Thursday, February 24, 2011

Think before you speak--or not at all!

If one advised you to think before you speak, you might take that as sage advice to the quick-tongued. But it's more sobering than that. Despite lots of controversy, the idea that cell phone usage may not be brain-safe has arisen again in a story reported by the NY Times.

The study reported increased phone-side brain activity, raising questions about whether this can, over time, damage the brain.  Whether this holds up, or is in any way associated with the fear that phoning causes cancer, we can't say. Whether this study is scientifically sound as well as newsworthy is a similar question.

No matter what the answer turns out to be, if we ever do get an answer, it again exemplifies a major scientific question of our age, one which we've blogged about before (e.g., here) :  how to detect and understand very small risks. This issue is core, and it underlies much of the inconclusiveness of current epidemiological and genetic methods, observational studies and genomewide association studies (GWAS) alike. 

Our statistical methods rely on sample sizes large enough to detect effects that are 'unusual' enough to take a serious evidence for cause. That is, large effects.  But 'unusual' enough, otherwise known as 'statistically significant', is a totally subjective judgment.  Something can look unusual by chance, and something truly very unusual (a perfect bridge hand, or all cherries on a slot machine) can seem to be fore-ordained, if you cannot do enough tests to prove that it was just what is expected by chance.

More disturbing is that something that is very rare, but very real can go undetected by our inferential methods.  The cause may be so weak that no adequate sample could be collected for the outcome to be statistically significant by the usual kinds of 'unusual enough' criteria.  But if it happens to you, it can kill you, and that's real enough to take seriously!

Similarly, suppose some group--say, chatty teenagers who talk on their mobiles in class--has a 1% risk of some brain disease (on top of not belonging in the class in the first place).   Does that mean that each person has a mere 1% risk, small enough to ignore compared to the thrill of chatting up your favored co-ed?  Or does it mean that 1 person in 100 has a 100% risk, and the others, in fact, can talk all they want with complete impunity?

There is no obvious easy way to get out of this box, to know what is 'real', other than what we declare to be real after we've run our Statistica program and got a p-value out of a significance test.  That may be our currently preferred way, but it's a poor way to try to understand the real nature of Nature.

1 comment:

  1. Furthering your point on understanding what constitutes a real risk, NPR interviewed one of the article's authors who noted that the effect of the cell phone on glucose metabolism is substantially less than the increase in glucose metabolism when we open our eyes in the morning. But the researcher did not suggest that we stay asleep to avoid the risk of brain cancer.

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