Is this study legit? 5 questions to ask when reading news stories of medical research
- Written by Hassan Vally, Associate Professor, La Trobe University
Who doesn’t want to know if drinking that second or third cup of coffee a day will improve your memory, or if sleeping too much increases your risk of a heart attack?
We’re invested in staying healthy and many of us are interested in reading about new research findings to help us make sense of our lifestyle choices.
But not all research is equal, and not every research finding should be interpreted in the same way. Nor do all media headlines reflect what was actually studied or found.
So how can you tell? Keep these five questions in mind when you’re reading media stories about new studies.
1. Has the research been peer reviewed?
Peer review is a process by which a study is checked by experts in the discipline to assess the study’s scientific validity.
This process involves the researcher writing up their study methods and results, and sending this to a journal. The manuscript is then usually sent to two to three experts for peer review.
If there are major flaws in a study, it’s either rejected for publication, or the researchers are made to address these flaws.
Although the peer-review process isn’t perfect, it shows a study has been subjected to scrutiny.
Read more: Peer review has some problems – but the science community is working on it
Any reported findings that haven’t been peer reviewed should be read with a degree of reservation.
2. Was the study conducted in humans?
Findings from studies conducted in animals such as mice or on cells in a lab (also called in vitro studies) represent the earliest stage of the scientific discovery process.
Regardless of how intriguing they may be, no confident claims about human health should ever be made based on these types of study alone. There is no guarantee that findings from animal or cell studies will ever be replicated in humans.
3. Are findings likely to represent a causal relationship?
For a study to have relevance to our day-to-day health, the findings need to reflect a causal relationship rather than just a correlation.
If a study showed that coffee drinking was associated with heart disease, for example, we want to know if this was because coffee actually caused heart disease or whether these to things happened to occur together.
In a number of studies that found this association, researchers subsequently found that coffee drinkers were more likely to be smokers and therefore, these results were more likely to reflect a true causal relationship between smoking and heart disease.
Africa Studio/ShutterstockIn observational studies, where researchers observe differences in groups of people, it can sometimes be difficult to disentangle the relationship between variables.
The highest level of evidence regarding causality comes from double-blind placebo controlled randomised controlled trials (RCTs). This experimental type of study, where people are separated into groups to randomly receive either an intervention or placebo (sham treatment), is the best way we can determine if a something causes disease. However it, too, is not perfect.
Although other types of studies in humans play an important role in our understanding of health and disease, they may only highlight associations that are not indicative of causal relationships.
Read more: Clearing up confusion between correlation and causation
4. What is the size of the effect?
It’s not enough to know that an exposure (such a third cup of coffee or more than nine hours of sleep a night) causes an outcome, it’s also important to clearly understand the strength of this relationship. In other words, how much is your risk of disease going to increase if you are exposed?
If your risk of disease is reported to increase by 50% (which is a relative risk), this sounds quite frightening. However, if the original risk of disease is low, then a 50% increase in your risk may not represent a big actual increased risk of disease. A 50% increased risk of disease could mean going from a 0.1% risk of disease to your risk being 0.15%, which doesn’t sound quite so dramatic.
Read more: What you need to know to understand risk estimates
5. Is the finding corroborated by other studies?
A single study on its own, even if it’s a well-conducted randomised controlled trial, can never be considered definitive proof of a causal relationship between an exposure and disease.
As humans are complex and there are so many variables in any study, we can’t be confident we understand what is actually going on until findings are replicated in many different groups of people, using many different approaches.
Until we have a significant body of evidence that is in agreement, we have to be very careful about our interpretation of the findings from any one study.
What if these questions aren’t answered?
Fizkes/ShutterstockIf the media report you’re reading doesn’t answer these questions, consider changing news sites or looking at the original paper. Ideally this would be linked in the news article you’re reading, or you can search PubMed for the article using a few keywords.
The journal article’s abstract should tell you the type of study, whether it was conducted on humans and the size of the effect. If you’re not blocked by a paywall, you may be able to view the full journal article which should answer all of the questions you have about the study.
Read more: Where's the proof in science? There is none
Authors: Hassan Vally, Associate Professor, La Trobe University