mirror of
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157 lines
6.3 KiB
R
Executable File
157 lines
6.3 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.gitab.io/AMR. #
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# ==================================================================== #
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#' Age in years of individuals
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#'
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#' Calculates age in years based on a reference date, which is the sytem date at default.
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#' @param x date(s), will be coerced with \code{\link{as.POSIXlt}}
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#' @param reference reference date(s) (defaults to today), will be coerced with \code{\link{as.POSIXlt}} and cannot be lower than \code{x}
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#' @return Integer (no decimals)
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#' @seealso \code{\link{age_groups}} to split age into age groups
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#' @importFrom dplyr if_else
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#' @inheritSection AMR Read more on our website!
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#' @export
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#' @examples
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#' df <- data.frame(birth_date = Sys.Date() - runif(100) * 25000)
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#' df$age <- age(df$birth_date)
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age <- function(x, reference = Sys.Date()) {
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if (length(x) != length(reference)) {
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if (length(reference) == 1) {
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reference <- rep(reference, length(x))
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} else {
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stop("`x` and `reference` must be of same length, or `reference` must be of length 1.")
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}
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}
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x <- base::as.POSIXlt(x)
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reference <- base::as.POSIXlt(reference)
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# from https://stackoverflow.com/a/25450756/4575331
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years_gap <- reference$year - x$year
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ages <- if_else(reference$mon < x$mon | (reference$mon == x$mon & reference$mday < x$mday),
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as.integer(years_gap - 1),
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as.integer(years_gap))
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if (any(ages < 0, na.rm = TRUE)) {
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warning("NAs introduced for ages below 0.")
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ages[ages < 0] <- NA_integer_
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}
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if (any(ages > 120, na.rm = TRUE)) {
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warning("Some ages are > 120.")
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}
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ages
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}
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#' Split ages into age groups
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#'
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#' Split ages into age groups defined by the \code{split} parameter. This allows for easier demographic (antimicrobial resistance) analysis.
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#' @param x age, e.g. calculated with \code{\link{age}}
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#' @param split_at values to split \code{x} at, defaults to age groups 0-11, 12-24, 26-54, 55-74 and 75+. See Details.
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#' @details To split ages, the input can be:
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#' \itemize{
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#' \item{A numeric vector. A vector of e.g. \code{c(10, 20)} will split on 0-9, 10-19 and 20+. A value of only \code{50} will split on 0-49 and 50+.
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#' The default is to split on young children (0-11), youth (12-24), young adults (26-54), middle-aged adults (55-74) and elderly (75+).}
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#' \item{A character:}
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#' \itemize{
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#' \item{\code{"children"}, equivalent of: \code{c(0, 1, 2, 4, 6, 13, 18)}. This will split on 0, 1, 2-3, 4-5, 6-12, 13-17 and 18+.}
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#' \item{\code{"elderly"} or \code{"seniors"}, equivalent of: \code{c(65, 75, 85, 95)}. This will split on 0-64, 65-74, 75-84, 85-94 and 95+.}
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#' \item{\code{"fives"}, equivalent of: \code{1:20 * 5}. This will split on 0-4, 5-9, 10-14, 15-19 and so forth.}
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#' \item{\code{"tens"}, equivalent of: \code{1:10 * 10}. This will split on 0-9, 10-19, 20-29 and so forth.}
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#' }
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#' }
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#' @keywords age_group age
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#' @return Ordered \code{\link{factor}}
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#' @seealso \code{\link{age}} to determine ages based on one or more reference dates
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#' @export
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#' @inheritSection AMR Read more on our website!
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#' @examples
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#' ages <- c(3, 8, 16, 54, 31, 76, 101, 43, 21)
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#'
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#' # split into 0-49 and 50+
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#' age_groups(ages, 50)
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#'
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#' # split into 0-19, 20-49 and 50+
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#' age_groups(ages, c(20, 50))
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#'
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#' # split into groups of ten years
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#' age_groups(ages, 1:10 * 10)
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#' age_groups(ages, split_at = "tens")
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#'
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#' # split into groups of five years
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#' age_groups(ages, 1:20 * 5)
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#' age_groups(ages, split_at = "fives")
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#'
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#' # split specifically for children
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#' age_groups(ages, "children")
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#' # same:
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#' age_groups(ages, c(1, 2, 4, 6, 13, 17))
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#'
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#' # resistance of ciprofloxacine per age group
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#' library(dplyr)
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#' septic_patients %>%
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#' mutate(first_isolate = first_isolate(.)) %>%
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#' filter(first_isolate == TRUE,
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#' mo == as.mo("E. coli")) %>%
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#' group_by(age_group = age_groups(age)) %>%
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#' select(age_group,
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#' cipr) %>%
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#' ggplot_rsi(x = "age_group")
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age_groups <- function(x, split_at = c(12, 25, 55, 75)) {
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if (is.character(split_at)) {
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split_at <- split_at[1L]
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if (split_at %like% "^child") {
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split_at <- c(0, 1, 2, 4, 6, 13, 18)
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} else if (split_at %like% "^(elder|senior)") {
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split_at <- c(65, 75, 85, 95)
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} else if (split_at %like% "^five") {
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split_at <- 1:20 * 5
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} else if (split_at %like% "^ten") {
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split_at <- 1:10 * 10
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}
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}
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split_at <- as.integer(split_at)
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if (!is.numeric(x) | !is.numeric(split_at)) {
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stop("`x` and `split_at` must both be numeric.")
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}
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split_at <- sort(unique(split_at))
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if (!split_at[1] == 0) {
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split_at <- c(0, split_at)
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}
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if (length(split_at) == 1) {
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# only 0 available
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stop("invalid value for `split_at`.")
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}
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# turn input values to 'split_at' indices
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y <- x
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labs <- split_at
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for (i in 1:length(split_at)) {
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y[x >= split_at[i]] <- i
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# create labels
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labs[i - 1] <- paste0(unique(c(split_at[i - 1], split_at[i] - 1)), collapse = "-")
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}
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# last category
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labs[length(labs)] <- paste0(split_at[length(split_at)], "+")
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factor(labs[y], levels = labs, ordered = TRUE)
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}
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