I noticed something interesting in the CDC’s mortality data.
I’ve recently started looking into the age distribution of drug poisoning
deaths, as in what’s the average age of someone who dies of a drug poisoning,
how sharply peaked is the distribution, has this distribution changed much over
time, etc. I also compared this with the age distribution for drug use. (See
here. The age distribution figures start around
page 150 or so. This is a big 10 MB pdf, so it may take a few moments to load.) Drug users skew young, but overdose
deaths skew old.
Here is what got me thinking about the age distribution of
drug overdose deaths. I knew that age is an overwhelmingly powerful driver of
mortality rates. Duh!, you say. Obvious as it is, I was surprised to see the
magnitudes (see
this post on my blog on mortality by age).
My thinking was that if the population of drug users has been aging,
there are many more chances for people to die from other causes, and many more
chances for a death to be labeled an overdose (even if it isn’t). An aging
population of drug users combined with a tendency to misclassify deaths as
“drug related” will introduce a spurious increasing trend in drug overdose
deaths. (That question requires looking at how the distribution of drug users
changes over time, and I haven’t looked into that yet. Perhaps in a future
post…) I also wanted to see if the average drug OD decedent has been aging over
time. I was expecting to see an aging of the average decedent, considering that
the “opioid epidemic” is supposedly exploding into the general population. Drug
use is mostly a youth phenomenon, so I was expecting to see that 15 years ago,
before the drug death rates started rising, the average decedent was young, and
this age should have crept up over time. So these were my “priors,” and what I
actually saw did surprise me a bit.
The average overdose death didn’t age by much. The average
decedent in a drug poisoning death was 40.9 in 2000 and 42.8 in 2014. A two-year
aging doesn’t describe the massive demographic shift I was expecting, of
opioids saturating the whole of society rather than just being a youth
phenomenon. Poisoning deaths *did* get a little less sharply peaked.
This graph shows you how the drug poisoning deaths in each
year are distributed across ages, compared to the distribution of illicit drug
use for opioids and then for cocaine based on the SAMHSA drug use survey. (So
if you sum up the % for each age, you get 100% for each of these curves.)
Notice the illicit opioid use rates and cocaine use rates (dotted lines) and contrast them with the death rates. This confirms the general notion that
illicit drug *use* is a youth phenomenon that most people grow out of in their
20s. The surprise here was how poorly
the death curves and the use curves overlapped. Notice also how the peak of the
drug OD line has been moving; while the *average* decedent has only aged about
2 years, the modal (peak of the distribution) decedent has aged about 10 years.
(Note: Use rates look like a step function for part of the
graph because the use rates by age are in categories that span 5 years, as in
“40-44”, “45-49”, etc. Use rates are given for each individual age up to 25,
but after that they are in age groupings. I assumed that the number of total
users from the SAMHSA data was evenly distributed over the years within these groupings.)
The above graph is plotting the distribution of *all* drug
related deaths, which potentially muddies the waters. Different drugs have
different age of use distributions, so let’s fixate on cocaine. It’s a good
choice for analysis. It kills a large number of people each year, about 5,000
in 2014. While that makes it a tragic social problem, it’s also makes it a
statistically well-behaved social problem because the data volume is
sufficiently large for analysis. If you were looking at, say, hallucinogens,
there are so few deaths that you couldn’t even analyze the issue, other than
doing very crude sums and saying, “It killed six guys last year.” Big social
problems are tragic, but at least we can study and understand them.
There are
also a fairly large number of users, so cocaine use shows up in a statistically
significant way in drug use surveys. These surveys are done on a random
sampling of about 30 or 40 thousand people. Cocaine use is common enough that
these surveys can sample its use effectively. Cocaine use is in the 0.5% of
total population range for past month use, and in the 1.5% range for past year
use, so the magnitudes found in these surveys are significant. Heroin, which
kills more people than cocaine (as of very recently anyway), has so few users
that these surveys don’t register it very well (past month use of heroin is in
the 0.1-0.2% range). Cocaine should be statistically “well-behaved” for the
sake of mortality and usage analysis. Also, I’m not muddying the analysis by
comparing drug deaths (most heavily driven by legal prescription painkillers)
to usage rates (most heavily driven by marijuana use, which doesn’t actually
kill anyone). I’m comparing cocaine use rates to cocaine deaths rates.
Here is what I get for the usage distribution and the mortality distribution. Notice again that usage is a youth phenomenon, but
it’s mostly older people who are actually dying of cocaine-related drug
poisonings. In 2014, the average *user* is only 33, but the average
decedent is 43, ten years older. People 30 and under make up about 50% of users
but only 18% of overdose deaths. For people 40 and under, these figures are 70% and
41%. For people under 20 these figures are 12% and 2%. If you like, you can
look at this in the other direction. People 50 and over make up 17% of users
but 36% of overdoses. People 40 and over make up 31% of users and 61% of deaths.
Older people die of cocaine use *way* out of proportion to their usage rates.
I also want to show you a mortality picture (as in “deaths
per 100k”), but there are important caveats to this. It’s hard to know what the
appropriate denominator is for calculating cocaine-related mortality. Do I
assume *all* past year users are at risk? In that case, I’d divide the number
of cocaine deaths in 2014 by the number of past-year users in 2014. But wait,
the number of past month users is something like 1/3 the number of past-year
users (giving the lie, btw, to the notion that this drug is hopelessly addictive).
Maybe it’s just this population of continuing users who are at risk. Surely the
hard-core addicts are in this group, not the “past year use” group. Naturally, this
will give me a higher mortality, because I’m dividing the same 2014 cocaine
death count by a smaller denominator. Anyway, I’ll just plot them both so you can
see what this looks like.
Again, you can see clearly that cocaine-related mortality is
heavily age-driven. I’m plotting the overall (all-cause) mortality at each
age for comparison. So what’s going on here? Are older people just more
susceptible to drug overdoses? Or are older people just more likely to die *for
any reason*, so if cocaine is present in the toxicology screening it will be
blamed for the death? In this latter explanation, there are just more older
corpses that happen to have cocaine in them, even though it had nothing to do
with the cause of death and even though living bodies with cocaine in them tend
to skew younger.
If you like looking at the underlying numbers, the following data table is the basis for the previous two charts. Deaths are from CDC data files, use numbers are from the SAMHSA survey linked to above:
This next paragraph is a bit of an aside, but it relates to
my quandary about calculating mortality rates. “What is the risk of death from
cocaine use?” becomes an almost philosophical question, because it’s impossible
to know what the relevant denominator is. This is a general problem for
quantifying the risk of drug use. One could simply divide the number of death
by the number of users in order to get a very rough-and-ready estimate of risk,
but that’s probably not right. There are people who dabble in drug use for very
short periods and then never touch them again (as you can see if you compare
“past month”, “past year”, and “lifetime” usage). Surely it’s the continuing
users who are really at risk, but then maybe it’s only a subset of *these*. Perhaps even addiction and dependence per se are not dangerous, it’s just
that some individuals are *very* poorly informed and engage in unnecessarily
risky behavior. The risk profile of cocaine users may be very heterogeneous; they don't all face an identical risk of death. It’s nice to have a solid easy-to-calculate figure in mind when
you’re thinking about these issues, but you always have to remind yourself that
this figure doesn’t mean what it appears to mean.
I worked up the above charts for prescription opioids too, and they look very
similar. Once again, there is a 10-year difference between the average illicit
user (about 33) and the average decedent (about 43). But I’m cautious about drawing
any conclusions from these charts and mortality figures for opioids. I suspect
that it’s wrong to divide the opioid related deaths by the number of illicit
users, because the at-risk population is the full population of people who use
opioids, not just those who use them illicitly. Remember that many people have
legal prescriptions and legitimate medical need for painkillers; the usage
rates from the SAMHSA survey only measure illicit use. My preferred explanation for the recent increase in opioid deaths
is that normal users are accidentally mixing them with other drugs, not that
we’ve created a growing population of high-risk drug addicts. We don’t see any
increase in illicit use of opioids over time in the drug use surveys, so I
think my preferred explanation makes more sense. So anyway, I *could* calculate
an “opioid mortality per illicit user”, but it would be irrelevant because I’d
be using the wrong denominator.
I looked at the average age of a drug overdose for the dozen
most lethal drug categories, and I saw roughly similar patterns for all. The
average age of decedent was in the 40-42 range for all categories, and there
was a slight upward trend in age for 2000 to 2014. Heroin was the closest thing
to an outlier, with a moderately young average age of death of 38. And
“psychostimulants with potential for abuse” (meth and ADHD medicine) was the
closes thing to an outlier in terms of the trend, with the average decedent
aging from 36 to 43 over the 2000-2014 period. I didn’t do a thorough
distributional analysis for each one of these, mostly because I don’t have the
relevant corresponding drug use data (for all I know it doesn’t exist) at that
level of detail. But considering the average age of decedent is similar for all these drug categories, I'd be very surprised if the result were any different. I suspect this general patter of younger average users and older average decedents holds up pretty well.
"So what?" you may be saying. Is this just a pointless exercise in data
manipulation? No, I believe there are relevant lessons for drug policy here.
For one, I think this supports my view that a lot of “drug overdoses” just
aren’t. That is, many of these people are dying for other reasons related to
age and health and they are wrongly being labeled as drug poisoning deaths.
(See my
previous post here on illnesses listed on the death records of drug
poisonings.) It’s not smoking gun, but it pours a
little cold water on the notion that there is a runaway opioid epidemic. The
“spurious trend” story looks more credible in this light. But put aside the spurious trend story for a moment. Even supposing that
*all* these drug poisoning deaths are correctly labeled and there’s no spurious
trend or upward bias in the totals, there are still some policy implications.
This is another case where a targeted deterrence policy makes a lot more sense
than a general deterrence policy. If people in their 30s, 40s, and 50s are at a
massively higher risk than people in their teens and 20s, we should warn them.
“Just because your heart could take it at 20, doesn’t mean your heart can take
it at 40,” might be a good slogan for a targeted anti-cocaine public service
announcement. Or for that matter, and anti-meth or anti-opioid or anti-heroine public service announcement. It's trivially true that anyone can die of a drug overdose, but the magnitude of the risk is *very* different for different ages.
It would be interesting to see what the use vs mortality
figures look like for legal opioid use, or for benzodiazepine use (another
leading killer drug). If I manage to pull that together somehow, I’ll turn it
into another post.