Title : Smoking and COVID-19 update, plus a thought for future research
link : Smoking and COVID-19 update, plus a thought for future research
Smoking and COVID-19 update, plus a thought for future research
I'm finding it difficult to keep up with all the evidence on smoking and COVID-19. My last update was on 16 May so I suggest you follow Phil on Twitter if you want to get up to speed. He's catalogued 117 pieces of evidence so far in this heroic thread, most of which show smokers significantly under-represented among Covid patients/cases.I still have my doubts about whether smoking/nicotine confers any protection against the disease. Simple comparisons between the proportion of Covid patients who smoke and the proportion of smokers in the general population are not the strongest evidence. The smoking rate in Britain, for example, is 15% and all the British studies find smoking prevalence to be about half of that among Covid patients. This one, for example, finds that only 6% were current smokers.
But the average age of patients in that study was 73 and smoking rates are much lower at older ages. In the UK, it is only 8 per cent among people aged 65+. This still implies a difference - and it is certainly striking that decades of smoking don't make people more likely to be hospitalised with this respiratory disease - but claims based on unadjusted figures are bound to exaggerate any protective effect.
This is why it is better to focus on the relatively small number of studies that use epidemiological methods and adjust for other factors. There are not many of them, but it has to be said that their results are fairly consistent.
Let me know if I am missing any, but I can find six...
1. This recent study from Israel involved testing 114,545 people for the virus. The smoking rate was 9.8% among those who tested positive (the national rate is 19%). After adjustments, the authors found that smokers were half as likely to test positive, with an odds ratio of 0.46 (0.41-0.51). This is, as the authors conclude, an 'intriguing finding' which 'may reveal unique infection mechanisms present for COVID-19 which may be targeted to combat the disease and reduce its infection rate.'
2. That is very similar to this British study which found that 'active smoking was linked with decreased odds of a positive test result' with an odds ratio of 0.49 (0.34–0.71).
3. This British study found that smokers were 27% less likely to test positive for COVID-19 although you have to look carefully to find the evidence because the lead author is the chairman on Action on Smoking and Health and he buries it as much as he can. The odds ratio is 0.73 (0.65-0.81).
4. Meanwhile this British study looked at the likelihood of dying from COVID-19 and found that smokers were slightly more at risk, or slightly less at risk, or neither, depending on how the figures were adjusted.
5. Then there is this study from the USA which looked at 3,789 US military veterans aged between 54 and 75 who were tested for COVID-19, of whom 585 tested positive. Smokers were 55% less likely to test positive, with an odds ratio of 0.45 (0.35-0.57).
6. Finally, there is this study from a badly hit area of France where 661 people were tested for COVID-19 and smokers were 67% less likely to test positive. Odds ratio after adjusting for age: 0.23 (0.09 –0.59).
With the exception of the Goldacre study, all of these look at the likelihood of testing positive for the virus, not the probability of being hospitalised or dying from it.
There are dozens of other studies and datasets showing a low proportion of smokers among Covid hospital patients, but these studies do not specifically look at the question of smoking's effect on the virus. In many cases, the authors do not even comment on the rate of smoking, and in some of them the rate of smoking is not particularly low anyway.
If smokers are less likely to be hospitalised with the coronavirus, it could be because smoking/nicotine makes symptoms less severe or it could be because smokers are less likely to get it in the first place.
The original hypothesis put forward by Konstantinos Farsalinos lent towards the former explanation, but I tend to lean towards the latter because there are studies adjusting for other factors, crucially age and sex, which back it up. In addition, there are several other studies which do not produce odds ratios, but which strongly suggest protection against infection, such as this, this and this.
All in all, the evidence that smoking reduces the chance of a person testing positive for the virus is methodologically stronger than the evidence implying that smoking helps combat the disease once a person is infected. From the evidence above, one might tentatively conclude that smoking reduces the risk of infection by 50 per cent.
But there is one thing that has been bugging me about this theory for weeks. A lot of the evidence showing low rates of smoking among patients comes from China where the smoking rate is 27%. That figure masks a huge gender divide, with 52% of men smoking and only 3% of women. The official figure for women is probably an underestimate as there is a certain taboo about women smoking in much of Asia, but there is nevertheless a very large gap in prevalence between the two genders.
Therefore, if smoking confers some sort of protective effect, we should expect to see men enjoying a disproportionate benefit. Do we see that in the statistics for testing and hospitalisation? Not really, no. Men tend to be slightly over-represented in Covid wards.
However, we also know that men are more likely to be hospitalised and die from COVID-19 - twice as likely in some studies. (We also know, although it won't have a big impact on these statistics, that there are more men than women in China as a horrible consequence of the one child policy.)
So the real question is whether China has a smaller proportion of men with COVID-19 than countries that have a more equal distribution of smokers across the sexes. The evidence must be out there, but I have yet to find anything conclusive.
Looking at the studies that have crossed my radar while looking at the smoking hypothesis, here's some evidence for China. I include only relatively large studies involving more than 100 patients/cases:
Large study of 1,056 COVID-19 cases in China found that 536 (50.8%) were male.
Study of 585 confirmed cases in Beijing found that 268 (45.8%) were male. No smoking history recorded.
Study of 292 patients in China found that 50.7% were male. The smoking rate among the patients was just 5.1%, although smokers were more likely to be classified as 'severe' than 'mild'.
Study of 285 patients in China found that 128 (44.9%) were male. 11% of the patients were smokers.
Study of 276 patients in the Zengdu District found that 56.2% were male. 12.8% of the total had a smoking history.
Study of 202 patients in China. 107 (51.4%) were males and 101 (48.6%) were females. 5.8% had a history of smoking.
Study of 200 patients in Wuhan found that 99 were male (49.5%). Unusually, most of them were smokers, although 'no difference on the fatality rate of COVID-19 patients was found between smokers and nonsmokers'.
Study of 143 patients in Taizhou, China found that 77 were male (53.8%). 9.8% had a history of smoking (see table - text is wrong) and smokers were no more likely to suffer severely than nonsmokers.
Study of 134 patients from 9 cities outside Wuhan found that 65 (48.5%) were male. 10.4% were smokers.
Study of 121 patients in Wuhan found that 66 (54.6%) were male. 5% were current smokers.
Study of 101 Chinese medical staff infected with COVID-19 found that 32 (31.7%) were male. Only four were smokers. However, what proportion of Chinese medical staff are female?
I've also looked at the larger Chinese studies previously mentioned in this blog post. The numbers are:
Guan (1,099) 58% male
Shi (487) 53% male
Zhou (191) 62% male
Zhang (140) 51% male
Wan (135) 53% male
Liu (78) 50% male
From this sample of studies, the gender balance is not far off 50/50, with several studies showing a majority of women. Of particular interest are the two large studies at the top because they show cases rather than patients (ie. people who have tested positive but are not necessarily hospitalised). Taking those two sets of numbers together, a slight majority of 51% of cases were women.
How does this compare to countries where there is less of a gender gap in smoking rates? It's not easy to say, but here are the results from the largest of the studies I have come across. The figures refer to COVID-19 hospital patients unless otherwise noted.
Various countries (8,910 patients of whom 1,507 were in China) 59.6% male (5.5% were smokers)
UK (8,699 patients) 71.1% male (smoking data not included)
UK (7,346 patients) 60% male (number of smokers is unclear)
New York (5,700 patients) 60.3% male (15.6% had history of smoking)
UK (5,683 deaths) 63.1% male
New York (4,103 patients) 50.5% male (5.1% were current tobacco users)
New York (1,999 patients - same study as above) 62.6% male (5.2% were current tobacco users)
Sweden (2,158 ICU patients on 3 June) 74% male
USA (1,482 patients) 54.5% male (smoking data not included)
Italy (441 patients) 61.9% male (4.8% were smokers)
New York (393 patients) 60.6% male (5.1% were smokers)
Switzerland (200 patients) 60% male (4.5% were smokers)
In all of these studies, the majority of patients were male. In most of them, at least 60% were male. By contrast, in the Chinese studies above, only one had a male rate above 60%.
Perhaps this is telling, but unfortunately all of these studies look at patients, not cases. Global Health 50/50 has the gender breakdown of cases for various countries, but there is no clear pattern. In some, such as Pakistan and Ecuador, there are more men. In other, such as Sweden and the Netherlands, there are more women.
I'm not sure what to make of this. I only mention it in the hope that somebody will pick up the gauntlet and find something more conclusive. But it seems to me that for the smoking hypothesis to be correct, we should be seeing disproportionately few cases among groups in which the smoking rate is high (eg. Chinese men). If such an effect is not apparent from the aggregate data then any positive effect from smoking/nicotine is either non-existent or too small to get excited about.
Thus articles Smoking and COVID-19 update, plus a thought for future research
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