The Spooky Case of the Disappearing Crap Science Article

Just a few hours ago, I drafted a post about a crap science study in the Daily Telegraph called "Stress of modern life cuts attention spans to five minutes".

The pressures of modern life are affecting our ability to focus on the task in hand, with work stress cited as the major distraction, it said.
Declining attention spans are causing household accidents such as pans being left to boil over on the hob, baths allowed to overflow, and freezer doors left open, the survey suggests.
A quarter of people polled said they regularly forget the names of close friends or relatives, and seven per cent even admitted to momentarily forgetting their own birthdays.
The study by Lloyds TSB insurance showed that the average attention span had fallen to just 5 minutes, down from 12 minutes 10 years ago.
But the over-50s are able to concentrate for longer periods than young people, suggesting that busy lifestyles and intrusive modern technology rather than old age are to blame for our mental decline.
"More than ever, research is highlighting a trend in reduced attention and concentration spans, and as our experiment suggests, the younger generation appear to be the worst afflicted," said sociologist David Moxon, who led the survey of 1,000 people.

Almost identical stories appeared in the Daily Mail (no surprise) and, for some reason, an awful lot of Indian news sites. So I hacked out a few curmudgeonly lines - but before I posted them, the story had vanished! (Update: It's back! See end of post). Spooky. But first, the curmudgeonry:

• Crap science story in "crap" shocker
  

The term "attention span" is meaningless - attention to what? Are we so stressed out that after five minutes down the pub, we tend to forget our pints and wander home in a daze? You could talk about attention span for a particular activity, so long as you defined your criteria for losing attention - for example, you could measure the average time a student sits in a lecture before he starts doodling on his notes. Then if you wanted you could find out if stress affects that time. I wouldn't recommend it, because it would be very boring, but it would be a scientific study.

This news, however is not based on a study of this kind. It's based on a survey of 1,000 people i.e. they asked people how long their attention span was and whether they felt they were prone to accidents. No doubt the questions were chosen in such a way that they got the answers they wanted. Who are "they"? - Lloyds TSB insurance, or rather, their PR department, who decided that they would pay Mr David Moxon MSc. to get them the results they wanted. He obliged, because that's what he does. Then the PR people wrote up Moxon's "results" as a press release and sent it out to all the newspapers, where stressed-out, over-worked journalists (there's a grain of truth to every story!) leapt at the chance to fill some precious column inches with no thinking required. Lloyds get their name in the newspapers, their PR company gets cash, and Moxon gets cash and his name in the papers so he gets more clients in the future. Sorted!

How do I know this? Well, mainly because I've read Ben Goldacre's Bad Science and Nick Davie's Flat Earth News, two excellent books which explain in great detail how modern journalism works and how this kind of PR junk routinely ends up on the pages of your newspapers in the guise of science or "surveys". However, even if I hadn't, I could have worked it out by just consulting Google regarding Mr Moxon. Here is his website. Here's what Moxon says about his services:

David can provide a wide range of traditional behavioural research methods on a diverse range of social, psychological and health topics. David works in partnership with clients delivering precisely the brief they require whilst maintaining academic integrity.

The more commonly provided services include:

• The development and compilation of questionnaire or survey questions

• Statistical analysis of data (including SPSS® if required)

• The development of personality typologies

• The production of media friendly tests and quizzes (always with scoring systems)

• The production of primary research reports identifying ‘top line findings’ as well as providing detailed results and conclusions.

In other words, he gets the results you want. And he urges potential customers to

Contact the consultancy which gives you fast, highly-creative and psychologically-endorsed stories that grab the headlines.

• The Disappearance

The mystery is that the story, so carefully crafted by the PR department, has gone. Both the Telegraph and the Mail have pulled it, although it was there last time I checked, a couple of hours ago. Googling the story confirms that it used to be there, but now it's gone. Variants are still available elsewhere, sadly.

So, what happened? Did both the Mail and the Telegraph suddenly experience an severe attack of journalistic integrity and decide that this story was so bad, they weren't even going to host it on their websites? It seems doubtful, especially in the case of the Mail, but it's possible.

I prefer a different explanation: my intention to rubbish the story travelled forwards in time, and caused the story to be taken down, even though I hadn't posted about it yet. Lynn McTaggart has proven that this can happen, you know.

Update 27th November 13:30: And it's back! The story has reappeared on the Telegraph website. The Lay Scientist tells me that the story was originally put up too prematurely and then pulled because it was embargoed until today. I don't quite see why it matters when a non-story like this is published - it could just as well have been 10 years ago - but there you go. And in a ridiculous coda to this sorry tale, the Telegraph have today run a second crap science article centered around the concept of "5 minutes" - according to the makers of cold and flu remedy Lemsip, 52% of women feel sorry for their boyfriends when they're ill for just five minutes or less. Presumably because this is their attention span. How I wish I were making this up.

The Spooky Case of the Disappearing Crap Science Article

Just a few hours ago, I drafted a post about a crap science study in the Daily Telegraph called "Stress of modern life cuts attention spans to five minutes".

The pressures of modern life are affecting our ability to focus on the task in hand, with work stress cited as the major distraction, it said.
Declining attention spans are causing household accidents such as pans being left to boil over on the hob, baths allowed to overflow, and freezer doors left open, the survey suggests.
A quarter of people polled said they regularly forget the names of close friends or relatives, and seven per cent even admitted to momentarily forgetting their own birthdays.
The study by Lloyds TSB insurance showed that the average attention span had fallen to just 5 minutes, down from 12 minutes 10 years ago.
But the over-50s are able to concentrate for longer periods than young people, suggesting that busy lifestyles and intrusive modern technology rather than old age are to blame for our mental decline.
"More than ever, research is highlighting a trend in reduced attention and concentration spans, and as our experiment suggests, the younger generation appear to be the worst afflicted," said sociologist David Moxon, who led the survey of 1,000 people.

Almost identical stories appeared in the Daily Mail (no surprise) and, for some reason, an awful lot of Indian news sites. So I hacked out a few curmudgeonly lines - but before I posted them, the story had vanished! (Update: It's back! See end of post). Spooky. But first, the curmudgeonry:

• Crap science story in "crap" shocker
  

The term "attention span" is meaningless - attention to what? Are we so stressed out that after five minutes down the pub, we tend to forget our pints and wander home in a daze? You could talk about attention span for a particular activity, so long as you defined your criteria for losing attention - for example, you could measure the average time a student sits in a lecture before he starts doodling on his notes. Then if you wanted you could find out if stress affects that time. I wouldn't recommend it, because it would be very boring, but it would be a scientific study.

This news, however is not based on a study of this kind. It's based on a survey of 1,000 people i.e. they asked people how long their attention span was and whether they felt they were prone to accidents. No doubt the questions were chosen in such a way that they got the answers they wanted. Who are "they"? - Lloyds TSB insurance, or rather, their PR department, who decided that they would pay Mr David Moxon MSc. to get them the results they wanted. He obliged, because that's what he does. Then the PR people wrote up Moxon's "results" as a press release and sent it out to all the newspapers, where stressed-out, over-worked journalists (there's a grain of truth to every story!) leapt at the chance to fill some precious column inches with no thinking required. Lloyds get their name in the newspapers, their PR company gets cash, and Moxon gets cash and his name in the papers so he gets more clients in the future. Sorted!

How do I know this? Well, mainly because I've read Ben Goldacre's Bad Science and Nick Davie's Flat Earth News, two excellent books which explain in great detail how modern journalism works and how this kind of PR junk routinely ends up on the pages of your newspapers in the guise of science or "surveys". However, even if I hadn't, I could have worked it out by just consulting Google regarding Mr Moxon. Here is his website. Here's what Moxon says about his services:

David can provide a wide range of traditional behavioural research methods on a diverse range of social, psychological and health topics. David works in partnership with clients delivering precisely the brief they require whilst maintaining academic integrity.

The more commonly provided services include:

• The development and compilation of questionnaire or survey questions

• Statistical analysis of data (including SPSS® if required)

• The development of personality typologies

• The production of media friendly tests and quizzes (always with scoring systems)

• The production of primary research reports identifying ‘top line findings’ as well as providing detailed results and conclusions.

In other words, he gets the results you want. And he urges potential customers to

Contact the consultancy which gives you fast, highly-creative and psychologically-endorsed stories that grab the headlines.

• The Disappearance

The mystery is that the story, so carefully crafted by the PR department, has gone. Both the Telegraph and the Mail have pulled it, although it was there last time I checked, a couple of hours ago. Googling the story confirms that it used to be there, but now it's gone. Variants are still available elsewhere, sadly.

So, what happened? Did both the Mail and the Telegraph suddenly experience an severe attack of journalistic integrity and decide that this story was so bad, they weren't even going to host it on their websites? It seems doubtful, especially in the case of the Mail, but it's possible.

I prefer a different explanation: my intention to rubbish the story travelled forwards in time, and caused the story to be taken down, even though I hadn't posted about it yet. Lynn McTaggart has proven that this can happen, you know.

Update 27th November 13:30: And it's back! The story has reappeared on the Telegraph website. The Lay Scientist tells me that the story was originally put up too prematurely and then pulled because it was embargoed until today. I don't quite see why it matters when a non-story like this is published - it could just as well have been 10 years ago - but there you go. And in a ridiculous coda to this sorry tale, the Telegraph have today run a second crap science article centered around the concept of "5 minutes" - according to the makers of cold and flu remedy Lemsip, 52% of women feel sorry for their boyfriends when they're ill for just five minutes or less. Presumably because this is their attention span. How I wish I were making this up.

Aww, monkeys!

From the hilarious and always informative climate-change-based cartoon series, Throbgoblins, comes this little reminder that there's more to life than psychology...

See also this strip which was, they tell me, inspired by something I said regarding Galileo. Thus bringing the count of awesome things that I've inspired to one.

Aww, monkeys!

From the hilarious and always informative climate-change-based cartoon series, Throbgoblins, comes this little reminder that there's more to life than psychology...

See also this strip which was, they tell me, inspired by something I said regarding Galileo. Thus bringing the count of awesome things that I've inspired to one.

Totally Addicted to Genes

Why do some people get addicted to things? As with most things in life, there are lots of causes, most of which have little, if anything, to do with genes or the brain. Getting high or drunk all day may be an appealing and even reasonable life choice if you're poor, bored and unemployed. It's less so if you've got a steady job, a mortgage and a family to look after.

On the other hand, substance addiction is a biological process, and it would be surprising if genetics did not play a part. There could be many routes from DNA to dependence. Last year a study reported that two genes, TAS2R38 and TAS2R16, were associated with problem drinking. These genes code for some of the tongue's bitterness taste receptor proteins - presumably, carriers of some variants of these genes find alcoholic drinks less bitter, more drinkable and more appealing. Yet most people are more excited by the idea of genes which somehow "directly" affect the brain and predispose to addiction. Are there any? The answer is yes, probably, but they do lots of other things beside cause addiction.

A report just published in the American Journal of Medical Genetics by Argawal et. al. (2008), found an association between a certain variant in the CNR1 gene, rs806380, and the risk of cannabis dependence. They looked at a sample of 1923 white European American adults from six cities across the U.S, and found that the rs806380 "A" allele (variant) was more common in people with self-reported cannabis dependence than in those who denied having such a problem. A couple of other variants in the same gene were also associated, but less strongly.

As with all behavioural genetics, there are caveats. (I've warned about this before.) The people in this study were originally recruited as part of an alcoholism project,COGA. In fact, all of the participants were either alcohol dependent or had relatives who were. Most of the cannabis-dependent people were also dependent on alcohol. However, this is true of the real world as well, where dependence on more than one substance is common.

The sample size of nearly 2000 people is pretty good, but the authors investigated a total of eleven different variants of the CNR1 gene. This raises the problem of multiple comparisons, and they don't mention how they corrected for this, so we have to assume that they didn't. The main finding does corroborate earlier studies, however. So, assuming that this result is robust, and it's at least as robust as most work in this field, does this mean that a true "addiction gene" has been discovered?

Well, the gene CNR1 codes for the cannabinoid type 1 (CB1) receptor protein, the most common cannabinoid receptor in the brain. Endocannabinoids, and the chemicals in smoked cannabis, activate it. Your brain is full of endocannabinoids, molecules similiar to the active compounds found in cannabis. Although they were discovered just 20 short years ago, they've already been found to be involved in just about everything that goes on in the brain, acting as a feedback system which keeps other neurotransmitters under control.

So, what Argawal et. al. found is that the cannabinoid receptor gene is associated with cannabis dependence. Is this a common-sense result - doesn't it just mean that people whose receptors are less affected by cannabis are less likely to want to use it? Probably not, because what's interesting is that the same variant in the CNR1 gene, rs806380, has been found to be associated with obesity and dependence on cocaine and opioids. Other variants in the same gene have shown similar associations, although there have been several studies finding no effect, as always.

What makes me believe that CNR1 probably is associated with addiction is that a drug which blocks the CB1 receptor, rimonabant, causes people to lose weight, and is also probably effective in helping people stop smoking and quit drinking (weaker evidence). Give it to mice and they become little rodent Puritans - they lose interest in sweet foods, and recreational drugs including alcohol, nicotine, cocaine and heroin. Only the simple things in life for mice on rimonabant. (No-one's yet checked whether rimonabant makes mice lose interest in sex, but I'd bet money that it does.)

So it looks as though the CB1 receptor is necessary for pleasurable or motivational responses to a whole range of things - maybe everything. If so, it's not surprising that variants in the gene coding for CB1 are associated with substance dependence, and with body weight - maybe these variants determine how susceptible people are to the lures of life's pleasures, whether it be a chocolate muffin or a straight vodka. (This is speculation, although it's informed speculation, and I know that many experts are thinking along these lines.)

What if we all took rimonabant to make us less prone to such vices? Wouldn't that be a good thing? It depends on whether you think people enjoying themselves is evidence of a public health problem, but it's worth noting that rimonabant was recently taken of the European market, despite being really pretty good at causing weight loss, because it causes depression in a significant minority of users. Does rimonabant just rob the world of joy, making everything else less fun? That would make anyone miserable. Except for neuroscientists, who would look forward to being able to learn more about the biology of mood and motivation by studying such side effects.

Arpana Agrawal, Leah Wetherill, Danielle M. Dick, Xiaoling Xuei, Anthony Hinrichs, Victor Hesselbrock, John Kramer, John I. Nurnberger, Marc Schuckit, Laura J. Bierut, Howard J. Edenberg, Tatiana Foroud (2008). Evidence for association between polymorphisms in the cannabinoid receptor 1 (CNR1) gene and cannabis dependence American Journal of Medical Genetics Part B: Neuropsychiatric Genetics, 9999B DOI: 10.1002/ajmg.b.30881

Totally Addicted to Genes

Why do some people get addicted to things? As with most things in life, there are lots of causes, most of which have little, if anything, to do with genes or the brain. Getting high or drunk all day may be an appealing and even reasonable life choice if you're poor, bored and unemployed. It's less so if you've got a steady job, a mortgage and a family to look after.

On the other hand, substance addiction is a biological process, and it would be surprising if genetics did not play a part. There could be many routes from DNA to dependence. Last year a study reported that two genes, TAS2R38 and TAS2R16, were associated with problem drinking. These genes code for some of the tongue's bitterness taste receptor proteins - presumably, carriers of some variants of these genes find alcoholic drinks less bitter, more drinkable and more appealing. Yet most people are more excited by the idea of genes which somehow "directly" affect the brain and predispose to addiction. Are there any? The answer is yes, probably, but they do lots of other things beside cause addiction.

A report just published in the American Journal of Medical Genetics by Argawal et. al. (2008), found an association between a certain variant in the CNR1 gene, rs806380, and the risk of cannabis dependence. They looked at a sample of 1923 white European American adults from six cities across the U.S, and found that the rs806380 "A" allele (variant) was more common in people with self-reported cannabis dependence than in those who denied having such a problem. A couple of other variants in the same gene were also associated, but less strongly.

As with all behavioural genetics, there are caveats. (I've warned about this before.) The people in this study were originally recruited as part of an alcoholism project,COGA. In fact, all of the participants were either alcohol dependent or had relatives who were. Most of the cannabis-dependent people were also dependent on alcohol. However, this is true of the real world as well, where dependence on more than one substance is common.

The sample size of nearly 2000 people is pretty good, but the authors investigated a total of eleven different variants of the CNR1 gene. This raises the problem of multiple comparisons, and they don't mention how they corrected for this, so we have to assume that they didn't. The main finding does corroborate earlier studies, however. So, assuming that this result is robust, and it's at least as robust as most work in this field, does this mean that a true "addiction gene" has been discovered?

Well, the gene CNR1 codes for the cannabinoid type 1 (CB1) receptor protein, the most common cannabinoid receptor in the brain. Endocannabinoids, and the chemicals in smoked cannabis, activate it. Your brain is full of endocannabinoids, molecules similiar to the active compounds found in cannabis. Although they were discovered just 20 short years ago, they've already been found to be involved in just about everything that goes on in the brain, acting as a feedback system which keeps other neurotransmitters under control.

So, what Argawal et. al. found is that the cannabinoid receptor gene is associated with cannabis dependence. Is this a common-sense result - doesn't it just mean that people whose receptors are less affected by cannabis are less likely to want to use it? Probably not, because what's interesting is that the same variant in the CNR1 gene, rs806380, has been found to be associated with obesity and dependence on cocaine and opioids. Other variants in the same gene have shown similar associations, although there have been several studies finding no effect, as always.

What makes me believe that CNR1 probably is associated with addiction is that a drug which blocks the CB1 receptor, rimonabant, causes people to lose weight, and is also probably effective in helping people stop smoking and quit drinking (weaker evidence). Give it to mice and they become little rodent Puritans - they lose interest in sweet foods, and recreational drugs including alcohol, nicotine, cocaine and heroin. Only the simple things in life for mice on rimonabant. (No-one's yet checked whether rimonabant makes mice lose interest in sex, but I'd bet money that it does.)

So it looks as though the CB1 receptor is necessary for pleasurable or motivational responses to a whole range of things - maybe everything. If so, it's not surprising that variants in the gene coding for CB1 are associated with substance dependence, and with body weight - maybe these variants determine how susceptible people are to the lures of life's pleasures, whether it be a chocolate muffin or a straight vodka. (This is speculation, although it's informed speculation, and I know that many experts are thinking along these lines.)

What if we all took rimonabant to make us less prone to such vices? Wouldn't that be a good thing? It depends on whether you think people enjoying themselves is evidence of a public health problem, but it's worth noting that rimonabant was recently taken of the European market, despite being really pretty good at causing weight loss, because it causes depression in a significant minority of users. Does rimonabant just rob the world of joy, making everything else less fun? That would make anyone miserable. Except for neuroscientists, who would look forward to being able to learn more about the biology of mood and motivation by studying such side effects.

Arpana Agrawal, Leah Wetherill, Danielle M. Dick, Xiaoling Xuei, Anthony Hinrichs, Victor Hesselbrock, John Kramer, John I. Nurnberger, Marc Schuckit, Laura J. Bierut, Howard J. Edenberg, Tatiana Foroud (2008). Evidence for association between polymorphisms in the cannabinoid receptor 1 (CNR1) gene and cannabis dependence American Journal of Medical Genetics Part B: Neuropsychiatric Genetics, 9999B DOI: 10.1002/ajmg.b.30881

Educational neuro-nonsense, or: The Return of the Crockus

Vicky Tuck, President of the British Girls' Schools Association, has some odd ideas about the brain.

Tuck has appeared on British radio and in print over the past few days arguing that there should be more single-sex schools (which are still quite common in Britain) because girls and boys learn in different ways and benefit from different teaching styles. Given her job, I suppose she ought to be doing that, and there are, I'm sure, some good arguments for single-sex schools.

So why has she resorted to talking nonsense about neuroscience? Listen if you will to an interview she gave on the BBC's morning Today Program (Her part runs from 51:50s to 55:10s). Or, here's a transcript of the neuroscience bit, with my emphasis:

Interviewer: Do we know that girls and boys brains are wired differently?
Tuck: We do, and I think we're learning more and more every day about the brain, and particularly in adolescents this wiring is very interesting, and it's quite clear that you need to teach girls and boys in a very different way for them to be successful.
Interviewer: Well give us some examples, how should the way in which you teach them differ?
Tuck: Well, take maths. If you look at the girls they sort of approach maths through the cerebral cortex, which means that to get them going you really need to sort of paint a picture, put it in context, relate it to the real world, while boys sort of approach maths through the hippocampus, therefore they're very happy and interested in the core properties of numbers and can sort of dive straight in. So if a girl's being taught in a male-focused way she will struggle, whereas in an all-girl's school their confidence in maths is very, very high.
Interviewer: So you have no doubt that all girls should be taught separately from boys?
Tuck: I think that ideally, girls fare better if they're in a single sex environment, and I think that boys also fare better in an all boy environment, I think for example in the study of literature, in English, again a different kind of approach is needed. Girls are very good at empathizing, attuning to things via the emotions, the cerebral cortex again, whereas the boys come at things... it's the amygdala is very strong in the boy, and he will you know find it hard to tune in in that way and needs a different approach.
Interviewer: And yet we've had this trend towards co-education and we've also had more boys schools opening their doors to girls... [etc.]

This is, to put it kindly, confused. Speaking as a neuroscientist, I know of no evidence that girls and boys approach maths or literature using different areas of the brain, I'm not sure what evidence you could look for which would suggest that, and I'm not even sure what that statement means.

Girls and boys all have brains, and they all have the same parts in roughly the same places. When they're reading about maths, or reading a novel, or indeed when they're doing anything, all of these areas are working together at once. The cerebral cortex, in particular, comprises most of the bulk of the brain, and almost literally does everything; it has dozens of sub-regions responsible for everything from seeing moving objects to feeling disgusted to moving your eyes. I don't know which area is responsible for the the boyish "core properties of numbers" but for what it's worth, the area most often linked to counting and calculation is the angular gyrus, part of... the supposedly girly cerebral cortex!

The gruff and manly hippocampus, on the other hand, is best known for its role in memory. Damage here leaves people unable to form new memories, although they can still remember things that happened before the injury. It's not known whether these people also have problems with number theory.

When it comes to literature, things get even worse. She says - "Girls are very good at empathizing, attuning to things via the emotions" - which I guess is a pop-psych version of psychologist Simon Baron-Cohen's famous theory of gender differences: that girls are, on average, better at girly social and emotional stuff while boys are better at systematic, logical stuff. This is, er, controversial, but it's a theory that has at least some merit to it.

However, given that the amygdala is generally seen as a fluffy "emotion area" while the cerebral cortex, or at least parts of it, are associated with more "cold" analytic cognition, "The amygdala is very strong in boys" suggests that they should be more emotionally empathic. If Tuck's going to deal in simplistic pop-neuroanatomy, she should at least get it the right way round.

The likely source of Tuck's confusion, given what's said here about Harvard research, is this study led by Dr. Jill Goldstein, who found differences in the size of brain areas between men and women. For example she found that men have, on average, larger amygdalas than women. Although they also have smaller hippocampi. Whatever, this study is fine science, although bear in mind that there could be a million reasons why men's and women's brains are different - it might have nothing to do with inborn differences. Stress, for example, makes your hippocampus shrink.

More importantly, there's no reason to think that "bigger is better", when it comes to parts of the brain. (I make no comment about other parts of the body.) That's phrenology, not science. Is a bigger mobile phone better than a smaller one? Bigger could be worse, if it means that the brain cells are less well organized. Likewise, if an area "lights up" more on an fMRI scan in boys than in girls, that sounds good, but in fact it might mean that the boys are having to think harder than the girls, because their brain is less efficient.

I'm a believer in the reality of biological sex differences myself - I just don't should try to find them with MRI scans. And Vicky Tuck seems like a clever person who's ended up talking nonsense unnecessarily. She could be making a good argument for single-sex schools based on some actual evidence about how kids learn and mature. Instead, she's shooting herself in the foot (or maybe in the brain's "foot center") with dodgy brain theories. Save yourself, Vicky - put the brain down and walk away.

Link Cognition and Culture who originally picked up on this.
Link The hilarious story of "The Crockus", a made-up brain area which has also been invoked to justify teaching girls and boys differently. It's weird how bad neuroscience repeats itself.

[BPSDB]