## ----setup, include=FALSE----------------------------------------------------- knitr::opts_chunk$set(echo = TRUE, warning = TRUE) knitr::opts_chunk$set(out.width = "1200px", dpi = 300, fig.height = 6, fig.width = 10, dev = "svglite", fig.align = "center", out.extra = 'style="display:block; margin: auto"') ## ----fig.height=6, fig.width=6.8, fig.align="center"-------------------------- library(nmaplateplot) library(svglite) data("ad12.eff.acc") plateplot(ad12.eff.acc, design_method = c("circle", "circle"), upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") ## ----fig.height=6, fig.width=10, fig.align="center"--------------------------- # option design_method controls whether you want upper and lower diagonal parts to display "text" or "circle" respectively. plateplot(ad12.eff.acc, design_method = c("text", "text"), upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") ## ----fig.height=6, fig.width=10, fig.align="center"--------------------------- nma_res_minimum <- ad12.eff.acc nma_res_minimum$Treatment_specific_values$Value_Upper <- NULL nma_res_minimum$Treatment_specific_values$Value_Lower <- NULL # This is the minimum input for the plateplot function nma_res_minimum$Treatment_specific_values round(nma_res_minimum$Point_estimates,2) round(nma_res_minimum$Interval_estimates_LB,2) round(nma_res_minimum$Interval_estimates_UB,2) round(nma_res_minimum$Pvalues,3) # The text output based on minimum input plateplot(nma_res_minimum, design_method = c("text", "text"), upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") ## ----fig.height=6, fig.width=10, fig.align="center"--------------------------- plateplot(nma_res_minimum, design_method = c("text", "text"), transform_rc_ullr_boolean = FALSE, upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") ## ----fig.height=6, fig.width=10, fig.align="center"--------------------------- plateplot(nma_res_minimum, design_method = c("text", "text"), transform_rc_ullr_boolean = TRUE, upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") ## ----fig.height=6, fig.width=6.8, fig.align="center"-------------------------- # only show SUCRA for lower diagonal part nma_res_SUCRA_LD <- ad12.eff.acc nma_res_SUCRA_LD$Treatment_specific_values$Value_Lower <- NULL plateplot(nma_res_SUCRA_LD, design_method = c("circle", "circle"), transform_rc_ullr_boolean = TRUE, upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") # only show SUCRA for upper diagonal part nma_res_SUCRA_UD <- ad12.eff.acc nma_res_SUCRA_UD$Treatment_specific_values$Value_Upper <- NULL plateplot(nma_res_SUCRA_UD, design_method = c("circle", "circle"), transform_rc_ullr_boolean = TRUE, upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") # show both, but they are different nma_res_SUCRA_Bothd <- ad12.eff.acc plateplot(nma_res_SUCRA_Bothd, design_method = c("circle", "circle"), transform_rc_ullr_boolean = TRUE, upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") # show both and they are same nma_res_SUCRA_Boths <- ad12.eff.acc nma_res_SUCRA_Boths$Treatment_specific_values$Value_Lower <- nma_res_SUCRA_Boths$Treatment_specific_values$Value_Upper plateplot(nma_res_SUCRA_Boths, design_method = c("circle", "circle"), transform_rc_ullr_boolean = TRUE, upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") ## ----eval=FALSE--------------------------------------------------------------- # nma_res_minimum_text <- plateplot(nma_res_minimum, design_method = c("text", "text"), # upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") # ggsave("nma_res_minimum.pdf", plot = nma_res_minimum_text, device = "pdf", # width = 10, height = 6, dpi = 600) # ggsave("nma_res_minimum.tiff", plot = nma_res_minimum_text, device = "tiff", compression = "lzw", # width = 10, height = 6, dpi = 600) # ggsave("nma_res_minimum.svg", plot = nma_res_minimum_text, device = "svg", # width = 10, height = 6, dpi = 600) ## ----eval=FALSE--------------------------------------------------------------- # nma_res_minimum_plate <- plateplot(nma_res_minimum, design_method = c("circle", "circle"), # upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") # ggsave("nma_res_minimum_plate.pdf", plot = nma_res_minimum_plate, device = "pdf", # width = 6.8, height = 6, dpi = 600) ## ----fig.height=6, fig.width=10, fig.align="center"--------------------------- data("ad12.rr.rd") plateplot(ad12.rr.rd, null_value_zero = c(FALSE, TRUE), lower_better = c(FALSE, FALSE), design_method = c("text", "text"), upper_diagonal_name = "Efficacy: Risk ratio", lower_diagonal_name = "Efficacy: Risk difference") data("ad12.eff.acc") plateplot(ad12.eff.acc, null_value_zero = c(FALSE, FALSE), lower_better = c(FALSE, TRUE), design_method = c("text", "text"), upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") ## ----fig.height=6, fig.width=6.8, fig.align="center"-------------------------- data("ad12.eff.acc") ad12.eff.acc$Treatment_specific_values$Order <- c(1:6,12:7) plateplot(ad12.eff.acc, null_value_zero = c(FALSE, FALSE), lower_better = c(FALSE, TRUE), design_method = c("circle", "circle"), upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") ## ----fig.height=6, fig.width=10, fig.align="center"--------------------------- data("ad12.eff.acc") ad12.eff.acc$Symbol_indicators <- as.data.frame(matrix(NA, nrow = 12, ncol = 12)) for(i in 1:12){ for(j in 1:12){ if(ad12.eff.acc$Pvalues[i, j]<0.001){ ad12.eff.acc$Symbol_indicators[i, j] <- paste0("***") }else if(ad12.eff.acc$Pvalues[i, j]<0.01){ ad12.eff.acc$Symbol_indicators[i, j] <- paste0("**") }else if(ad12.eff.acc$Pvalues[i, j]<0.05){ ad12.eff.acc$Symbol_indicators[i, j] <- paste0("*") }else{ ad12.eff.acc$Symbol_indicators[i, j] <- NA } } } plateplot(ad12.eff.acc, null_value_zero = c(FALSE, FALSE), lower_better = c(FALSE, TRUE), design_method = c("text", "text"), upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") ## ----fig.height=6, fig.width=6.8, fig.align="center"-------------------------- data("ad12.eff.acc") plateplot(ad12.eff.acc, design_method = c("circle", "circle"), plate_circle_minsize = c(1.0, 1.0), plate_circle_maxsize = c(8.0, 8.0), plate_circle_samesize = FALSE, upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") ## ----fig.height=6, fig.width=10, fig.align="center"--------------------------- plateplot(ad12.rr.rd, null_value_zero = c(FALSE, TRUE), lower_better = c(FALSE, FALSE), design_method = c("text", "text"), text_size = 2.0, upper_diagonal_name = "Efficacy: Risk ratio", lower_diagonal_name = "Efficacy: Risk difference") ## ----fig.height=6, fig.width=6.8, fig.align="center"-------------------------- plateplot(ad12.eff.acc, design_method = c("circle", "circle"), max_substring = 2, upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") ## ----fig.height=6, fig.width=6.8, fig.align="center"-------------------------- plateplot(ad12.eff.acc, design_method = c("circle", "circle"), diagonal_color = c("white", "green3"), upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") ## ----fig.height=6, fig.width=6.8, fig.align="center"-------------------------- plateplot(ad12.eff.acc, design_method = c("circle", "circle"), text_and_circle_color = c("blue", "white", "red", "grey70", "black"), upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") ## ----fig.height=6, fig.width=10, fig.align="center"--------------------------- plateplot(ad12.eff.acc, design_method = c("text", "text"), text_and_circle_color = c("red", "black", "blue"), upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") ## ----fig.height=6, fig.width=6.8, fig.align="center"-------------------------- plateplot(ad12.eff.acc, design_method = c("circle", "circle"), offdiagonal_color = c("cornsilk1", "white"), upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") ## ----fig.height=6, fig.width=6.8, fig.align="center"-------------------------- plateplot(ad12.eff.acc, design_method = c("circle", "circle"), c("khaki", "cornsilk","white"), upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") ## ----fig.height=6, fig.width=10, fig.align="center"--------------------------- data("ad12.eff.acc") ad12.eff.acc$Color <- as.data.frame(matrix(NA, nrow = 12, ncol = 12)) # setup upper-diagonal background for(j in 2:12){ for(i in 1:(j-1)){ if(ad12.eff.acc$Point_estimates[i, j]>=1.2 | ad12.eff.acc$Point_estimates[i, j]<=(1/1.2)){ ad12.eff.acc$Color[i, j] <- "khaki" }else{ ad12.eff.acc$Color[i, j] <- "white" } } } # setup lower-diagonal background for(i in 2:12){ for(j in 1:(i-1)){ if(ad12.eff.acc$Point_estimates[i, j]>=1.2 | ad12.eff.acc$Point_estimates[i, j]<=(1/1.2)){ ad12.eff.acc$Color[i, j] <- "cornsilk" }else{ ad12.eff.acc$Color[i, j] <- "white" } } } plateplot(ad12.eff.acc, null_value_zero = c(FALSE, FALSE), lower_better = c(FALSE, TRUE), design_method = c("text", "text"), upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") ## ----fig.height=6, fig.width=6.8, fig.align="center"-------------------------- data("ad12.eff.acc") plateplot(ad12.eff.acc, design_method = c("circle", "circle"), title = "Efficacy and acceptability of 12 antidepressants", upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") ## ----fig.height=6, fig.width=6.8, fig.align="center"-------------------------- data("ad12.pma.nma") plateplot(ad12.pma.nma, design_method = c("circle", "circle"), plate_circle_minsize = c(2, 2), plate_circle_maxsize = c(30, 30), plate_circle_samesize = TRUE, upper_diagonal_name = "Network meta-analysis", lower_diagonal_name = "Pairwise meta-analysis") ## ----fig.height=6, fig.width=10, fig.align="center"--------------------------- plateplot(ad12.pma.nma, design_method = c("circle", "text"), upper_diagonal_name = "Network meta-analysis", lower_diagonal_name = "Pairwise meta-analysis") ## ----fig.height=6, fig.width=6.8, fig.align="center"-------------------------- data("ad22") plateplot(ad22, design_method = c("circle", "circle"), plate_circle_minsize = c(1.5, 1.5), plate_circle_maxsize = c(7, 7), text_size = 1.5, plate_circle_samesize = FALSE, upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability") ## ----fig.height=6, fig.width=10, fig.align="center"--------------------------- plateplot(ad22, design_method = c("text", "text"), text_size = 1.5, upper_diagonal_name = "Efficacy", lower_diagonal_name = "Acceptability")