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How To Calculate FDR Adjusted P-Values: A Step-by-Step Guide

MeredithPfeiffer2 2024.11.22 14:44 Views : 0

How to Calculate FDR Adjusted P-Values: A Step-by-Step Guide

Calculating FDR-adjusted p-values is an essential step in multiple hypothesis testing. It is a statistical method used to control the rate of false positives when conducting multiple comparisons. False Discovery Rate (FDR) is the expected proportion of rejected null hypotheses that are false positives.



The FDR procedure is particularly useful in fields such as genomics and proteomics, where large numbers of tests are run on small samples. This method adjusts the p-values for a series of tests, giving the probability of a false positive on a single test. The FDR approach is more powerful than the traditional Bonferroni correction method, which is a conservative approach that multiplies the raw p-values by the number of tests.


In this article, we will explore how to calculate FDR-adjusted p-values using the Benjamini-Hochberg procedure. We will explain the steps involved in calculating adjusted p-values and how the critical value is determined based on the desired FDR control. We will also discuss the advantages of using the FDR approach over other correction methods and provide examples of its applications in various fields.

Understanding P-Values



P-values are a measure of the strength of evidence against the null hypothesis. They are used to determine whether a result is statistically significant or not. A p-value is the probability of obtaining a test statistic as extreme or more extreme than the observed one, assuming the null hypothesis is true.


A p-value is typically compared to a significance level (alpha) to determine whether to reject or fail to reject the null hypothesis. If the p-value is less than or equal to alpha, the result is considered statistically significant, and the null hypothesis is rejected. If the p-value is greater than alpha, the result is not statistically significant, and the null hypothesis is not rejected.


It is important to note that a significant result does not necessarily mean that the effect is large or important in practice. It only means that the observed result is unlikely to have occurred by chance alone, assuming the null hypothesis is true.


Calculating p-values can be straightforward for single hypothesis tests, but it becomes more complicated when multiple hypotheses are tested simultaneously. In such cases, the probability of obtaining at least one significant result by chance alone increases, and the chance of making a type I error (false positive) also increases.


To address this issue, the Benjamini-Hochberg procedure (FDR) and P-Value Adjusted Explained can be used to adjust p-values for multiple comparisons, which helps control the false discovery rate.

The Concept of False Discovery Rate (FDR)



False Discovery Rate (FDR) is a statistical concept used to control the rate of false positives in hypothesis testing when multiple comparisons are performed. It is an alternative to the more traditional approach of controlling the Family-Wise Error Rate (FWER), which is the probability of making at least one false positive among all the tests performed.


The FDR is the expected proportion of false discoveries among all the discoveries made. A discovery is defined as a hypothesis that is rejected as significant. The FDR is a more relaxed criterion than the FWER, as it allows for a higher number of false positives, but it is more powerful in detecting true positives.


The FDR is calculated by dividing the expected number of false positives by the total number of discoveries. The expected number of false positives is estimated using a method such as the Benjamini-Hochberg procedure, which controls the FDR at a desired level. The procedure works by ordering the p-values of the hypothesis tests in ascending order, calculating the critical value based on the desired FDR level, and rejecting all hypotheses with p-values below the critical value.


In summary, the FDR is a useful concept in hypothesis testing when multiple comparisons are performed. It allows for a more relaxed criterion than the FWER, but it is more powerful in detecting true positives. The Benjamini-Hochberg procedure is a popular method for controlling the FDR at a desired level.

The Need for FDR Adjustment



In statistical hypothesis testing, p-values are used to determine the significance of a result. A p-value is the probability of observing a test statistic as extreme as, or more extreme than, the one observed, assuming the null hypothesis is true.


However, when conducting multiple tests simultaneously, the probability of observing at least one significant result by chance alone increases. This is known as the family-wise error rate (FWER), which is the probability of making at least one type I error among all the tests conducted.


To control the FWER, researchers can use methods such as the Bonferroni correction, which adjusts the significance level of each test to maintain an overall alpha level. However, this method can be too conservative and result in low power.


Alternatively, the false discovery rate (FDR) can be controlled using methods such as the Benjamini-Hochberg procedure. The FDR is the expected proportion of false positives among all the significant results.


Controlling the FDR allows researchers to identify a larger number of true positives while still maintaining a low rate of false positives. Therefore, FDR adjustment is essential when conducting multiple hypothesis tests to ensure accurate and reliable results.

Basic Principles of Multiple Testing Correction



When conducting multiple statistical tests, the likelihood of obtaining false positives increases. This is known as the multiple testing problem. To address this issue, researchers often apply multiple testing correction methods to control the false discovery rate (FDR).


There are several methods for multiple testing correction, including Bonferroni correction, Holm-Bonferroni correction, and the Benjamini-Hochberg procedure. Bonferroni correction is a conservative method that adjusts the p-values by multiplying them by the number of tests performed. This method is easy to implement but can lead to a high rate of false negatives.


Holm-Bonferroni correction is a modified version of the Bonferroni correction that provides more power by adjusting the p-values in a stepwise manner. The Benjamini-Hochberg procedure is a popular method that controls the FDR by adjusting the p-values in a non-conservative way. This method is more powerful than the Bonferroni correction and has become the standard method for multiple testing correction.


In general, the choice of multiple testing correction method depends on the research question, the number of tests performed, and the desired level of control over the FDR. It is important to choose an appropriate method to ensure accurate and reliable results.

Calculating FDR-Adjusted P-Values



To calculate FDR-adjusted p-values, the researcher needs to follow the Benjamini-Hochberg procedure, which controls the false discovery rate (FDR) at a desired level. The FDR is the proportion of false positives among all significant tests, and controlling it is important to avoid making incorrect conclusions.


The steps involved in calculating adjusted p-values using the Benjamini-Hochberg procedure are as follows:




  1. Conduct all statistical tests and find the p-value for each test.




  2. Arrange the p-values in order from smallest to largest, assigning a rank to each one - the smallest p-value has a rank of 1, the next smallest has a rank of 2, and so on.




  3. Calculate the Benjamini-Hochberg critical value for each p-value using the formula:


    critical value = (rank / m) * q


    where rank is the rank of the p-value, m is the total number of tests, and q is the desired FDR level. For example, if the researcher wants to control the FDR at 0.05, q would be 0.05.




  4. Compare each p-value to its corresponding critical value. If the p-value is less than or equal to the critical value, it is considered significant and its adjusted p-value is calculated as:


    adjusted p-value = (p-value * m) / rank


    If the p-value is greater than the critical value, it is not considered significant and its adjusted p-value is set to 1.




  5. The adjusted p-values can then be used to determine which tests are significant and which are not. The tests with adjusted p-values less than or equal to the desired FDR level are considered significant.




Overall, calculating FDR-adjusted p-values is an important step in multiple testing to ensure that the results are reliable and accurate. By following the Benjamini-Hochberg procedure, researchers can control the FDR at a desired level and make informed conclusions based on their statistical analyses.

Common Procedures for FDR Adjustment


When conducting multiple hypothesis tests, it is common to adjust the p-values to account for the false discovery rate (FDR). Two widely used procedures for FDR adjustment are the Benjamini-Hochberg (BH) procedure and the Benjamini-Yekutieli (BY) procedure.


Benjamini-Hochberg Procedure


The BH procedure is a step-up procedure that controls the FDR at a specified level, q. To use the BH procedure, one first sorts the p-values in ascending order. Next, each p-value is multiplied by the total number of hypotheses tested, m, and divided by its rank, i. The adjusted p-value is the smallest p-value, p, such that p ≤ i/m * q.

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Benjamini-Yekutieli Procedure

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The BY procedure is a modification of the BH procedure that is more conservative when the number of hypotheses tested is small. It controls the FDR at a specified level, q, while taking into account the dependence structure among the hypotheses. To use the BY procedure, one first sorts the p-values in ascending order. Next, each p-value is multiplied by the total number of hypotheses tested, mortgage calculator ma (google.com.om) m, and divided by its rank, i, and by a correction factor, λ. The correction factor is calculated as the minimum value of m/i times the sum of 1/j for j = 1 to i. The adjusted p-value is the smallest p-value, p, such that p ≤ i/m * q/λ.
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Both the BH and BY procedures are commonly used in fields such as genomics, neuroscience, and economics. It is important to choose an appropriate FDR level based on the goals of the study, and to interpret the adjusted p-values accordingly.

Interpreting FDR-Adjusted P-Values/>

FDR-adjusted p-values are a common tool used in statistical analysis to control the false discovery rate. They are used to determine which hypotheses are statistically significant and which are not.
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When interpreting FDR-adjusted p-values, it is important to keep in mind that they are not the same as raw p-values. Raw p-values are unadjusted and do not take into account multiple comparisons. FDR-adjusted p-values, on the other hand, are adjusted for multiple comparisons and are more conservative.
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A common threshold for determining statistical significance is an FDR-adjusted p-value of 0.05. This means that the probability of a false positive is 5% or less. However, it is important to note that this threshold is not set in stone and can vary depending on the specific analysis and context.
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It is also important to keep in mind that FDR-adjusted p-values are not a definitive measure of statistical significance. They are simply a tool used to control the false discovery rate. It is still important to consider other factors, such as effect size and sample size, when interpreting statistical results.
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Overall, FDR-adjusted p-values are a useful tool in statistical analysis, but they should not be relied on exclusively. It is important to consider a variety of factors when interpreting statistical results and to use FDR-adjusted p-values in conjunction with other methods of analysis.

Software and Tools for FDR Adjustment/>

When it comes to FDR adjustment, there are various software and tools available that can help you calculate and adjust the p-values. Here are some of the most commonly used ones:
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R/>

R is a popular programming language for statistical computing and graphics. It has several packages that can be used to perform FDR adjustment, including p.adjust, qvalue, and FDRtool. These packages provide functions for different FDR adjustment methods such as the Benjamini-Hochberg procedure, the Benjamini-Yekutieli procedure, and the Storey-Tibshirani procedure.
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Python/>

Python is another programming language that is widely used in data science and statistical analysis. It has several libraries that can be used for FDR adjustment, including statsmodels, scipy, and Bioconductor. These libraries provide functions for different FDR adjustment methods such as the Benjamini-Hochberg procedure, the Benjamini-Yekutieli procedure, and the Storey-Tibshirani procedure.
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Excel/>

Excel is a spreadsheet program that is commonly used for data analysis and visualization. It also has built-in functions that can be used for FDR adjustment, such as the FDR.BH function. This function implements the Benjamini-Hochberg procedure for FDR adjustment.
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Other Tools/>

Apart from R, Python, and Excel, there are several other software and tools available that can be used for FDR adjustment. Some of these include SAS, MATLAB, and SPSS. These tools provide functions and procedures for different FDR adjustment methods.
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In conclusion, there are several software and tools available that can be used for FDR adjustment. The choice of tool depends on the user's familiarity with the tool, the data format, and the specific FDR adjustment method required.

Best Practices in Reporting FDR-Adjusted P-Values/>

When reporting FDR-adjusted p-values in research papers or scientific publications, it is essential to follow certain best practices to ensure clarity and accuracy. Here are some tips for reporting FDR-adjusted p-values:
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1. Clearly Define the Statistical Test/>

Before reporting FDR-adjusted p-values, it is essential to define the statistical test used to calculate them. This includes specifying the null hypothesis, the alternative hypothesis, and the significance level. Providing this information helps readers understand the context of the FDR-adjusted p-values.
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2. Report Both the Raw P-Values and the FDR-Adjusted P-Values/>

When reporting FDR-adjusted p-values, it is important to report both the raw p-values and the FDR-adjusted p-values. This allows readers to understand the significance level of each test and the degree of correction applied to account for multiple comparisons.
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3. Use Clear Terminology/>

Using clear terminology is crucial when reporting FDR-adjusted p-values. It is important to distinguish between raw p-values and FDR-adjusted p-values and to avoid using terms like "significant" or "non-significant" without specifying the level of significance. Using precise language helps readers understand the results and avoids misinterpretation.
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4. Provide Context and Interpretation/>

When reporting FDR-adjusted p-values, it is essential to provide context and interpretation. This includes discussing the biological or clinical relevance of the results and how they relate to previous studies. Providing this information helps readers understand the implications of the findings and their significance in the broader context of the field.
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In summary, reporting FDR-adjusted p-values requires clear and precise language, providing context and interpretation, and following best practices for statistical reporting. By following these guidelines, researchers can ensure that their results are accurately represented and easily understood by their audience.

Frequently Asked Questions/>

What steps are involved in performing FDR correction using the Benjamini-Hochberg method?/>

Performing FDR correction using the Benjamini-Hochberg method involves sorting the p-values in ascending order, assigning a rank or position to each p-value based on its position in the sorted list, calculating the adjusted p-value for each p-value using the formula, and then comparing the adjusted p-values against a predetermined threshold to determine statistical significance. (source)
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How can one apply the Benjamini-Hochberg correction in Excel?/>

One can apply the Benjamini-Hochberg correction in Excel by using the FALSE DISCOVERY RATE function, which computes the FDR-adjusted p-value for a given p-value range. The function requires the input range of p-values and a significance level as inputs. (source)
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What is the process for calculating FDR-adjusted p-values in R?/>

The process for calculating FDR-adjusted p-values in R involves using the p.adjust() function, which takes the input vector of p-values and the desired method of adjustment as inputs. The function returns a vector of FDR-adjusted p-values. (source)
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How do you determine an appropriate FDR threshold for significance?/>

Determining an appropriate FDR threshold for significance involves selecting a desired level of control over the rate of false positives, which is typically set at 0.05 or 0.10. The threshold can be adjusted based on the specific context of the analysis and the desired balance between sensitivity and specificity. (source)
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What are the implications of using a 0.05 p-value in the context of FDR?/>

Using a 0.05 p-value in the context of FDR implies that there is a 5% chance of falsely rejecting a true null hypothesis. However, this threshold is not sufficient for controlling the rate of false positives in the context of multiple hypothesis testing, and FDR correction should be used instead. (source)
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Can you explain the concept of False Discovery Rate in the context of multiple hypothesis testing?/>

False Discovery Rate (FDR) is a statistical concept that refers to the proportion of significant results that are false positives in the context of multiple hypothesis testing. FDR correction is a method of adjusting p-values to control the rate of false positives, which is particularly important in large-scale genomic studies and other contexts with a high number of comparisons. (source)

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