Bad Science

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Authors: Ben Goldacre

Tags: #General, #Life Sciences, #Health & Fitness, #Errors, #Health Care Issues, #Essays, #Scientific, #Science

BOOK: Bad Science
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Praise for Bad Science
 

“Unmissable…In a froth of entirely justified indignation, Goldacre slams the mountebanks and bullshitters who misuse science.”

—Nigel Hawkes,
The Times
(London), Books of the Year

 

“Thousands of books are enjoyable; many are enlightening; only a very few will ever rate as necessary to social health. This is one of them.”

—Boyd Tonkin,
The Independent

 

“You’ll laugh your head off, then throw all those expensive health foods in the bin.”


The Observer
(London), Best Books of the Year

 

“A fine lesson in how to skewer the enemies of reason and the peddlers of cant and half-truths.”


The Economist

 
 

BEN GOLDACRE

BAD SCIENCE

 

 

Ben Goldacre is a doctor and science writer who has written the “Bad Science” column in
The Guardian
since 2003. He is thirty-six and lives in London.

To whom it may concern

 
Preface
 

It’s easy to laugh at quacks—but this book is not about easy targets or individuals. It follows a natural crescendo, from the foolishness of quacks, via the credence they are given in the mainstream media, through the tricks of the fifty-five-billion-dollar food supplements industry, the evils of the six-hundred-billion-dollar pharmaceuticals industry, the tragedy of science reporting, and on to cases where people have wound up in prison, derided, or dead, simply through the poor understanding of statistics and evidence that pervades our society.

At the time of C. P. Snow’s famous lecture on the two cultures of science and the humanities half a century ago, arts graduates simply ignored us. Today, scientists and doctors find themselves outnumbered and outgunned by vast armies of individuals who feel entitled to pass judgment on matters of evidence—an admirable aspiration—without troubling themselves to obtain a basic understanding of the issues.

At school you were taught about chemicals in test tubes, equations to describe motion, and maybe something on photosynthesis—about which more later—but in all likelihood you were taught nothing about death, risk, statistics, and the science of what will kill or cure you. The hole in our culture is gaping: evidence-based medicine, the ultimate applied science, contains some of the cleverest ideas from the past two centuries; it has saved millions of lives, but there has never once been a single exhibit on the subject in London’s Science Museum.

This is not for a lack of interest. We are obsessed with health—half of all science stories in the media are medical—and are repeatedly bombarded with sciencey-sounding claims and stories. But as you will see, we get our information from the very people who have repeatedly demonstrated themselves to be incapable of reading, interpreting, and bearing reliable witness to the scientific evidence.

Before we get started, let me map out the territory.

First, we will look at what it means to do an experiment, to see the results with your own eyes, and judge whether they fit with a given theory, or whether an alternative is more compelling. You may find these early steps childish and patronizing—the examples are certainly refreshingly absurd—but they all have been promoted credulously and with great authority in the mainstream media. We will look at the attraction of sciencey-sounding stories about our bodies and the confusion they can cause.

Then we will move on to homeopathy, not because it’s important or dangerous—it’s not—but because it is the perfect model for teaching evidence-based medicine. Homeopathy pills are, after all, empty little sugar pills that seem to work, and so they embody everything you need to know about “fair tests” of a treatment and how we can be misled into thinking that any intervention is more effective than it really is. You will learn all there is to know about how to do a trial properly and how to spot a bad one. Hiding in the background is the placebo effect, probably the most fascinating and misunderstood aspect of human healing, which goes far beyond a mere sugar pill: it is counterintuitive, it is strange, it is the true story of mind-body healing, and it is far more interesting than any made-up nonsense about therapeutic quantum energy patterns. We will review the evidence on its power, and you will draw your own conclusions.

Then we move on to the bigger fish. Nutritionists are alternative therapists but have somehow managed to brand themselves as men and women of science. Their errors are much more interesting than those of the homeopaths, because they have a grain of real science to them, and that makes them not only more interesting but also more dangerous, because the real threat from cranks is not that their customers might die—there is the odd case, although it seems crass to harp on about them—but that they systematically undermine the public’s understanding of the very nature of evidence.

We will see the rhetorical sleights of hand and amateurish errors that have led to your being repeatedly misled about food and nutrition, and how this new industry acts as a distraction from the genuine lifestyle risk factors for ill health, as well as its more subtle but equally alarming impact on the way we see ourselves and our bodies, specifically in the widespread move to medicalize social and political problems, to conceive of them in a reductionist, biomedical framework, and peddle commodifiable solutions, particularly in the form of pills and faddish diets. I will show you evidence that a vanguard of startling wrongness is entering British universities, alongside genuine academic research into nutrition. Then we apply these same tools to proper medicine and see the tricks used by the pharmaceutical industry to pull the wool over the eyes of doctors and patients.

Next we will examine how the media promote the public misunderstanding of science, their single-minded passion for pointless nonstories, and their basic misunderstandings of statistics and evidence, which illustrate the very core of why we do science: to prevent ourselves from being misled by our own atomized experiences and prejudices. Finally, in the part of the book I find most worrying, we will see how people in positions of great power, who should know better, still commit basic errors, with grave consequences, and we will see how the media’s cynical distortion of evidence in two specific health scares reached dangerous and frankly grotesque extremes. It’s your job to notice, as we go, how incredibly prevalent this stuff is, but also to think what you might do about it.

You cannot reason people out of positions they didn’t reason themselves into. But by the end of this book you’ll have the tools to win—or at least understand—any argument you choose to initiate, whether it’s on miracle cures, MMR, the evils of big pharma, the likelihood of a given vegetable preventing cancer, the dumbing down of science reporting, dubious health scares, the merits of anecdotal evidence, the relationship between body and mind, the science of irrationality, the lexicalization of everyday life, and more. You’ll have seen the evidence behind some very popular deceptions, but along the way you’ll also have picked up everything useful there is to know about research, levels of evidence, bias, statistics (relax), the history of science, antiscience movements and quackery, and fallen over just some of the amazing stories that the natural sciences can tell us about the world along the way.

It won’t be even slightly difficult, because this is the only science lesson where I can guarantee that the people making the stupid mistakes won’t be you. And if, by the end, you reckon you might still disagree with me, then I offer you this: you’ll still be wrong, but you’ll be wrong with a lot more panache and flair than you could possibly manage right now.

Matter
 

I spend a lot of time talking to people who disagree with me—I would go so far as to say that it’s my favorite leisure activity—and repeatedly I meet individuals who are eager to share their views on science despite the fact that they have
never done an experiment
. They have never tested an idea for themselves, using their own hands, or seen the results of that test, using their own eyes, and they have never thought carefully about what those results mean for the idea they are testing, using their own brain. To these people “science” is a monolith, a mystery, and an authority, rather than a method.

Dismantling our early, more outrageous pseudoscientific claims is an excellent way to learn the basics of science, partly because science is largely about disproving theories, but also because the lack of scientific knowledge among miracle cure artistes, marketers, and journalists gives us some very simple ideas to test. Their knowledge of science is rudimentary, so as well as making basic errors of reasoning, they rely on notions like magnetism, oxygen, water, “energy,” and toxins—ideas from high school-level science and all very much within the realm of kitchen chemistry.

Detox and the Theater of Goo

 

Since you’ll want your first experiment to be authentically messy, we’ll start with detox. Detox footbaths have been promoted un-critically in some very embarrassing articles in the New York
Daily News
, the
Telegraph
, the
Mirror
,
The Sunday Times
(London),
GQ
magazine, and various TV shows. Here is a taster from the New York
Daily News
: it’s a story about Ally Shapiro, a fourteen-year-old who went to a “detox” center run by Roni DeLuz, author of
21 Pounds in 21 Days: The Martha’s Vineyard Diet
.

“The first day I did it,” says Shapiro, “the water was completely black by the end.” By day three, twenty minutes in the footbath generated a copper-colored sludge—the color of the flushed buildup from her joints related to arthritis, DeLuz explained. The hypothesis from these companies is very clear: your body is full of “toxins,” whatever those may be; your feet are filled with special “pores” (discovered by ancient Chinese scientists, no less); you put your feet in the bath, the toxins are extracted, and the water goes brown. Is the brown in the water because of the toxins? Or is that merely theater?

One way to test this is to go along and have an Aqua Detox treatment yourself at a health spa, beauty salon, or any of the thousands of places they are available online, and take your feet out of the bath when the therapist leaves the room. If the water goes brown without your feet in it, then it wasn’t your feet or your toxins that did it. That is a controlled experiment; everything is the same in both conditions, except for the presence or absence of your feet.

There are disadvantages with this experimental method (and there is an important lesson here—that we must often weigh up the benefits and practicalities of different forms of research, which will become important in later chapters). From a practical perspective, the “feet out” experiment involves subterfuge, which may make you uncomfortable. But it is also expensive: one session of Aqua Detox will cost more than the components to build your own detox device, a perfect model of the real one.

You will need:

 
  • • One car battery charger
  • • Two large nails
  • • Kitchen salt
  • • Warm water
  • • One Barbie doll
  • • A full analytic laboratory (optional)
 

 

This experiment involves electricity and water. In a world of hurricane hunters and volcanologists, we must accept that everyone sets their own level of risk tolerance. You might well give yourself a nasty electric shock if you perform this experiment at home, and it could easily blow the wiring in your house. It is not safe, but it is in some sense relevant to your understanding of MMR, homeopathy, postmodernist critiques of science, and the evils of big pharma. DO NOT BUILD IT.

When you switch your Barbie Detox machine on, you will see that the water goes brown, due to a very simple process called electrolysis; the iron electrodes rust, essentially, and the brown rust goes into the water. But there is something more happening in there, something you might half remember from chemistry at school. There is salt in the water. The proper scientific term for household salt is “sodium chloride” in solution, this means that there are chloride ions floating around, which have a negative charge (and sodium ions, which have a positive charge). The red connector on your car battery charger is a “positive electrode,” and here negatively charged electrons are stolen away from the negatively charged chloride ions, resulting in the production of free chlorine gas.

So chlorine gas is given off by the Barbie Detox bath, and indeed by the Aqua Detox footbath, and the people who use this product have elegantly woven that distinctive chlorine aroma into their story: it’s the chemicals, they explain; it’s the chlorine coming out of your body, from all the plastic packaging on your food and all those years bathing in chemical swimming pools. “It has been interesting to see the color of the water change and smell the chlorine leaving my body,” says one testimonial for the similar product Emerald Detox. At another sales site: “The first time she tried the Q2 [Energy Spa], her business partner said his eyes were burning from all the chlorine that was coming out of her, leftover [
sic
] from her childhood and early adulthood.” All that chemically chlorine gas that has accumulated in your body over the years. It’s a frightening thought.

But there is something else we need to check. Are there toxins in the water? Here we encounter a new problem: What do they mean by toxins? I’ve asked the manufacturers of many detox products this question time and again, but they demur. They wave their hands, they talk about stressful modern lifestyles, they talk about pollution, they talk about junk food, but they will not tell me the name of a single chemical that I can measure. “What toxins are being extracted from the body with your treatment?” I ask. “Tell me what is in the water, and I will look for it in a laboratory.” I have never been given an answer.

After much of their hedging and fudging, I chose two chemicals pretty much at random: creatinine and urea. These are common breakdown products from your body’s metabolism, and your kidneys get rid of them in urine. Through a friend, I went for a genuine Aqua Detox treatment, took a sample of brown water, and used the disproportionately state-of-the-art analytic facilities of St. Mary’s Hospital in London to hunt for these two chemical “toxins.” There were no toxins in the water. Just lots of brown, rusty iron.

Now, with findings like these, scientists might take a step back and revise their ideas about what is going on with the footbaths. We don’t really expect the manufacturers to do that, but what they say in response to these findings is very interesting, at least to me, because it sets up a pattern that we will see repeated throughout the world of pseudoscience: instead of addressing the criticisms, or embracing the new findings in a new model, they seem to shift the goalposts and retreat, crucially, into
untestable positions
.

Some of them now deny that toxins come out in the footbath (which would stop me measuring them); your body is somehow informed that it is time to release toxins in the normal way—whatever that is, and whatever the toxins are—only more so. Some of them now admit that the water goes a bit brown without your feet in it, but “not as much.” Many of them tell lengthy stories about the “bioenergetic field,” which they say cannot be measured except by how well you are feeling. All of them talk about how stressful modern life is.

That may well be true. But it has nothing to do with their footbath, which is all about theater, and theater is the common theme for all detox products, as we shall see. On with the brown goo.

Ear Candles

 

You might think that Hopi ear candles are easy targets. But their efficacy has still been cheerfully promoted by
The Independent, The Observer
, and the BBC, to name just a few respected British news outlets. They pop up endlessly in American local papers desperate to fill space, from the
Alameda Times-Star
to the
Syracuse Post-Standard
. Since journalists like to present themselves as authoritative purveyors of scientific information, I’ll let the internationally respected BBC explain how these hollow wax tubes, Hopi ear candles, will detox your body: “The candles work by vaporizing their ingredients once lit, causing convectional air flow towards the first chamber of the ear. The candle creates a mild suction which lets the vapors gently massage the eardrum and auditory canal. Once the candle is placed in the ear it forms a seal which enables wax and other impurities to be drawn out of the ear.” The proof comes when you open a candle up and discover that it is filled with a familiar waxy orange substance, which must surely be earwax. If you’d like to test this yourself, you will need: an ear, a clothespin, some poster putty, a dusty floor, some scissors, and two ear candles.

If you light one ear candle, and hold it over some dust, you will find little evidence of any suction. Before you rush to publish your finding in a peer-reviewed academic journal, someone has beaten you to it: a paper published in the medical journal
Laryngoscope
used expensive tympanometry equipment and found—as you have—that ear candles exert no suction. There is no truth to the claim that doctors dismiss alternative therapies out of hand.

But what if the wax and toxins are being drawn into the candle by some other, more esoteric route, as is often claimed?

For this you will need to do something called a controlled experiment, comparing the results of two different situations, where one is the experimental condition, the other is the control condition, and the only difference is the thing you’re interested in testing. This is why you have two candles.

Put one ear candle in someone’s ear, as per the manufacturer’s instructions, and leave it there until it burns down.
1
Put the other candle in the clothespin, and stand it upright using the Blu-Tack; this is the “control arm” in your experiment. The point of a control is simple: we need to minimize the differences between the two setups, so that the only real difference between them is the single factor you’re studying, which in this case must be: “Is it my ear that produces the orange goo?”

Take your two candles back inside and cut them open. In the “ear” candle, you will find a waxy orange substance. In the “picnic table control,” you will find a waxy orange substance. There is only one internationally recognized method for identifying something as earwax: pick some up on the end of your finger, and touch it with your tongue. If your experiment had the same results as mine, both of them taste a lot like candle wax.

Does the ear candle remove earwax from your ears? You can’t tell, but a published study followed patients during a full program of ear candling and found no reduction. For all that you might have learned something useful here about the experimental method, there is something more significant you should have picked up: it is expensive, tedious, and time-consuming to test every whim concocted out of thin air by therapists selling unlikely miracle cures. But it can be done, and it is done.

Detox Patches and the Hassle Barrier

 

Last in our brown sludge detox triptych comes the detox foot patch. These are available in most health food stores or from your local Avon lady (this is true). They look like teabags, with a foil backing that you stick onto your foot using an adhesive edging, before you get into bed. When you wake up the next morning, there is a strange-smelling, sticky brown sludge attached to the bottom of your foot and inside the teabag. This sludge—you may spot a pattern here—is said to be “toxins.” Except it’s not. By now you can probably come up with a quick experiment to show that. I’ll give you one option in a footnote.
2

An experiment is one way of determining whether an observable effect—sludge—is related to a given process. But you can also pull things apart on a more theoretical level. If you examine the list of ingredients in these patches, you will see that they have been very carefully designed.

The first thing on the list is “pyroligneous acid,” or wood vinegar. This is a brown powder that is highly hygroscopic, a word that simply means it attracts and absorbs water, like those little silica bags that come in electronic equipment packaging. If there is any moisture around, wood vinegar will absorb it and make a brown mush that feels warm against your skin.

What is the other major ingredient, impressively listed as “hydrolyzed carbohydrate”? A carbohydrate is a long string of sugar molecules all stuck together. Starch is a carbohydrate, for example, and in your body this is broken down gradually into the individual sugar molecules by your digestive enzymes, so that you can absorb it. The process of breaking down a carbohydrate molecule into its individual sugars is called hydrolysis. So “hydrolyzed carbohydrate,” as you might have worked out by now, for all that it sounds sciencey, basically means “sugar.” Obviously sugar goes sticky in sweat.

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