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Line 1: ~~{{Merge~~#REDIRECT ~~to\|~~[[Contrast (statistics)~~\|discuss=Talk:Contrast variable#Merge discussion \|date=July 2011}}~~ ]] In [[statistics]], a '''contrast variable''' is a [[linear combination]] of [[random variable]]s in which the sum of the coefficients is zero<ref name=ZhangPharmacogenomics2009>{{cite journal \|author=Zhang XHD ~~\|title= A method for effectively comparing gene effects in multiple conditions in RNAi and expression-profiling research~~ ~~\|journal=Pharmacogenomics \|volume=10 \|issue= \|pages=345–58~~ \|year=2009 \|month= \|pmid= \|doi=10.2217/14622416.10.3.345 \|url=}}</ref>. Each variable may represent random values in one of multiple groups involved in a comparison. Associated with a contrast variable are two terms: the standardized mean of contrast variable ([[SMCV]]) and [[c+-probability\|c<sup>+</sup>-probability]]. The SMCV is the ratio of [[mean]] to [[standard deviation]] of a contrast variable and the c<sup>+</sup>-probability is the probability that a contrast variable obtains a positive value. Traditional [[contrast (statistics)\|contrast]] is a statistical parameter defined only on the group [[mean]]s. A contrast variable allows us to consider not only group [[mean]]s but also group [[variance]]s in a comparison. In addition, the concept of contrast variable can help to derive the [[effect size]]s across any number of groups readily and smoothly.<ref name=ZhangJBiometBiostat2010>{{cite journal \|author=Zhang XHD ~~\|title= Contrast variable potentially providing a consistent interpretation to effect sizes~~ ~~\|journal=Journal of Biometrics & Biostatistics \|volume=1 \|issue= \|pages=108~~ ~~\|year=2010 \|month= \|pmid= \|doi= doi:10.4172/2155-6180.1000108~~ \|url= http://www.omicsonline.org/2155-6180/2155-6180-1-108.php}}</ref> The concepts of contrast variable, [[SMCV]] and [[c+-probability\|c<sup>+</sup>-probability]] were recently proposed for one-way [[ANOVA]] cases <ref name="ZhangPharmacogenomics2009"/> and were then extended to multi-factor [[ANOVA]] cases <ref name=ZhangPharmacogenomics2010>{{cite journal \|author=Zhang XHD ~~\|title= Assessing the size of gene or RNAi effects in multifactor high-throughput experiments~~ ~~\|journal=Pharmacogenomics \|volume=11 \|issue= \|pages=199–213~~ ~~\|year=2010 \|month= \|pmid= \|doi=10.2217/PGS.09.136 \|url=}}</ref>~~ ~~<ref name="ZhangJBiometBiostat2010"/>~~ . When there are only two groups involved in a comparison, SMCV becomes [[SSMD]]. The contrast variable, [[SMCV]] and [[c+-probability\|c<sup>+</sup>-probability]] are critical for deriving statistical methods for assessing the size of [[siRNA]] effects in genome-scale RNAi screens.<ref name=ZhangBook2011>{{cite book ~~\|author= Zhang XHD~~ ~~\|year=2011~~ ~~\|title= Optimal High-Throughput Screening: Practical Experimental Design and Data Analysis for Genome-scale RNAi Research~~ ~~\|publisher =Cambridge University Press~~ ~~\|url=~~ ~~\|isbn=978-0-521-73444-8}}</ref>~~ ~~==See also==~~ * [[Effect size]] * [[SSMD]] * [[SMCV]] * [[c+-probability\|c<sup>+</sup>-probability]] * [[Contrast (statistics)]] * [[Dual-flashlight plot]] ~~==References==~~ ~~{{reflist}}~~ ~~{{DEFAULTSORT:Contrast variable}}~~ ~~[[Category:Effect size]]~~ ~~[[Category:Analysis of variance]]~~