Sunday, November 25, 2012

What's That Tick-Tick Sound? Why, It's The Biological Clock Ticking In Each Of Us!

Yikes! This blogger started work on today's blog post at 11:00 AM! If this is (fair & balanced) proof that death has been cheated again, so be it.

[x The Atlantic]
You Are Most Likely To Die At 11 A.M.
By Megan Garber

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Why? Because when technology steps aside, nature takes over.

Particularly when you're older, you are 14 percent more likely to die on your birthday than on any other day of the year. Particularly when you live in certain geographical areas, you are 13 percent more likely to die after getting a paycheck. And particularly when you're human, you are more likely to die in the late morning — around 11 a.m., specifically — than at any other time during the day.

Yes. That last one comes from a new study, published in the Annals of Neurology, that identifies a common gene variant affecting circadian rhythms. And that variant, it seems, could also predict the time of day you will die.

Even death, apparently, has a circadian rhythm.

For more on this, read Lindsay Abrams' great overview of the study and its findings. What's fascinating about it from a tech perspective, though, is the role that technology — or, more specifically, the absence of it — plays in making the biggest biological determination there is: the time of our deaths. Circadian rhythms are physiological in origin, but they have structural analogs — analogs that have to do with the highly mediated way we human animals live our lives. When we're younger, we impose schedules on ourselves. We use machines to wake us from sleep. We use artificial illumination to escape a mandatory night.

But the circumstantial realities of old age change that, to a significant extent. "Social jet lag" — the phenomenon through which our natural circadian rhythms are undermined by rigidly collective social schedules — is less of a factor for people who aren't (generally) working and whose daily routines aren't (generally) governed by strict itineraries. It is less of a factor, in other words, for people who are relatively unreliant on technology. Retirees can sleep when they need to, wake when they want to, and generally obey the whims of their bodies much more readily than younger people can.

And that change in the way older people live also affects — potentially, probabilistically — the way they die. Because, just as circadian rhythms regulate things like preferred sleep periods and the time of peak cognitive performance, they also regulate the times during which we're most likely to experience an acute medical event like a stroke or heart attack. As study co-author Clifford Saper — who is also the James Jackson Putnam Professor of Neurology and Neuroscience at Harvard Medical School, and also the chairman of the Beth Israel Deaconess Medical Center Department of Neurology — explained to me over email: There is a "biological clock ticking in each of us."

So the technological freedom that comes with people's retirement can actually end up bringing a kind of cruel regularity to their deaths. What Saper and his co-author, Andrew Lim, realized through their research is that there seems to be one DNA sequence that determines, essentially, how each of us relates to time itself. And data analysis — poring through 15 years' worth of sleep and death patterns collected from subjects in an unrelated sleep study — helped them to make the realization.

Saper elaborates:

What we found was a "single nucleotide polymorphism" or SNP where about 60% of chromosomes have an adenosine (A) and 40% have a guanine (G) in the DNA code. Because you have two copies of each chromosome (one from each parent), 36% of people have two A's (AA), 16% have two G's (GG), and 48% have one of each (AG). When we looked at a group of older but healthy people (all over 65, so mostly retired) we found that the AA's tend to wake up about 1 hr before the GG's, with the AG's in the middle.

What we think this means is that the AA's have somewhat higher amounts of a protein called Period1 in their cells, which we think causes their biological clock to run a bit faster. On a daily basis, what this means is that they would tend to get up a bit earlier each day. If this persisted (getting up earlier and earlier each day) they would soon be getting up in the middle of the night, and going to bed before dinnertime. This obviously would cut down on their ability to socialize with other people. So, we think that the AA's adjust their timing a bit each day, to stay at a "socially acceptably early" schedule, which is on average about an hour earlier than GG's.

That makes sense. And then, since circadian rhythms control wakefulness — alertness, blood pressure, heart efficiency — it stands to reason that the flip side could be true, as well: that the rhythms that stimulate human activity could also stimulate its end.

But, then... where does the 11 a.m. frequency — and, for the GG group, a less-common 6 p.m. frequency — fit into that framework? Why would we be more likely to die during those hours than at other times of the day?

Genetics. Well, genetics and statistics. Again, Saper:

During the time when a person is dying, social calendars are much less important. So, we think that in that period, the individuals let their own biological clocks shift further from the external world, and the GG's drift further apart from the AA's. Interestingly, the AG's stay closer to the AA's, so perhaps just one A is enough to give a fairly early phenotype.

The result is that the different biological processes that lead to death occur earlier in the day in the AAs than in the GGs. For example, there is an increase in cardiac death from about 3 or 4am to about noon. This is thought to coinicide with the increase in hormones, like cortisol and adrenaline, that increase heart rate and blood pressure, and may push someone with cardiac problems over the edge, causing cardiac death. Each type of death has a "circadian rhythm," tending to occur most commonly at a particular time of day, depending upon what types of physiological events tend to trigger it, and when they occur in the individual. Even these events must obey the biological clock ticking in each of us.

So you have a higher percentage of the population who carry the AA gene variant — and, phenotypically, they're resembling the group with the AG variant. And that group is, due to all the factors Saper listed, more likely to die earlier in the day than other groups. Around, on average, 11 a.m.

That's not to say, of course, that 11 a.m. is also the most common time for getting hit by a bus, or bitten by a snake, or consumed by a ball of Mayan prophecy-fire. But for the population of people who have made it to old age — the people who will die of natural causes rather than circumstantial ones — there's a probabilistic element to the time that they will die. And that's because death by "natural" cause is natural in the fullest sense. Once we take leave of our technologies, our biologies take over. The genetic messages that empower our lives will also, eventually, orchestrate our deaths. Ω

[Megan Garber is a staff writer at The Atlantic. She was formerly an assistant editor at the Nieman Journalism Lab, where she wrote about innovations in the media. Garber also was a Staff Writer for the Columbia Journalism Review. She received a BA in English Langauge and Literature from Princeton University and an MS in Journalism from the Columbia University Graduate School of Journalism.]

Copyright © 2012 by The Atlantic Monthly Group

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Sapper's (Fair & Balanced) Rants & Raves by Neil Sapper is licensed under a Creative Commons Attribution-Noncommercial-No Derivative Works 3.0 United States License. Based on a work at sapper.blogspot.com. Permissions beyond the scope of this license may be available here.



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