
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#' \strong{CED}: cefradine (\href{https://www.whocc.no/atc_ddd_index/?code=J01DB09}{J01DB09}),
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#' \strong{CAZ}: ceftazidime (\href{https://www.whocc.no/atc_ddd_index/?code=J01DD02}{J01DD02}),
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#' \strong{CRO}: ceftriaxone (\href{https://www.whocc.no/atc_ddd_index/?code=J01DD04}{J01DD04}),
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#' \strong{CXM}: cefuroxime (\href{https://www.whocc.no/atc_ddd_index/?code=J01DC02}{J01DC02}),
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#' \strong{CHL}: chloramphenicol (\href{https://www.whocc.no/atc_ddd_index/?code=J01BA01}{J01BA01}),
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#' \strong{CIP}: ciprofloxacin (\href{https://www.whocc.no/atc_ddd_index/?code=J01MA02}{J01MA02}),
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#' \strong{CLR}: clarithromycin (\href{https://www.whocc.no/atc_ddd_index/?code=J01FA09}{J01FA09}),
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#' \strong{CLI}: clindamycin (\href{https://www.whocc.no/atc_ddd_index/?code=J01FF01}{J01FF01}),
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#' \strong{COL}: colistin (\href{https://www.whocc.no/atc_ddd_index/?code=J01XB01}{J01XB01}),
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#' \strong{DAP}: daptomycin (\href{https://www.whocc.no/atc_ddd_index/?code=J01XX09}{J01XX09}),
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#' \strong{DOX}: doxycycline (\href{https://www.whocc.no/atc_ddd_index/?code=J01AA02}{J01AA02}),
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#' \strong{ETP}: ertapenem (\href{https://www.whocc.no/atc_ddd_index/?code=J01DH03}{J01DH03}),
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#' \strong{ERY}: erythromycin (\href{https://www.whocc.no/atc_ddd_index/?code=J01FA01}{J01FA01}),
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#' \strong{ETH}: ethambutol (\href{https://www.whocc.no/atc_ddd_index/?code=J04AK02}{J04AK02}),
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#' \strong{FLC}: flucloxacillin (\href{https://www.whocc.no/atc_ddd_index/?code=J01CF05}{J01CF05}),
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#' \strong{FOS}: fosfomycin (\href{https://www.whocc.no/atc_ddd_index/?code=J01XX01}{J01XX01}),
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#' \strong{FUS}: fusidic acid (\href{https://www.whocc.no/atc_ddd_index/?code=J01XC01}{J01XC01}),
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#' \strong{GAT}: gatifloxacin (\href{https://www.whocc.no/atc_ddd_index/?code=J01MA16}{J01MA16}),
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#' \strong{GEN}: gentamicin (\href{https://www.whocc.no/atc_ddd_index/?code=J01GB03}{J01GB03}),
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#' \strong{IPM}: imipenem (\href{https://www.whocc.no/atc_ddd_index/?code=J01DH51}{J01DH51}),
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#' \strong{INH}: isoniazid (\href{https://www.whocc.no/atc_ddd_index/?code=J04AC01}{J04AC01}),
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#' \strong{KAN}: kanamycin (\href{https://www.whocc.no/atc_ddd_index/?code=J01GB04}{J01GB04}),
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#' \strong{LVX}: levofloxacin (\href{https://www.whocc.no/atc_ddd_index/?code=J01MA12}{J01MA12}),
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#' \strong{LIN}: lincomycin (\href{https://www.whocc.no/atc_ddd_index/?code=J01FF02}{J01FF02}),
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#' \strong{LNZ}: linezolid (\href{https://www.whocc.no/atc_ddd_index/?code=J01XX08}{J01XX08}),
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#' \strong{MEM}: meropenem (\href{https://www.whocc.no/atc_ddd_index/?code=J01DH02}{J01DH02}),
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#' \strong{MTR}: metronidazole (\href{https://www.whocc.no/atc_ddd_index/?code=J01XD01}{J01XD01}),
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#' \strong{MEZ}: mezlocillin (\href{https://www.whocc.no/atc_ddd_index/?code=J01CA10}{J01CA10}),
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#' \strong{MNO}: minocycline (\href{https://www.whocc.no/atc_ddd_index/?code=J01AA08}{J01AA08}),
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#' \strong{MFX}: moxifloxacin (\href{https://www.whocc.no/atc_ddd_index/?code=J01MA14}{J01MA14}),
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#' \strong{NAL}: nalidixic acid (\href{https://www.whocc.no/atc_ddd_index/?code=J01MB02}{J01MB02}),
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#' \strong{NEO}: neomycin (\href{https://www.whocc.no/atc_ddd_index/?code=J01GB05}{J01GB05}),
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#' \strong{NET}: netilmicin (\href{https://www.whocc.no/atc_ddd_index/?code=J01GB07}{J01GB07}),
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#' \strong{NIT}: nitrofurantoin (\href{https://www.whocc.no/atc_ddd_index/?code=J01XE01}{J01XE01}),
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#' \strong{NOR}: norfloxacin (\href{https://www.whocc.no/atc_ddd_index/?code=J01MA06}{J01MA06}),
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#' \strong{NOV}: novobiocin (an ATCvet code: \href{https://www.whocc.no/atc_ddd_index/?code=QJ01XX95}{QJ01XX95}),
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#' \strong{OFX}: ofloxacin (\href{https://www.whocc.no/atc_ddd_index/?code=J01MA01}{J01MA01}),
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#' \strong{OXA}: oxacillin (\href{https://www.whocc.no/atc_ddd_index/?code=J01CF04}{J01CF04}),
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#' \strong{PEN}: penicillin G (\href{https://www.whocc.no/atc_ddd_index/?code=J01CE01}{J01CE01}),
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#' \strong{PIP}: piperacillin (\href{https://www.whocc.no/atc_ddd_index/?code=J01CA12}{J01CA12}),
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#' \strong{TZP}: piperacillin/tazobactam (\href{https://www.whocc.no/atc_ddd_index/?code=J01CR05}{J01CR05}),
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#' \strong{PLB}: polymyxin B (\href{https://www.whocc.no/atc_ddd_index/?code=J01XB02}{J01XB02}),
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#' \strong{PRI}: pristinamycin (\href{https://www.whocc.no/atc_ddd_index/?code=J01FG01}{J01FG01}),
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#' \strong{PZA}: pyrazinamide (\href{https://www.whocc.no/atc_ddd_index/?code=J04AK01}{J04AK01}),
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#' \strong{QDA}: quinupristin/dalfopristin (\href{https://www.whocc.no/atc_ddd_index/?code=J01FG02}{J01FG02}),
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#' \strong{RIB}: rifabutin (\href{https://www.whocc.no/atc_ddd_index/?code=J04AB04}{J04AB04}),
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#' \strong{RIF}: rifampicin (\href{https://www.whocc.no/atc_ddd_index/?code=J04AB02}{J04AB02}),
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#' \strong{RIF}: rifampin (\href{https://www.whocc.no/atc_ddd_index/?code=J04AB02}{J04AB02}),
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#' \strong{RFP}: rifapentine (\href{https://www.whocc.no/atc_ddd_index/?code=J04AB05}{J04AB05}),
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#' \strong{RXT}: roxithromycin (\href{https://www.whocc.no/atc_ddd_index/?code=J01FA06}{J01FA06}),
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#' \strong{SIS}: sisomicin (\href{https://www.whocc.no/atc_ddd_index/?code=J01GB08}{J01GB08}),
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#' \strong{TEC}: teicoplanin (\href{https://www.whocc.no/atc_ddd_index/?code=J01XA02}{J01XA02}),
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#' \strong{TCY}: tetracycline (\href{https://www.whocc.no/atc_ddd_index/?code=J01AA07}{J01AA07}),
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#' \strong{TIC}: ticarcillin (\href{https://www.whocc.no/atc_ddd_index/?code=J01CA13}{J01CA13}),
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#' \strong{TGC}: tigecycline (\href{https://www.whocc.no/atc_ddd_index/?code=J01AA12}{J01AA12}),
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#' \strong{TOB}: tobramycin (\href{https://www.whocc.no/atc_ddd_index/?code=J01GB01}{J01GB01}),
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#' \strong{TMP}: trimethoprim (\href{https://www.whocc.no/atc_ddd_index/?code=J01EA01}{J01EA01}),
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#' \strong{SXT}: trimethoprim/sulfamethoxazole (\href{https://www.whocc.no/atc_ddd_index/?code=J01EE01}{J01EE01}),
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#' \strong{VAN}: vancomycin (\href{https://www.whocc.no/atc_ddd_index/?code=J01XA01}{J01XA01}).
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#' @keywords interpretive eucast reading resistance
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#' @rdname eucast_rules
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#' @export
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#' @importFrom dplyr %>% select pull mutate_at vars group_by summarise n
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#' @importFrom crayon bold bgGreen bgYellow bgRed black green blue italic strip_style white
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#' @return The input of \code{x}, possibly with edited values of antibiotics. Or, if \code{verbose = TRUE}, a \code{data.frame} with all original and new values of the affected bug-drug combinations.
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#' @source
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#' \itemize{
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#' \item{
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#' EUCAST Expert Rules. Version 2.0, 2012. \cr
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#' Leclercq et al. \strong{EUCAST expert rules in antimicrobial susceptibility testing.} \emph{Clin Microbiol Infect.} 2013;19(2):141-60. \cr
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#' \url{https://doi.org/10.1111/j.1469-0691.2011.03703.x}
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#' }
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#' \item{
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#' EUCAST Expert Rules, Intrinsic Resistance and Exceptional Phenotypes Tables. Version 3.1, 2016. \cr
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#' \url{http://www.eucast.org/fileadmin/src/media/PDFs/EUCAST_files/Expert_Rules/Expert_rules_intrinsic_exceptional_V3.1.pdf}
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#' }
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#' \item{
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#' EUCAST Breakpoint tables for interpretation of MICs and zone diameters. Version 9.0, 2019. \cr
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#' \url{http://www.eucast.org/fileadmin/src/media/PDFs/EUCAST_files/Breakpoint_tables/v_9.0_Breakpoint_Tables.xlsx}
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#' }
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#' }
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#' @inheritSection AMR Read more on our website!
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#' @examples
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#' a <- eucast_rules(septic_patients)
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#'
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#' a <- data.frame(mo = c("Staphylococcus aureus",
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#' "Enterococcus faecalis",
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#' "Escherichia coli",
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#' "Klebsiella pneumoniae",
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#' "Pseudomonas aeruginosa"),
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#' VAN = "-", # Vancomycin
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#' AMX = "-", # Amoxicillin
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#' COL = "-", # Colistin
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#' CAZ = "-", # Ceftazidime
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#' CXM = "-", # Cefuroxime
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#' PEN = "S", # Penicillin G
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#' FOX = "S", # Cefoxitin
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#' stringsAsFactors = FALSE)
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#'
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#' a
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#' # mo VAN AMX COL CAZ CXM PEN FOX
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#' # 1 Staphylococcus aureus - - - - - S S
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#' # 2 Enterococcus faecalis - - - - - S S
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#' # 3 Escherichia coli - - - - - S S
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#' # 4 Klebsiella pneumoniae - - - - - S S
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#' # 5 Pseudomonas aeruginosa - - - - - S S
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#'
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#'
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#' # apply EUCAST rules: 18 results are forced as R or S
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#' b <- eucast_rules(a)
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#'
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#' b
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#' # mo VAN AMX COL CAZ CXM PEN FOX
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#' # 1 Staphylococcus aureus - S R R S S S
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#' # 2 Enterococcus faecalis - - R R R S R
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#' # 3 Escherichia coli R - - - - R S
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#' # 4 Klebsiella pneumoniae R R - - - R S
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#' # 5 Pseudomonas aeruginosa R R - - R R R
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#'
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#'
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#' # do not apply EUCAST rules, but rather get a a data.frame
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#' # with 18 rows, containing all details about the transformations:
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#' c <- eucast_rules(a, verbose = TRUE)
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eucast_rules <- function(x,
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col_mo = NULL,
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info = TRUE,
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rules = c("breakpoints", "expert", "other", "all"),
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verbose = FALSE,
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...) {
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x <- x
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if (!is.data.frame(x)) {
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stop("`x` must be a data frame.", call. = FALSE)
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}
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# try to find columns based on type
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# -- mo
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if (is.null(col_mo)) {
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col_mo <- search_type_in_df(x = x, type = "mo")
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}
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if (is.null(col_mo)) {
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stop("`col_mo` must be set.", call. = FALSE)
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}
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if (!all(rules %in% c("breakpoints", "expert", "other", "all"))) {
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stop("`rules` must be one or more of: 'breakpoints', 'expert', 'other', 'all'.")
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}
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if (is.null(col_mo)) {
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stop("`col_mo` must be set")
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}
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decimal.mark <- getOption("OutDec")
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big.mark <- ifelse(decimal.mark != ",", ",", ".")
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formatnr <- function(x) {
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trimws(format(x, big.mark = big.mark, decimal.mark = decimal.mark))
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}
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warned <- FALSE
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txt_error <- function() { cat("", bgRed(white(" ERROR ")), "\n") }
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txt_warning <- function() { if (warned == FALSE) { cat("", bgYellow(black(" WARNING ")), "\n") }; warned <<- TRUE }
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txt_ok <- function(no_of_changes) {
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if (warned == FALSE) {
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if (no_of_changes > 0) {
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if (no_of_changes == 1) {
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cat(blue(" (1 new change)\n"))
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} else {
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cat(blue(paste0(" (", formatnr(no_of_changes), " new changes)\n")))
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}
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} else {
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cat(green(" (no new changes)\n"))
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}
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warned <<- FALSE
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}
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}
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cols_ab <- get_column_abx(x = x,
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soft_dependencies = c("AMC",
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"AMK",
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"AMX",
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"AMP",
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"AZM",
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"AZL",
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"ATM",
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"RID",
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"FEP",
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"CTX",
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"FOX",
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"CED",
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"CAZ",
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"CRO",
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"CXM",
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"CHL",
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"CIP",
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"CLR",
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"CLI",
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"FLC",
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"COL",
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"CZO",
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"DAP",
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"DOX",
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"ETP",
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"ERY",
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"FOS",
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"FUS",
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"GEN",
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"IPM",
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"KAN",
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"LVX",
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"LIN",
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"LNZ",
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"MEM",
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"MEZ",
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"MNO",
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"MFX",
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"NAL",
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"NEO",
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"NET",
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"NIT",
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"NOR",
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"NOV",
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"OFX",
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"OXA",
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"PEN",
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"PIP",
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"TZP",
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"PLB",
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"PRI",
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"QDA",
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"RIF",
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"RXT",
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"SIS",
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"TEC",
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"TCY",
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"TIC",
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"TGC",
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"TOB",
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"TMP",
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"SXT",
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"VAN"),
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hard_dependencies = NULL,
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verbose = verbose,
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...)
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AMC <- cols_ab['AMC']
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AMK <- cols_ab['AMK']
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AMP <- cols_ab['AMP']
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AMX <- cols_ab['AMX']
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ATM <- cols_ab['ATM']
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AZL <- cols_ab['AZL']
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AZM <- cols_ab['AZM']
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CAZ <- cols_ab['CAZ']
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CED <- cols_ab['CED']
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CHL <- cols_ab['CHL']
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CIP <- cols_ab['CIP']
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CLI <- cols_ab['CLI']
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CLR <- cols_ab['CLR']
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COL <- cols_ab['COL']
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CRO <- cols_ab['CRO']
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CTX <- cols_ab['CTX']
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CXM <- cols_ab['CXM']
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CZO <- cols_ab['CZO']
|
|
DAP <- cols_ab['DAP']
|
|
DOX <- cols_ab['DOX']
|
|
ERY <- cols_ab['ERY']
|
|
ETP <- cols_ab['ETP']
|
|
FEP <- cols_ab['FEP']
|
|
FLC <- cols_ab['FLC']
|
|
FOS <- cols_ab['FOS']
|
|
FOX <- cols_ab['FOX']
|
|
FUS <- cols_ab['FUS']
|
|
GEN <- cols_ab['GEN']
|
|
IPM <- cols_ab['IPM']
|
|
KAN <- cols_ab['KAN']
|
|
LIN <- cols_ab['LIN']
|
|
LNZ <- cols_ab['LNZ']
|
|
LVX <- cols_ab['LVX']
|
|
MEM <- cols_ab['MEM']
|
|
MEZ <- cols_ab['MEZ']
|
|
MFX <- cols_ab['MFX']
|
|
MNO <- cols_ab['MNO']
|
|
NAL <- cols_ab['NAL']
|
|
NEO <- cols_ab['NEO']
|
|
NET <- cols_ab['NET']
|
|
NIT <- cols_ab['NIT']
|
|
NOR <- cols_ab['NOR']
|
|
NOV <- cols_ab['NOV']
|
|
OFX <- cols_ab['OFX']
|
|
OXA <- cols_ab['OXA']
|
|
PEN <- cols_ab['PEN']
|
|
PIP <- cols_ab['PIP']
|
|
PLB <- cols_ab['PLB']
|
|
PRI <- cols_ab['PRI']
|
|
QDA <- cols_ab['QDA']
|
|
RID <- cols_ab['RID']
|
|
RIF <- cols_ab['RIF']
|
|
RXT <- cols_ab['RXT']
|
|
SIS <- cols_ab['SIS']
|
|
SXT <- cols_ab['SXT']
|
|
TCY <- cols_ab['TCY']
|
|
TEC <- cols_ab['TEC']
|
|
TGC <- cols_ab['TGC']
|
|
TIC <- cols_ab['TIC']
|
|
TMP <- cols_ab['TMP']
|
|
TOB <- cols_ab['TOB']
|
|
TZP <- cols_ab['TZP']
|
|
VAN <- cols_ab['VAN']
|
|
|
|
ab_missing <- function(ab) {
|
|
all(ab %in% c(NULL, NA))
|
|
}
|
|
|
|
verbose_info <- data.frame(row = integer(0),
|
|
col = character(0),
|
|
mo_fullname = character(0),
|
|
old = character(0),
|
|
new = character(0),
|
|
rule = character(0),
|
|
rule_group = character(0),
|
|
rule_name = character(0),
|
|
stringsAsFactors = FALSE)
|
|
|
|
# helper function for editing the table
|
|
edit_rsi <- function(to, rule, rows, cols) {
|
|
cols <- unique(cols[!is.na(cols) & !is.null(cols)])
|
|
if (length(rows) > 0 & length(cols) > 0) {
|
|
before_df <- x_original
|
|
before <- as.character(unlist(as.list(x_original[rows, cols])))
|
|
|
|
tryCatch(
|
|
# insert into original table
|
|
x_original[rows, cols] <<- to,
|
|
warning = function(w) {
|
|
if (w$message %like% 'invalid factor level') {
|
|
warning('Value "', to, '" could not be applied to column(s) `', paste(cols, collapse = '`, `'), '` because this value is not an existing factor level.', call. = FALSE)
|
|
} else {
|
|
warning(w$message, call. = FALSE)
|
|
}
|
|
txt_warning()
|
|
},
|
|
error = function(e) {
|
|
txt_error()
|
|
stop(e, call. = FALSE)
|
|
}
|
|
)
|
|
|
|
x[rows, cols] <<- x_original[rows, cols]
|
|
|
|
after <- as.character(unlist(as.list(x_original[rows, cols])))
|
|
|
|
# before_df might not be a data.frame, but a tibble of data.table instead
|
|
old <- as.data.frame(before_df, stringsAsFactors = FALSE)[rows,]
|
|
no_of_changes_this_run <- 0
|
|
for (i in 1:length(cols)) {
|
|
verbose_new <- data.frame(row = rows,
|
|
col = cols[i],
|
|
mo_fullname = x[rows, "fullname"],
|
|
old = as.character(old[, cols[i]]),
|
|
new = as.character(x[rows, cols[i]]),
|
|
rule = strip_style(rule[1]),
|
|
rule_group = strip_style(rule[2]),
|
|
rule_name = strip_style(rule[3]),
|
|
stringsAsFactors = FALSE)
|
|
colnames(verbose_new) <- c("row", "col", "mo_fullname", "old", "new", "rule", "rule_group", "rule_name")
|
|
verbose_new <- verbose_new %>% filter(old != new | is.na(old))
|
|
verbose_info <<- rbind(verbose_info, verbose_new)
|
|
no_of_changes_this_run <- no_of_changes_this_run + nrow(verbose_new)
|
|
}
|
|
# return number of (new) changes
|
|
return(no_of_changes_this_run)
|
|
}
|
|
# return number of (new) changes: none.
|
|
return(0)
|
|
}
|
|
|
|
# save original table
|
|
x_original <- x
|
|
|
|
# join to microorganisms data set
|
|
suppressWarnings(
|
|
x <- x %>%
|
|
mutate_at(vars(col_mo), as.mo) %>%
|
|
left_join_microorganisms(by = col_mo, suffix = c("_oldcols", "")) %>%
|
|
mutate(gramstain = mo_gramstain(pull(., col_mo), language = "en"),
|
|
genus_species = paste(genus, species)) %>%
|
|
as.data.frame(stringsAsFactors = FALSE)
|
|
)
|
|
|
|
if (info == TRUE) {
|
|
cat(paste0(
|
|
"\nRules by the ", bold("European Committee on Antimicrobial Susceptibility Testing (EUCAST)"),
|
|
"\n", blue("http://eucast.org/"), "\n"))
|
|
}
|
|
|
|
# since ampicillin ^= amoxicillin, get the first from the latter (not in original EUCAST table)
|
|
if (!ab_missing(AMP) & !ab_missing(AMX)) {
|
|
if (verbose == TRUE) {
|
|
cat("\n VERBOSE: transforming",
|
|
length(which(x[, AMX] == "S" & !x[, AMP] %in% c("S", "I", "R"))),
|
|
"empty ampicillin fields to 'S' based on amoxicillin. ")
|
|
cat("\n VERBOSE: transforming",
|
|
length(which(x[, AMX] == "I" & !x[, AMP] %in% c("S", "I", "R"))),
|
|
"empty ampicillin fields to 'I' based on amoxicillin. ")
|
|
cat("\n VERBOSE: transforming",
|
|
length(which(x[, AMX] == "R" & !x[, AMP] %in% c("S", "I", "R"))),
|
|
"empty ampicillin fields to 'R' based on amoxicillin. \n")
|
|
}
|
|
x[which(x[, AMX] == "S" & !x[, AMP] %in% c("S", "I", "R")), AMP] <- "S"
|
|
x[which(x[, AMX] == "I" & !x[, AMP] %in% c("S", "I", "R")), AMP] <- "I"
|
|
x[which(x[, AMX] == "R" & !x[, AMP] %in% c("S", "I", "R")), AMP] <- "R"
|
|
} else if (ab_missing(AMP) & !ab_missing(AMX)) {
|
|
# ampicillin column is missing, but amoxicillin is available
|
|
message(blue(paste0("NOTE: Using column `", bold(AMX), "` as input for ampicillin (J01CA01) since many EUCAST rules depend on it.")))
|
|
AMP <- AMX
|
|
}
|
|
|
|
# antibiotic classes
|
|
aminoglycosides <- c(TOB, GEN, KAN, NEO, NET, SIS)
|
|
tetracyclines <- c(DOX, MNO, TCY) # since EUCAST v3.1 tigecycline (TGC) is set apart
|
|
polymyxins <- c(PLB, COL)
|
|
macrolides <- c(ERY, AZM, RXT, CLR) # since EUCAST v3.1 clinda is set apart
|
|
glycopeptides <- c(VAN, TEC)
|
|
streptogramins <- c(QDA, PRI) # should officially also be quinupristin/dalfopristin
|
|
aminopenicillins <- c(AMP, AMX)
|
|
cephalosporins <- c(FEP, CTX, FOX, CED, CAZ, CRO, CXM, CZO)
|
|
cephalosporins_without_CAZ <- cephalosporins[cephalosporins != ifelse(is.null(CAZ), "", CAZ)]
|
|
carbapenems <- c(ETP, IPM, MEM)
|
|
ureidopenicillins <- c(PIP, TZP, AZL, MEZ)
|
|
all_betalactams <- c(aminopenicillins, cephalosporins, carbapenems, ureidopenicillins, AMC, OXA, FLC, PEN)
|
|
fluoroquinolones <- c(OFX, CIP, NOR, LVX, MFX)
|
|
|
|
# Help function to get available antibiotic column names ------------------
|
|
get_antibiotic_columns <- function(x, df) {
|
|
x <- trimws(unlist(strsplit(x, ",", fixed = TRUE)))
|
|
y <- character(0)
|
|
for (i in 1:length(x)) {
|
|
y <- c(y, tryCatch(get(x[i]), error = function(e) ""))
|
|
}
|
|
y[y != "" & y %in% colnames(df)]
|
|
}
|
|
|
|
eucast_rules_df <- eucast_rules_file # internal data file
|
|
no_of_changes <- 0
|
|
for (i in 1:nrow(eucast_rules_df)) {
|
|
|
|
rule_previous <- eucast_rules_df[max(1, i - 1), "reference.rule"]
|
|
rule_current <- eucast_rules_df[i, "reference.rule"]
|
|
rule_next <- eucast_rules_df[min(nrow(eucast_rules_df), i + 1), "reference.rule"]
|
|
rule_group_previous <- eucast_rules_df[max(1, i - 1), "reference.rule_group"]
|
|
rule_group_current <- eucast_rules_df[i, "reference.rule_group"]
|
|
rule_group_next <- eucast_rules_df[min(nrow(eucast_rules_df), i + 1), "reference.rule_group"]
|
|
if (is.na(eucast_rules_df[i, 4])) {
|
|
rule_text <- paste("always:", eucast_rules_df[i, 6], "=", eucast_rules_df[i, 7])
|
|
} else {
|
|
rule_text <- paste("if", eucast_rules_df[i, 4], "=", eucast_rules_df[i, 5],
|
|
"then", eucast_rules_df[i, 6], "=", eucast_rules_df[i, 7])
|
|
}
|
|
if (i == 1) {
|
|
rule_previous <- ""
|
|
rule_group_previous <- ""
|
|
}
|
|
if (i == nrow(eucast_rules_df)) {
|
|
rule_next <- ""
|
|
rule_group_next <- ""
|
|
}
|
|
|
|
# don't apply rules if user doesn't want to apply them
|
|
if (rule_group_current %like% "breakpoint" & !any(c("all", "breakpoints") %in% rules)) {
|
|
next
|
|
}
|
|
if (rule_group_current %like% "expert" & !any(c("all", "expert") %in% rules)) {
|
|
next
|
|
}
|
|
if (rule_group_current %like% "other" & !any(c("all", "other") %in% rules)) {
|
|
next
|
|
}
|
|
|
|
|
|
if (info == TRUE) {
|
|
# Print rule (group) ------------------------------------------------------
|
|
if (rule_group_current != rule_group_previous) {
|
|
# is new rule group, one of Breakpoints, Expert Rules and Other
|
|
cat(bold(
|
|
case_when(
|
|
rule_group_current %like% "breakpoint" ~
|
|
paste0("\nEUCAST Clinical Breakpoints (v", EUCAST_VERSION_BREAKPOINTS, ")\n"),
|
|
rule_group_current %like% "expert" ~
|
|
paste0("\nEUCAST Expert Rules, Intrinsic Resistance and Exceptional Phenotypes (v", EUCAST_VERSION_EXPERT_RULES, ")\n"),
|
|
TRUE ~
|
|
"\nOther rules\n"
|
|
)
|
|
))
|
|
}
|
|
# Print rule -------------------------------------------------------------
|
|
if (rule_current != rule_previous) {
|
|
# is new rule within group, print its name
|
|
if (rule_current %in% c(AMR::microorganisms$family,
|
|
AMR::microorganisms$fullname)) {
|
|
cat(italic(rule_current))
|
|
} else {
|
|
cat(rule_current)
|
|
}
|
|
warned <- FALSE
|
|
}
|
|
}
|
|
|
|
# Get rule from file ------------------------------------------------------
|
|
col_mo_property <- eucast_rules_df[i, 1]
|
|
like_is_one_of <- eucast_rules_df[i, 2]
|
|
|
|
# be sure to comprise all coagulase-negative/-positive Staphylococci when they are mentioned
|
|
if (eucast_rules_df[i, 3] %like% "coagulase-") {
|
|
suppressWarnings(
|
|
all_staph <- AMR::microorganisms %>%
|
|
filter(genus == "Staphylococcus") %>%
|
|
mutate(CNS_CPS = mo_fullname(mo, Becker = "all"))
|
|
)
|
|
if (eucast_rules_df[i, 3] %like% "coagulase-") {
|
|
eucast_rules_df[i, 3] <- paste0("^(",
|
|
paste0(all_staph %>%
|
|
filter(CNS_CPS %like% "coagulase-negative") %>%
|
|
pull(fullname),
|
|
collapse = "|"),
|
|
")$")
|
|
} else {
|
|
eucast_rules_df[i, 3] <- paste0("^(",
|
|
paste0(all_staph %>%
|
|
filter(CNS_CPS %like% "coagulase-positive") %>%
|
|
pull(fullname),
|
|
collapse = "|"),
|
|
")$")
|
|
}
|
|
like_is_one_of <- "like"
|
|
}
|
|
|
|
if (like_is_one_of == "is") {
|
|
mo_value <- paste0("^", eucast_rules_df[i, 3], "$")
|
|
} else if (like_is_one_of == "one_of") {
|
|
# "Clostridium, Actinomyces, ..." -> "^(Clostridium|Actinomyces|...)$"
|
|
mo_value <- paste0("^(",
|
|
paste(trimws(unlist(strsplit(eucast_rules_df[i, 3], ",", fixed = TRUE))),
|
|
collapse = "|"),
|
|
")$")
|
|
} else if (like_is_one_of == "like") {
|
|
mo_value <- eucast_rules_df[i, 3]
|
|
} else {
|
|
stop("invalid like_is_one_of", call. = FALSE)
|
|
}
|
|
|
|
source_antibiotics <- eucast_rules_df[i, 4]
|
|
source_value <- trimws(unlist(strsplit(eucast_rules_df[i, 5], ",", fixed = TRUE)))
|
|
target_antibiotics <- eucast_rules_df[i, 6]
|
|
target_value <- eucast_rules_df[i, 7]
|
|
|
|
if (is.na(source_antibiotics)) {
|
|
rows <- tryCatch(which(x[, col_mo_property] %like% mo_value),
|
|
error = function(e) integer(0))
|
|
} else {
|
|
source_antibiotics <- get_antibiotic_columns(source_antibiotics, x)
|
|
if (length(source_value) == 1 & length(source_antibiotics) > 1) {
|
|
source_value <- rep(source_value, length(source_antibiotics))
|
|
}
|
|
if (length(source_antibiotics) == 0) {
|
|
rows <- integer(0)
|
|
} else if (length(source_antibiotics) == 1) {
|
|
rows <- tryCatch(which(x[, col_mo_property] %like% mo_value
|
|
& x[, source_antibiotics[1L]] == source_value[1L]),
|
|
error = function(e) integer(0))
|
|
} else if (length(source_antibiotics) == 2) {
|
|
rows <- tryCatch(which(x[, col_mo_property] %like% mo_value
|
|
& x[, source_antibiotics[1L]] == source_value[1L]
|
|
& x[, source_antibiotics[2L]] == source_value[2L]),
|
|
error = function(e) integer(0))
|
|
} else if (length(source_antibiotics) == 3) {
|
|
rows <- tryCatch(which(x[, col_mo_property] %like% mo_value
|
|
& x[, source_antibiotics[1L]] == source_value[1L]
|
|
& x[, source_antibiotics[2L]] == source_value[2L]
|
|
& x[, source_antibiotics[3L]] == source_value[3L]),
|
|
error = function(e) integer(0))
|
|
} else {
|
|
stop("only 3 antibiotics supported for source_antibiotics ", call. = FALSE)
|
|
}
|
|
}
|
|
|
|
cols <- get_antibiotic_columns(target_antibiotics, x)
|
|
|
|
# Apply rule on data ------------------------------------------------------
|
|
# this will return the unique number of changes
|
|
no_of_changes <- no_of_changes + edit_rsi(to = target_value,
|
|
rule = c(rule_text, rule_group_current, rule_current),
|
|
rows = rows,
|
|
cols = cols)
|
|
|
|
# Print number of new changes ---------------------------------------------
|
|
if (info == TRUE & rule_next != rule_current) {
|
|
# print only on last one of rules in this group
|
|
txt_ok(no_of_changes = no_of_changes)
|
|
no_of_changes <- 0
|
|
}
|
|
}
|
|
|
|
# Print overview ----------------------------------------------------------
|
|
if (info == TRUE) {
|
|
if (verbose == TRUE) {
|
|
wouldve <- "would have "
|
|
} else {
|
|
wouldve <- ""
|
|
}
|
|
|
|
verbose_info <- verbose_info %>%
|
|
arrange(row, rule_group, rule_name, col)
|
|
|
|
cat(paste0("\n", silver(strrep("-", options()$width - 1)), "\n"))
|
|
cat(bold(paste('EUCAST rules', paste0(wouldve, 'affected'),
|
|
formatnr(n_distinct(verbose_info$row)),
|
|
'out of', formatnr(nrow(x_original)),
|
|
'rows, making a total of', formatnr(nrow(verbose_info)), 'edits\n')))
|
|
|
|
n_added <- verbose_info %>% filter(is.na(old)) %>% nrow()
|
|
n_changed <- verbose_info %>% filter(!is.na(old)) %>% nrow()
|
|
|
|
# print added values ----
|
|
if (n_added == 0) {
|
|
colour <- cat # is function
|
|
} else {
|
|
colour <- blue # is function
|
|
}
|
|
cat(colour(paste0("=> ", wouldve, "added ",
|
|
bold(formatnr(verbose_info %>%
|
|
filter(is.na(old)) %>%
|
|
nrow()), "test results"),
|
|
"\n")))
|
|
if (n_added > 0) {
|
|
verbose_info %>%
|
|
filter(is.na(old)) %>%
|
|
# sort it well: S < I < R
|
|
mutate(new = as.rsi(new)) %>%
|
|
group_by(new) %>%
|
|
summarise(n = n()) %>%
|
|
mutate(plural = ifelse(n > 1, "s", ""),
|
|
txt = paste0(formatnr(n), " test result", plural, " added as ", new)) %>%
|
|
pull(txt) %>%
|
|
paste(" -", ., collapse = "\n") %>%
|
|
cat()
|
|
}
|
|
|
|
# print changed values ----
|
|
if (n_changed == 0) {
|
|
colour <- cat # is function
|
|
} else {
|
|
colour <- blue # is function
|
|
}
|
|
if (n_added + n_changed > 0) {
|
|
cat("\n")
|
|
}
|
|
cat(colour(paste0("=> ", wouldve, "changed ",
|
|
bold(formatnr(verbose_info %>%
|
|
filter(!is.na(old)) %>%
|
|
nrow()), "test results"),
|
|
"\n")))
|
|
if (n_changed > 0) {
|
|
verbose_info %>%
|
|
filter(!is.na(old)) %>%
|
|
# sort it well: S < I < R
|
|
mutate(old = as.rsi(old),
|
|
new = as.rsi(new)) %>%
|
|
group_by(old, new) %>%
|
|
summarise(n = n()) %>%
|
|
mutate(plural = ifelse(n > 1, "s", ""),
|
|
txt = paste0(formatnr(n), " test result", plural, " changed from ", old, " to ", new)) %>%
|
|
pull(txt) %>%
|
|
paste(" -", ., collapse = "\n") %>%
|
|
cat()
|
|
cat("\n")
|
|
}
|
|
cat(paste0(silver(strrep("-", options()$width - 1)), "\n"))
|
|
|
|
if (verbose == FALSE & nrow(verbose_info) > 0) {
|
|
cat(paste("\nUse", bold("verbose = TRUE"), "to get a data.frame with all specified edits instead.\n"))
|
|
}
|
|
}
|
|
|
|
# Return data set ---------------------------------------------------------
|
|
if (verbose == TRUE) {
|
|
verbose_info
|
|
} else {
|
|
x_original
|
|
}
|
|
}
|
|
|