How To Compare Two Experimental Observations With Different Conditions And Same Control?
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11.1 years ago
k.nirmalraman ★ 1.1k

Experiment 1: condition 1 vs Control Experiment 2: Condition 2 vs Control

We have the same measurement, however these experiments are performed by different user and on different cohort of animals. We would like to compare the effect of Condition 1 vs Condition 2.

However, I cannot directly compare all the four observations together because I believe there is the effect of experiment, batch, observer/handling bias. Given that we have controls groups of same kind, is there any way to compare(say.. normalize) this data... So I can compare both of these and a significance test on that comparison

Here below is the sample of this data?

   Cond1 Ctrl1 Cond2 Ctrl2
    89    63    181    225
    98    125    132    239
    100    103    140    224
     83    118    117    214
     89    112    144    206
     95    111    150    228
     74    73    162    208
     65    102    136    174
     66    88    148    207
     76    107    169    201
     79    102    108    203
     95    101    133    228

One of the ways that I thought about was to perform something like follows:

(X_cond1 - Mean of Ctrl1)/SD_ctrl1

and

(X_cond1 - Mean of Ctrl2)/SD_ctrl2

Any help/comments will be very much appreciated. Thanks in advance!

normalization comparison statistics • 5.8k views
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I'm reminded of chapter 9 in the limma user's guide, which addresses this sort of design in the context of microarrays (or RNAseq, by extension). Are these actually count-based values or was that just an example?

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Sorry, I did not mention it in the question. These are not RNA Seq counts... These are observations/measurements from a behavioral experiment

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OK, so I assume then that everything under Cond1 are measurements from different mice/rats/whatever on the same behaviour (as opposed to there being 12 different behavioural measurements and the counts representing sums within a cohort). Is this assumption correct?

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Just to preemptively reply in case the answer is "yes, that's correct," it sounds like a generalized linear model would work. You could melt() that table in your example and add a "condition" and "batch" value to the resulting data frame. Then glm.nb(values~condition+batch, ...). I happened to try that and the results look reasonable (it turns out to not be overdispersed and remember that the coefficients are actually log(coefficient)).

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Thank you very much.... And the assumption is correct.. But I fail to understand the explanation about linear model... Could you please elaborate a bit more if you don't mind... Thanks a lot in advance!

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You'll probably be better off just googling around for a tutorial on linear (and generalized linear) models, since those will be rather more eloquent that anything I would write here :) in short, though, the idea is to properly estimate dispersion in your system and use that in a model fit and test statistic.

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Great! Awesome idea!

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