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A weighted sample size for microarray datasets that considers the variability of variance and multiplicity

Paper ID Volume ID Publish Year Pages File Format Full-Text
21995 43247 2009 7 PDF Available
Title
A weighted sample size for microarray datasets that considers the variability of variance and multiplicity
Abstract

Microarray experiments are often performed to detect differently expressed genes among different clinical phenotypes. The method used to calculate the appropriate sample size for this purpose differs from the sample size calculation used for general clinical experiments, because microarrays include tens of thousands of genes. We proposed a sample size calculation method that considers variance among an entire gene set and used the Bonferroni correction to address the multiplicity problem. Specifically, by adjusting for the multiplicity problem, the existing equation for sample size calculation was modified based on the Bonferroni correction. By k-means cluster analysis, the variances across all genes can be divided into several groups with similar values, and the sample sizes for each group were subsequently calculated and weight-averaged. The results of this study show that the sample size was related to the number of genes on a chip. The weighted sample size, calculated by the proposed method, preserved the Type I error for selection of significant genes within a microarray data set.

Keywords
Microarray experiment; Weighted sample size; Variability of variance; Multiplicity problem; Bonferroni correction
First Page Preview
A weighted sample size for microarray datasets that considers the variability of variance and multiplicity
Publisher
Database: Elsevier - ScienceDirect
Journal: Journal of Bioscience and Bioengineering - Volume 108, Issue 3, September 2009, Pages 252–258
Authors
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Subjects
Physical Sciences and Engineering Chemical Engineering Bioengineering