STAT340: Discussion 11: Multiple Testing
STAT340: Discussion 11: Multiple Testing
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We will explore the problem of multiple testing in 2 exercises. First, we will run a Monte Carlo simulation study to quantitatively demonstrate the problem of multiple testing. Then, we will apply our knowledge to a real data set.
1) Simulation
For this exercise, we will randomly generate data that’s completely independent, and show that with enough comparisons, we can easily produce falsely significant results. We will also show how Bonferroni’s correction can mitigate these problems.
Generating data
Let nvar represent the number of predictor variables to be generated. To begin, let nvar=20 (which corresponds to the number of variables you would expect to need to generate on average to produce 1 falsely significant predictor at the standard α=0.05 level (note this is geometric)).
Also let nobs be the number of observations we take (i.e. number of rows in our data frame). Let’s begin with nobs=1000.
nobs = 1000
Next, we randomly generate a data frame with nobs rows and nvar+1 columns (1 observed variable + nvar predictor variables). The distribution doesn’t matter, let’s just start by using the standard normal distribution.
The easiest way to do this is to generate a vector with nobs*(nvar+1) random numbers, then reshape to a matrix with the correct dimensions, then finally convert to a data frame object (note matrix and data frame are two different types of objects in R, so this last step is necessary or else the R functions we are used to using (which are written for data frames) will not work).
# UNCOMMENT LINES BELOW AND RUN
# df = rnorm(nobs*(nvar+1)) %>% # generate random numbesr
# matrix(ncol = nvar+1) %>% # reshape to matrix with nvar+1 columns
# as.data.frame %>% # convert to data frame
# setNames(c(“Y”,paste0(“X”,1:20))) # change column names
# head(df,4)
Running regression
Remember, multiple testing correction methods are just methods for adjusting p-values to take into account how many tests we are running, so it can apply to any statistical method that produces a p-value; it is NOT limited to regression. However, for this example, we will use regression to demonstrate the problem.
Run a basic multiple linear regression (no interactions or powers) of Y on all variables X1, X2, …, X20 in the dataset (recall you the expression Y ~ . will do this automagically (don’t forget to set data=df)), and show the summary() output.
# run regression here
The numbers in your dataset are all randomly and independently generated, but due to the number of tests you are running, on average you would find 1 statistically significant (p-value < 0.05) variable in this summary output (if you didn’t get a significant result, try running the data generation again).
Monte-Carlo analysis
Recall that a p-value represents the probability of false positive if there is no real effect. Thus, letting α=0.05 means we expect on average, 5% of our experiments to produce a false positive.
Write a Monte-Carlo function that, for each iteration, generates a new data frame using the method above, performs a multiple linear regression, and checks to see if the results report any falsely significant variables. (Hint: you can use coef(summary( ... ))[,4] to extract the computed p-values from your lm model object).
# write Monte-Carlo function here.
# at this point of the course, you should be
# able to write this with minimal guidance.
Run the function N=1000 times. What proportion of these ‘experiments’ produced some kind of falsely significant variable?
RESPONSE TEXT HERE
Bonferroni correction
Now, apply a Bonferroni correction. Note there are two equivalent method of doing this; you can either
use α=0.05/20=0.0025 instead of the uncorrected α=0.05,
OR multiply the p-value for each test by 20 and compare with the uncorrected α=0.05.
Modify your previous function (ideally by adding an additional TRUE/FALSE argument) so that each iteration, a Bonferroni correction is made before checking if any variables are significant. Run this new function N=1000 times.
What proportion of these Bonferroni-corrected experiments produced a falsely significant variable? Is this consistent with what you expect? (Hint: remember you expect on average α=0.05 experiments to produce false positives.)
RESPONSE TEXT HERE
BONUS section
If you wish, rerun the above results (i.e. proportion of uncorrected and Bonferroni-corrected experiments with a false positive variable in the results) for different values of nvar and plot the two curves, along with a flat line at 0.05. What do you observe?
2) Real data
For the real data analysis, we will use the airquality dataset (already included in R), which contains air quality measurements in , from May to September (5 months in total) in 1973 (see ?airquality for more info).
Use the function pairwise.t.test with x=Ozone and g=Month to run several pairwise t-tests comparing each month to every other month (a total of 5*4/2=10 comparisons). Run this twice first with the argument p.adjust.method="none" for no adjustment and then with p.adjust.method="bonferroni" and compare the results.
# UNCOMMENT LINE BELOW TO RUN
# airquality %$% pairwise.t.test(Ozone, Month, p.adj=......)
# note that Ozone and Month are columns in airquality, so
# you have to expose the columns for pairwise.t.test to use.
# an easy way of doing this is to use %$% exposition pipe from magrittr,
# (see https://magrittr.tidyverse.org/reference/exposition.html).
# this works in a similar way to %>% except instead of piping an object,
# it exposes the columns of a data frame to be used directly in the next line.
# also note most arguments can be shortened, so
# “p.adjust.method” can be shortened to just “p.adj”.
# this is possible since in R arguments are often partially matched, which means
# you only need to specify enough of it to disambiguate from other options
Which months are significantly different in Ozone content according to Bonferroni-corrected p-values? Which months were significant without correction but found to be NOT significant after Bonferroni correction?
RESPONSE TEXT HERE
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