# ==================================================================== # # TITLE # # Antimicrobial Resistance (AMR) Analysis # # # # SOURCE # # https://gitlab.com/msberends/AMR # # # # LICENCE # # (c) 2019 Berends MS (m.s.berends@umcg.nl), Luz CF (c.f.luz@umcg.nl) # # # # This R package is free software; you can freely use and distribute # # it for both personal and commercial purposes under the terms of the # # GNU General Public License version 2.0 (GNU GPL-2), as published by # # the Free Software Foundation. # # # # This R package was created for academic research and was publicly # # released in the hope that it will be useful, but it comes WITHOUT # # ANY WARRANTY OR LIABILITY. # # Visit our website for more info: https://msberends.gitlab.io/AMR. # # ==================================================================== # #' Determine multidrug-resistant organisms (MDRO) #' #' Determine which isolates are multidrug-resistant organisms (MDRO) according to country-specific guidelines. #' @param x table with antibiotic columns, like e.g. \code{AMX} and \code{AMC} #' @param country country code to determine guidelines. EUCAST rules will be used when left empty, see Details. Should be or a code from the \href{https://en.wikipedia.org/wiki/ISO_3166-1_alpha-2#Officially_assigned_code_elements}{list of ISO 3166-1 alpha-2 country codes}. Case-insensitive. Currently supported are \code{de} (Germany) and \code{nl} (the Netherlands). #' @param info print progress #' @inheritParams eucast_rules #' @param verbose print additional info: missing antibiotic columns per parameter #' @inheritSection eucast_rules Antibiotics #' @details When \code{country} will be left blank, guidelines will be taken from EUCAST Expert Rules Version 3.1 "Intrinsic Resistance and Exceptional Phenotypes Tables" (\href{http://www.eucast.org/fileadmin/src/media/PDFs/EUCAST_files/Expert_Rules/Expert_rules_intrinsic_exceptional_V3.1.pdf}{link}). #' @return Ordered factor with levels \code{Negative < Positive, unconfirmed < Positive}. #' @rdname mdro #' @importFrom dplyr %>% #' @importFrom crayon red blue bold #' @export #' @inheritSection AMR Read more on our website! #' @examples #' library(dplyr) #' #' septic_patients %>% #' mutate(EUCAST = mdro(.), #' BRMO = brmo(.)) mdro <- function(x, country = NULL, col_mo = NULL, info = TRUE, verbose = FALSE, ...) { tbl_ <- x if (!is.data.frame(tbl_)) { stop("`x` must be a data frame.", call. = FALSE) } # try to find columns based on type # -- mo if (is.null(col_mo)) { col_mo <- search_type_in_df(tbl = tbl_, type = "mo") } if (is.null(col_mo)) { stop("`col_mo` must be set.", call. = FALSE) } if (length(country) > 1) { stop('`country` must be a length one character string.', call. = FALSE) } if (is.null(country)) { country <- 'EUCAST' } country <- trimws(country) if (tolower(country) != 'eucast' & !country %like% '^[a-z]{2}$') { stop('This is not a valid ISO 3166-1 alpha-2 country code: "', country, '". Please see ?mdro.', call. = FALSE) } # create list and make country code case-independent guideline <- list(country = list(code = tolower(country))) if (guideline$country$code == 'eucast') { guideline$country$name <- '(European guidelines)' guideline$name <- 'EUCAST Expert Rules, "Intrinsic Resistance and Exceptional Phenotypes Tables"' guideline$version <- 'Version 3.1' guideline$source <- 'http://www.eucast.org/fileadmin/src/media/PDFs/EUCAST_files/Expert_Rules/Expert_rules_intrinsic_exceptional_V3.1.pdf' # support per country: } else if (guideline$country$code == 'de') { guideline$country$name <- 'Germany' guideline$name <- '' guideline$version <- '' guideline$source <- '' } else if (guideline$country$code == 'nl') { guideline$country$name <- 'The Netherlands' guideline$name <- 'WIP-Richtlijn BRMO' guideline$version <- 'Revision as of December 2017' guideline$source <- 'https://www.rivm.nl/Documenten_en_publicaties/Professioneel_Praktisch/Richtlijnen/Infectieziekten/WIP_Richtlijnen/WIP_Richtlijnen/Ziekenhuizen/WIP_richtlijn_BRMO_Bijzonder_Resistente_Micro_Organismen_ZKH' # add here more countries like this: # } else if (country$code == 'xx') { # country$name <- 'country name' } else { stop('This country code is currently unsupported: ', guideline$country$code, call. = FALSE) } if (info == TRUE) { cat("Determining multidrug-resistant organisms (MDRO), according to:\n", "Guideline: ", red(paste0(guideline$name, ", ", guideline$version, "\n")), "Country : ", red(paste0(guideline$country$name, "\n")), "Source : ", blue(paste0(guideline$source, "\n")), "\n", sep = "") } cols_ab <- get_column_abx(x = x, verbose = verbose) AMC <- cols_ab['AMC'] AMK <- cols_ab['AMK'] AMP <- cols_ab['AMP'] AMX <- cols_ab['AMX'] ATM <- cols_ab['ATM'] AZL <- cols_ab['AZL'] AZM <- cols_ab['AZM'] CAZ <- cols_ab['CAZ'] CED <- cols_ab['CED'] CHL <- cols_ab['CHL'] CIP <- cols_ab['CIP'] CLI <- cols_ab['CLI'] CLR <- cols_ab['CLR'] COL <- cols_ab['COL'] CRO <- cols_ab['CRO'] CTX <- cols_ab['CTX'] CXM <- cols_ab['CXM'] 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'] MTR <- cols_ab['MTR'] 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'] 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) { isTRUE(ab %in% c(NULL, NA)) | length(ab) == 0 } # antibiotic classes aminoglycosides <- c(TOB, GEN) cephalosporins <- c(FEP, CTX, FOX, CED, CAZ, CRO, CXM, CZO) cephalosporins_3rd <- c(CTX, CRO, CAZ) carbapenems <- c(ETP, IPM, MEM) fluoroquinolones <- c(OFX, CIP, LVX, MFX) # helper function for editing the table trans_tbl <- function(to, rows, cols, any_all) { cols <- cols[!ab_missing(cols)] cols <- cols[!is.na(cols)] if (length(rows) > 0 & length(cols) > 0) { if (any_all == "any") { col_filter <- which(tbl_[, cols] == 'R') } else if (any_all == "all") { col_filter <- tbl_ %>% mutate(index = 1:nrow(.)) %>% filter_at(vars(cols), all_vars(. == "R")) %>% pull((index)) } rows <- rows[rows %in% col_filter] tbl_[rows, 'MDRO'] <<- to } } tbl_ <- tbl_ %>% mutate_at(vars(col_mo), as.mo) %>% # join to microorganisms data set left_join_microorganisms(by = col_mo) %>% # add unconfirmed to where genus is available mutate(MDRO = ifelse(!is.na(genus), 1, NA_integer_)) if (guideline$country$code == 'eucast') { # EUCAST ------------------------------------------------------------------ # Table 5 trans_tbl(3, which(tbl_$family == 'Enterobacteriaceae' | tbl_$fullname %like% '^Pseudomonas aeruginosa' | tbl_$genus == 'Acinetobacter'), COL, "all") trans_tbl(3, which(tbl_$fullname %like% '^Salmonella Typhi'), c(carbapenems, fluoroquinolones), "any") trans_tbl(3, which(tbl_$fullname %like% '^Haemophilus influenzae'), c(cephalosporins_3rd, carbapenems, fluoroquinolones), "any") trans_tbl(3, which(tbl_$fullname %like% '^Moraxella catarrhalis'), c(cephalosporins_3rd, fluoroquinolones), "any") trans_tbl(3, which(tbl_$fullname %like% '^Neisseria meningitidis'), c(cephalosporins_3rd, fluoroquinolones), "any") trans_tbl(3, which(tbl_$fullname %like% '^Neisseria gonorrhoeae'), AZM, "any") # Table 6 trans_tbl(3, which(tbl_$fullname %like% '^Staphylococcus (aureus|epidermidis|coagulase negatief|hominis|haemolyticus|intermedius|pseudointermedius)'), c(VAN, TEC, DAP, LNZ, QDA, TGC), "any") trans_tbl(3, which(tbl_$genus == 'Corynebacterium'), c(VAN, TEC, DAP, LNZ, QDA, TGC), "any") trans_tbl(3, which(tbl_$fullname %like% '^Streptococcus pneumoniae'), c(carbapenems, VAN, TEC, DAP, LNZ, QDA, TGC, RIF), "any") trans_tbl(3, # Sr. groups A/B/C/G which(tbl_$fullname %like% '^Streptococcus (pyogenes|agalactiae|equisimilis|equi|zooepidemicus|dysgalactiae|anginosus)'), c(PEN, cephalosporins, VAN, TEC, DAP, LNZ, QDA, TGC), "any") trans_tbl(3, which(tbl_$genus == 'Enterococcus'), c(DAP, LNZ, TGC, TEC), "any") trans_tbl(3, which(tbl_$fullname %like% '^Enterococcus faecalis'), c(AMP, AMX), "any") # Table 7 trans_tbl(3, which(tbl_$genus == 'Bacteroides'), MTR, "any") trans_tbl(3, which(tbl_$fullname %like% '^Clostridium difficile'), c( MTR, VAN), "any") } if (guideline$country$code == 'de') { # Germany ----------------------------------------------------------------- stop("We are still working on German guidelines in this beta version.", call. = FALSE) } if (guideline$country$code == 'nl') { # Netherlands ------------------------------------------------------------- aminoglycosides <- aminoglycosides[!ab_missing(aminoglycosides)] fluoroquinolones <- fluoroquinolones[!ab_missing(fluoroquinolones)] carbapenems <- carbapenems[!ab_missing(carbapenems)] # Table 1 trans_tbl(3, which(tbl_$family == 'Enterobacteriaceae'), c(aminoglycosides, fluoroquinolones), "all") trans_tbl(2, which(tbl_$family == 'Enterobacteriaceae'), c(carbapenems), "any") # Table 2 trans_tbl(2, which(tbl_$genus == 'Acinetobacter'), c(carbapenems), "any") trans_tbl(3, which(tbl_$genus == 'Acinetobacter'), c(aminoglycosides, fluoroquinolones), "all") trans_tbl(3, which(tbl_$fullname %like% '^Stenotrophomonas maltophilia'), SXT, "all") if (!ab_missing(MEM) & !ab_missing(IPM) & !ab_missing(GEN) & !ab_missing(TOB) & !ab_missing(CIP) & !ab_missing(CAZ) & !ab_missing(TZP) ) { tbl_$psae <- 0 tbl_[which(tbl_[, MEM] == "R" | tbl_[, IPM] == "R"), "psae"] <- 1 + tbl_[which(tbl_[, MEM] == "R" | tbl_[, IPM] == "R"), "psae"] tbl_[which(tbl_[, GEN] == "R" & tbl_[, TOB] == "R"), "psae"] <- 1 + tbl_[which(tbl_[, GEN] == "R" & tbl_[, TOB] == "R"), "psae"] tbl_[which(tbl_[, CIP] == "R"), "psae"] <- 1 + tbl_[which(tbl_[, CIP] == "R"), "psae"] tbl_[which(tbl_[, CAZ] == "R"), "psae"] <- 1 + tbl_[which(tbl_[, CAZ] == "R"), "psae"] tbl_[which(tbl_[, TZP] == "R"), "psae"] <- 1 + tbl_[which(tbl_[, TZP] == "R"), "psae"] } else { tbl_$psae <- 0 } tbl_[which( tbl_$fullname %like% 'Pseudomonas aeruginosa' & tbl_$psae >= 3 ), 'MDRO'] <- 3 # Table 3 trans_tbl(3, which(tbl_$fullname %like% 'Streptococcus pneumoniae'), PEN, "all") trans_tbl(3, which(tbl_$fullname %like% 'Streptococcus pneumoniae'), VAN, "all") trans_tbl(3, which(tbl_$fullname %like% 'Enterococcus faecium'), c(PEN, VAN), "all") } factor(x = tbl_$MDRO, levels = 1:3, labels = c('Negative', 'Positive, unconfirmed', 'Positive'), ordered = TRUE) } #' @rdname mdro #' @export brmo <- function(..., country = "nl") { mdro(..., country = "nl") } #' @rdname mdro #' @export mrgn <- function(x, country = "de", ...) { mdro(x = x, country = "de", ...) } #' @rdname mdro #' @export eucast_exceptional_phenotypes <- function(x, country = "EUCAST", ...) { mdro(x = x, country = "EUCAST", ...) } # is_ESBL <- function(x, col_mo = NULL, ...) { # get_ab_col <- function(columns, ab) { # columns[names(columns) == ab] # } # col_mo <- get_column_mo(tbl = x, col_mo = col_mo) # cols_ab <- get_column_abx(tbl = x, # soft_dependencies = c("AMX", "AMP"), # hard_dependencies = c("CAZ"), # ...) # # if (!any(c("AMX", "AMP") %in% names(cols_ab))) { # # both ampicillin and amoxicillin are missing # generate_warning_abs_missing(c("AMX", "AMP"), any = TRUE) # return(rep(NA, nrow(x))) # } # # ESBLs <- rep(NA, nrow(x)) # # # first make all eligible cases FALSE # ESBLs[which(mo_family(x[, col_mo]) == "Enterobacteriaceae" # & x[, get_ab_col(cols_ab, "AMX")] %in% c("R", "I", "S") # & x[, get_ab_col(cols_ab, "AMX")] %in% c("R", "I", "S") # & x[, get_ab_col(cols_ab, "AMX")] %in% c("R", "I", "S") # )] <- FALSE # # now make the positives cases TRUE # ESBLs[which(!is.na(ESBLs) # & x[, get_ab_col(cols_ab, "AMX")] == "R" # & x[, get_ab_col(cols_ab, "CAZ")] == "R")] <- TRUE # ESBLs # # } # # is_3MRGN <- function(x, ...) { # # } # # is_4MRGN <- function(x, ...) { # # } get_column_mo <- function(tbl, col_mo = NULL) { # throws a blue note about which column will be used if guessed if (is.null(col_mo)) { col_mo <- search_type_in_df(tbl = tbl, type = "mo") } if (is.null(col_mo)) { stop("`col_mo` must be set.", call. = FALSE) } col_mo }