AMR/R/atc.R

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R
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# ==================================================================== #
# TITLE #
# Antimicrobial Resistance (AMR) Analysis #
# #
# AUTHORS #
# Berends MS (m.s.berends@umcg.nl), Luz CF (c.f.luz@umcg.nl) #
# #
# LICENCE #
# This program is free software; you can redistribute it and/or modify #
# it under the terms of the GNU General Public License version 2.0, #
# as published by the Free Software Foundation. #
# #
# This program is distributed in the hope that it will be useful, #
# but WITHOUT ANY WARRANTY; without even the implied warranty of #
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the #
# GNU General Public License for more details. #
# ==================================================================== #
#' Properties of an ATC code
#'
#' Gets data from the WHO to determine properties of an ATC (e.g. an antibiotic) like name, defined daily dose (DDD) or standard unit. \cr \strong{This function requires an internet connection.}
#' @param atc_code a character or character vector with ATC code(s) of antibiotic(s)
#' @param property property of an ATC code. Valid values are \code{"ATC"}, \code{"Name"}, \code{"DDD"}, \code{"U"} (\code{"unit"}), \code{"Adm.R"}, \code{"Note"} and \code{groups}. For this last option, all hierarchical groups of an ATC code will be returned, see Examples.
#' @param administration type of administration when using \code{property = "Adm.R"}, see Details
#' @param url url of website of the WHO. The sign \code{\%s} can be used as a placeholder for ATC codes.
#' @param ... parameters to pass on to \code{atc_property}
#' @details
#' Options for parameter \code{administration}:
#' \itemize{
#' \item{\code{"Implant"}}{ = Implant}
#' \item{\code{"Inhal"}}{ = Inhalation}
#' \item{\code{"Instill"}}{ = Instillation}
#' \item{\code{"N"}}{ = nasal}
#' \item{\code{"O"}}{ = oral}
#' \item{\code{"P"}}{ = parenteral}
#' \item{\code{"R"}}{ = rectal}
#' \item{\code{"SL"}}{ = sublingual/buccal}
#' \item{\code{"TD"}}{ = transdermal}
#' \item{\code{"V"}}{ = vaginal}
#' }
#'
#' Abbreviations of return values when using \code{property = "U"} (unit):
#' \itemize{
#' \item{\code{"g"}}{ = gram}
#' \item{\code{"mg"}}{ = milligram}
#' \item{\code{"mcg"}}{ = microgram}
#' \item{\code{"U"}}{ = unit}
#' \item{\code{"TU"}}{ = thousand units}
#' \item{\code{"MU"}}{ = million units}
#' \item{\code{"mmol"}}{ = millimole}
#' \item{\code{"ml"}}{ = milliliter (e.g. eyedrops)}
#' }
#' @export
#' @rdname atc_property
#' @importFrom dplyr %>% progress_estimated
#' @importFrom xml2 read_html
#' @importFrom rvest html_children html_node html_nodes html_table
#' @importFrom curl nslookup
#' @source \url{https://www.whocc.no/atc_ddd_alterations__cumulative/ddd_alterations/abbrevations/}
#' @examples
#' \donttest{
#' # What's the ATC of amoxicillin?
#' guess_atc("Amoxicillin")
#' # [1] "J01CA04"
#'
#' # oral DDD (Defined Daily Dose) of amoxicillin
#' atc_property("J01CA04", "DDD", "O")
#' # parenteral DDD (Defined Daily Dose) of amoxicillin
#' atc_property("J01CA04", "DDD", "P")
#'
#' atc_property("J01CA04", property = "groups") # search hierarchical groups of amoxicillin
#' # [1] "ANTIINFECTIVES FOR SYSTEMIC USE"
#' # [2] "ANTIBACTERIALS FOR SYSTEMIC USE"
#' # [3] "BETA-LACTAM ANTIBACTERIALS, PENICILLINS"
#' # [4] "Penicillins with extended spectrum"
#' }
atc_property <- function(atc_code,
property,
administration = 'O',
url = 'https://www.whocc.no/atc_ddd_index/?code=%s&showdescription=no') {
# check active network interface, from https://stackoverflow.com/a/5078002/4575331
has_internet <- function(url) {
# extract host from given url
# https://www.whocc.no/atc_ddd_index/ -> www.whocc.no
url <- url %>%
gsub("^(http://|https://)", "", .) %>%
strsplit('/', fixed = TRUE) %>%
unlist() %>%
.[1]
!is.null(curl::nslookup(url, error = FALSE))
}
# check for connection using the ATC of amoxicillin
if (!has_internet(url = url)) {
message("The URL could not be reached.")
return(rep(NA, length(atc_code)))
}
if (length(property) != 1L) {
stop('`property` must be of length 1', call. = FALSE)
}
if (length(administration) != 1L) {
stop('`administration` must be of length 1', call. = FALSE)
}
# also allow unit as property
if (property %like% 'unit') {
property <- 'U'
}
# validation of properties
valid_properties <- c("ATC", "Name", "DDD", "U", "Adm.R", "Note", "groups")
valid_properties.bak <- valid_properties
property <- tolower(property)
valid_properties <- tolower(valid_properties)
if (!property %in% valid_properties) {
stop('Invalid `property`, use one of ', paste(valid_properties.bak, collapse = ", "), '.')
}
if (property == 'ddd') {
returnvalue <- rep(NA_real_, length(atc_code))
} else if (property == 'groups') {
returnvalue <- list()
} else {
returnvalue <- rep(NA_character_, length(atc_code))
}
progress <- progress_estimated(n = length(atc_code))
for (i in 1:length(atc_code)) {
progress$tick()$print()
atc_url <- sub('%s', atc_code[i], url, fixed = TRUE)
if (property == "groups") {
tbl <- xml2::read_html(atc_url) %>%
rvest::html_node("#content") %>%
rvest::html_children() %>%
rvest::html_node("a")
# get URLS of items
hrefs <- tbl %>% rvest::html_attr("href")
# get text of items
texts <- tbl %>% rvest::html_text()
# select only text items where URL like "code="
texts <- texts[grepl("?code=", tolower(hrefs), fixed = TRUE)]
# last one is antibiotics, skip it
texts <- texts[1:length(texts) - 1]
returnvalue <- c(list(texts), returnvalue)
} else {
tbl <- xml2::read_html(atc_url) %>%
rvest::html_nodes('table') %>%
rvest::html_table(header = TRUE) %>%
as.data.frame(stringsAsFactors = FALSE)
# case insensitive column names
colnames(tbl) <- tolower(colnames(tbl)) %>% gsub('^atc.*', 'atc', .)
if (length(tbl) == 0) {
warning('ATC not found: ', atc_code[i], '. Please check ', atc_url, '.', call. = FALSE)
returnvalue[i] <- NA
next
}
if (property %in% c('atc', 'name')) {
# ATC and name are only in first row
returnvalue[i] <- tbl[1, property]
} else {
if (!'adm.r' %in% colnames(tbl) | is.na(tbl[1, 'adm.r'])) {
returnvalue[i] <- NA
next
} else {
for (j in 1:nrow(tbl)) {
if (tbl[j, 'adm.r'] == administration) {
returnvalue[i] <- tbl[j, property]
}
}
}
}
}
}
if (property == "groups" & length(returnvalue) == 1) {
returnvalue <- returnvalue[[1]]
}
returnvalue
}
#' @rdname atc_property
#' @export
atc_groups <- function(atc_code, ...) {
atc_property(atc_code = atc_code, property = "groups", ...)
}
#' @rdname atc_property
#' @export
atc_ddd <- function(atc_code, ...) {
atc_property(atc_code = atc_code, property = "ddd", ...)
}
#' Name of an antibiotic
#'
#' Convert antibiotic codes (from a laboratory information system like MOLIS or GLIMS) to a (trivial) antibiotic name or ATC code, or vice versa. This uses the data from \code{\link{antibiotics}}.
#' @param abcode a code or name, like \code{"AMOX"}, \code{"AMCL"} or \code{"J01CA04"}
#' @param from,to type to transform from and to. See \code{\link{antibiotics}} for its column names. WIth \code{from = "guess"} the from will be guessed from \code{"atc"}, \code{"molis"} and \code{"umcg"}. When using \code{to = "atc"}, the ATC code will be search using \code{\link{guess_atc}}.
#' @param textbetween text to put between multiple returned texts
#' @param tolower return output as lower case with function \code{\link{tolower}}.
#' @keywords ab antibiotics
#' @source \code{\link{antibiotics}}
#' @export
#' @importFrom dplyr %>% filter select slice
#' @examples
#' abname("AMCL")
#' # "amoxicillin and enzyme inhibitor"
#'
#' abname("AMCL+GENT")
#' # "amoxicillin and enzyme inhibitor + gentamicin"
#'
#' abname(c("AMCL", "GENT"))
#' # "amoxicillin and enzyme inhibitor" "gentamicin"
#'
#' abname("AMCL", to = "trivial_nl")
#' # "Amoxicilline/clavulaanzuur"
#'
#' abname("AMCL", to = "atc")
#' # "J01CR02"
#'
#' abname("J01CR02", from = "atc", to = "umcg")
#' # "AMCL"
abname <- function(abcode, from = c("guess", "atc", "molis", "umcg"), to = 'official', textbetween = ' + ', tolower = FALSE) {
if (length(to) != 1L) {
stop('`to` must be of length 1', call. = FALSE)
}
if (to == "atc") {
return(guess_atc(abcode))
}
antibiotics <- AMR::antibiotics
from <- from[1]
if (from == "guess") {
for (i in 1:3) {
if (abcode[1] %in% (antibiotics %>% pull(i))) {
from <- colnames(antibiotics)[i]
}
}
if (from == "guess") {
from <- "umcg"
}
}
colnames(antibiotics) <- colnames(antibiotics) %>% tolower()
from <- from %>% tolower()
to <- to %>% tolower()
if (!from %in% colnames(antibiotics) |
!to %in% colnames(antibiotics)) {
stop(paste0('Invalid `from` or `to`. Choose one of ',
colnames(antibiotics) %>% paste(collapse = ", "), '.'), call. = FALSE)
}
abcode <- as.character(abcode)
abcode.bak <- abcode
for (i in 1:length(abcode)) {
abcode[i] <- abcode[i]
if (!grepl('+', abcode[i], fixed = TRUE) & !grepl(' en ', abcode[i], fixed = TRUE)) {
# only 1 drug
if (abcode[i] %in% (antibiotics %>% pull(from))) {
abcode[i] <-
antibiotics %>%
filter(.[, from] == abcode[i]) %>%
select(to) %>%
slice(1) %>%
as.character()
} else {
# not found
abcode[i] <- NA
}
} else {
# more than 1 drug
if (grepl('+', abcode[i], fixed = TRUE)) {
abcode.group <-
strsplit(abcode[i], '+', fixed = TRUE) %>%
unlist() %>%
trimws('both')
} else if (grepl(' en ', abcode[i], fixed = TRUE)) {
abcode.group <-
strsplit(abcode[i], ' en ', fixed = TRUE) %>%
unlist() %>%
trimws('both')
} else {
warning('Invalid concat.')
abcode[i] <- NA
next
}
for (j in 1:length(abcode.group)) {
abcode.group[j] <-
antibiotics %>%
filter(.[, from] == abcode.group[j]) %>%
select(to) %>%
slice(1) %>%
as.character()
if (j > 1 & to %in% c('official', 'trivial_nl')) {
abcode.group[j] <- abcode.group[j] %>% tolower()
}
}
abcode[i] <- paste(abcode.group, collapse = textbetween)
}
# when nothing found, try first chars of official name
if (is.na(abcode[i])) {
abcode[i] <- antibiotics %>%
filter(official %like% paste0('^', abcode.bak[i])) %>%
pull(to) %>%
.[1]
}
if (is.na(abcode[i])) {
warning('Code "', abcode.bak[i], '" not found in antibiotics list.', call. = FALSE)
}
}
if (tolower == TRUE) {
abcode <- abcode %>% tolower()
}
abcode
}
#' Find ATC code based on antibiotic property
#'
#' Use this function to determine the ATC code of one or more antibiotics. The dataset \code{\link{antibiotics}} will be searched for abbreviations, official names and trade names.
#' @param x character vector to determine \code{ATC} code
#' @export
#' @importFrom dplyr %>% filter slice pull
#' @details In the ATC classification system, the active substances are classified in a hierarchy with five different levels. The system has fourteen main anatomical/pharmacological groups or 1st levels. Each ATC main group is divided into 2nd levels which could be either pharmacological or therapeutic groups. The 3rd and 4th levels are chemical, pharmacological or therapeutic subgroups and the 5th level is the chemical substance. The 2nd, 3rd and 4th levels are often used to identify pharmacological subgroups when that is considered more appropriate than therapeutic or chemical subgroups.
#' Source: \url{https://www.whocc.no/atc/structure_and_principles/}
#' @return Character (vector).
#' @seealso \code{\link{antibiotics}} for the dataframe that is being used to determine ATC's.
#' @examples
#' # These examples all return "J01FA01", the ATC code of Erythromycin:
#' guess_atc("J01FA01")
#' guess_atc("Erythromycin")
#' guess_atc("eryt")
#' guess_atc("ERYT")
#' guess_atc("ERY")
#' guess_atc("Erythrocin") # Trade name
#' guess_atc("Eryzole") # Trade name
#' guess_atc("Pediamycin") # Trade name
guess_atc <- function(x) {
# use this later to further fill AMR::antibiotics
# drug <- "Ciprofloxacin"
# url <- xml2::read_html(paste0("https://www.ncbi.nlm.nih.gov/pccompound?term=", drug)) %>%
# html_nodes(".rslt") %>%
# .[[1]] %>%
# html_nodes(".title a") %>%
# html_attr("href") %>%
# gsub("/compound/", "/rest/pug_view/data/compound/", ., fixed = TRUE) %>%
# paste0("/XML/?response_type=display")
# synonyms <- url %>%
# read_xml() %>%
# xml_contents() %>% .[[6]] %>%
# xml_contents() %>% .[[8]] %>%
# xml_contents() %>% .[[3]] %>%
# xml_contents() %>% .[[3]] %>%
# xml_contents() %>%
# paste() %>%
# .[. %like% "StringValueList"] %>%
# gsub("[</]+StringValueList[>]", "", .)
for (i in 1:length(x)) {
# first try atc
found <- AMR::antibiotics %>% filter(atc == x[i])
if (nrow(found) == 0) {
# try abbreviation of molis and glims
found <- AMR::antibiotics %>% filter(tolower(molis) == tolower(x[i]) | tolower(umcg) == tolower(x[i]))
}
if (nrow(found) == 0) {
# try exact official name
found <- AMR::antibiotics[which(tolower(AMR::antibiotics$official) == tolower(x[i])),]
}
if (nrow(found) == 0) {
# try trade name
found <- AMR::antibiotics[which(paste0("(", AMR::antibiotics$trade_name, ")") %like% x[i]),]
}
if (nrow(found) == 0) {
# try abbreviation
found <- AMR::antibiotics[which(paste0("(", AMR::antibiotics$abbr, ")") %like% x[i]),]
}
# if (nrow(found) == 0) {
# # loosely try official name
# found <- AMR::antibiotics[which(AMR::antibiotics$official %like% x[i]),]
# }
if (nrow(found) != 0) {
x[i] <- found %>%
slice(1) %>%
pull(atc)
} else {
x[i] <- NA
}
}
x
}