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In the R package {Epi} the ROC() function can generate a plot out of the dataset aSAH in in the {pROC} package like this:

enter image description here

with the following commands:

require(Epi)
require(pROC)
data(aSAH)
rock = ROC(form = outcome ~ s100b, data=aSAH, plot = "ROC", MX = T)

The sensitivity and specificity were calculated for 51 points included in the object nrow(rock$res). In this regard, note that nrow(aSAH) is instead 113.

Which points were used to generate rock$res?

If we were using the function roc() in the package {pROC} instead, we could get this via: roc(aSAH$outcome, aSAH$s100b)$threshold. But being different packages, they are probably different.

1 Answer 1

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The answer is... of course... in the package documentation:

res dataframe with variables sens, spec, pvp, pvn and name of the test variable. The latter is the unique values of test or linear predictor from the logistic regression in ascending order with -Inf prepended.

So what are the unique values:

points = unique(aSAH$s100b); length(points) [1] 50 plus the pre-ended -Inf!

Nice inkling, but can we prove it... I think so:

require(Epi)
require(pROC)
data(aSAH)
rock = ROC(form = outcome ~ s100b, data=aSAH, plot = "ROC", MX = T)

d = aSAH
> head(d)
     gos6 outcome gender age wfns s100b  ndka
 29    5    Good  Female  42    1  0.13  3.01
 30    5    Good  Female  37    1  0.14  8.54
 31    5    Good  Female  42    1  0.10  8.09
points = sort(unique(d$s100b))
> head(points)
[1] 0.03 0.04 0.05 0.06 0.07 0.08
> length(points)
[1] 50

## Logistic regression coefficients:
beta.0 = as.numeric(rock$lr$coefficients[1])
beta.1 = as.numeric(rock$lr$coefficients[2])

## Sigmoid function:
sigmoid =  1 / (1 + exp(-(beta.0 + beta.1 * points)))
sigmoid = as.numeric(c("-Inf", sigmoid))

lr.eta = rock$res$lr.eta
length(lr.eta)
head(lr.eta)
head(sigmoid)

> head(lr.eta)
[1]      -Inf 0.1663429 0.1732556 0.1803934 0.1877585 0.1953526
> head(sigmoid)
[1]      -Inf 0.1663429 0.1732556 0.1803934 0.1877585 0.1953526

## Trying to get the lr.eta number 0.304 on the plot:
> which.max(rowSums(rock$res[, c("sens", "spec")])) 
# 0.30426295405785      18 

## What do we find in row 18 or res?
> rock$res[18,]
                  sens      spec       pvp      pvn     lr.eta
0.30426295405785 0.6341463 0.8055556 0.2054795  0.35    0.304263

## Yet, lr.eta is not the Youden's J statistic or index:
> rock$res[18,"sens"] + rock$res[18,"spec"] - 1
[1] 0.4397019

## Instead, it is the Probability of the outcome at the input with max Youden's index:
## Excluding the "-Inf" introduced by the ROC function (position 17 as opposed to 18):
max.sens.sp.cut = points[17]
1 / (1 + exp(-(beta.0 + beta.1 * max.sens.sp.cut)))  [1] 0.304263 !!!

Done!

The lt.eta is, therefore, the probability of the outcome at the threshold corresponding to the maximum Youden's index.

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