Book review: Ending Aging: The Rejuvenation Breakthroughs That Could Reverse Human Aging in Our Lifetime by Aubrey de Grey and Michael Rae.
This book makes a strong argument that the most important medical need in developed countries is to cure the damage associated with aging, rather than to combat the diseases which become serious as a result of that damage. It outlines a set of solutions which, if they can be implemented, look like they would add at least a decade or two to healthy lifespans.
All of the solutions look like they have a reasonable chance of being implemented within 20 years. But the probability of all of them working within that time is a good deal lower than the probability of any one solution working, and there’s no obvious way to analyze whether we can get significant health benefits without implementing all of the solutions.
The authors seem somewhat overconfident about most aspects of their proposed solutions, but that doesn’t affect the substance if their arguments very much. Even a small chance of postponing death and disability is worth a good deal of effort.
The parts of the solutions that appear hardest are the ones that rely on techniques similar to what are already being attempted by mainstream scientists (genetic engineering to add and delete genes from most cells in the body, massive use of stem cells, and moving enzymes across the blood-brain barrier). My impressions about the effort that has been put into these techniques and the results that have been produced so far suggest that at least one of these is likely to take much longer than the book asks us to hope for. The book gives one clear example of important research not living up to the hype surrounding it when it gives arguments that most cancer research is directed toward modestly postponing cancer rather than providing a full solution to cancer. I see no obvious way for a layman to tell whether the authors are relying on similarly overhyped research.
So even though the book gives convincing arguments that the goals of medical research ought to be reframed to focus on aging as the primary threat to be solved, it’s far from conclusive about whether that should imply a large change in actual research. It may be that the hardest and most valuable tasks are the ones that are already being worked on. Or it may be that one of the critical tasks is sufficiently hard that the most important need is to invent tools that are substantially more sophisticated than what’s used in existing research (i.e. that we most need something more radical that what’s proposed in the book, such as nanomedicine).
Life, the Universe, and Everything
This post is a response to a challenge on Overcoming Bias to spend $10 trillion sensibly.
Here’s my proposed allocation (spending to be spread out over 10-20 years):
- $5 trillion on drug patent buyouts and prizes for new drugs put in the public domain, with the prizes mostly allocated in proportion to the quality adjusted life years attributable to the drug.
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$1 trillion on establishing a few dozen separate clusters of seasteads and on facilitating migration of people from poor/oppressive countries by rewarding jurisdictions in proportion to the number of immigrants they accept from poorer / less free regions. (I’m guessing that most of those rewards will go to seasteads, many of which will be created by other people partly in hopes of getting some of these rewards).
This would also have a side affect of significantly reducing the harm that humans might experience due to global warming or an ice age, since ocean climates have less extreme temperatures, seasteads will probably not depend on rainfall to grow food, and can move somewhat to locations with better temperatures. - $1 trillion on improving political systems, mostly through prizes that bear some resemblance to The Mo Ibrahim Prize for Achievement in African Leadership (but not limited to democratically elected leaders and not limited to Africa). If the top 100 or so politicians in about 100 countries are eligible, I could set the average reward at about $100 million per person. Of course, nowhere near all of them will qualify, so a fair amount will be left over for those not yet in office.
- $0.5 trillion on subsidizing trading on prediction markets that are designed to enable futarchy. This level of subsidy is far enough from anything that has been tried that there’s no way to guess whether this is a wasteful level.
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$1 trillion existential risks
Some unknown fraction of this would go to persuading people not to work on AGI without providing arguments that they will produce a safe goal system for any AI they create. Once I’m satisfied that the risks associated with AI are under control, much of the remaining money will go toward establishing societies in the asteroid belt and then outside the solar system. - $0.5 trillion on communications / computing hardware for everyone who can’t currently afford that.
- $1 trillion I’d save for ideas I think of later.
I’m not counting a bunch of other projects that would use up less than $100 billion since they’re small enough to fit in the rounding errors of the ones I’ve counted (the Methuselah Mouse prize, desalinization and other water purification technologies, developing nanotech, preparing for the risks of nanotech, uploading, cryonics, nature preserves, etc).
Book review: Reasonable Rx: Solving the Drug Price Crisis by Stan Finkelstein and Peter Temin.
This book provides a mediocre analysis of what is wrong with drug prices, and presents a solution that is probably a nontrivial improvement on the status quo, but isn’t the most thoughtful solution I’ve seen.
The most important complaint of the book boils down to the fact that knowledge about drug safety and effectiveness is a public good, and the current method of rewarding drug companies for producing that knowledge is mediocre (although the book presents it less clearly than that and seems as interested in blaming drug companies’ lack of altruism as it is in analyzing the incentives).
For example, it is sometimes possible to identify biomarkers which indicate that a drug will be ineffective in a patient, but that would often reduce sales of the drug.
They complain that the current focus on producing a few very profitable drugs is an obstacle to creating personalized treatments. But they do little more than imply that drug companies are misjudging the available opportunities, without presenting any clear evidence that the authors’ have better judgment about what’s feasible.
Their proposed changes to the drug industry involve separating drug development and drug marketing/manufacturing into two different sets of companies, and using a combination of subsidies and contractual price controls (negotiated by a government sponsored nonprofit) to lower the prices of drugs.
They didn’t convince me that splitting drug companies will produce any significant benefits, although I also don’t see it producing harm.
The subsidies and price controls are likely to help mitigate some of the problems created by the patent system. Their attempts to show that this solution is better than Kremer’s patent buyout proposal suggest they don’t understand how much harm patent monopolies cause. Their subsidy mechanism isn’t clearly tied to benefits (unlike proposals for prizes based on Quality Adjusted Life Years). They claim drug prize proposals set arbitrary values for drugs and that their auction system produces a less arbitrary market price, but the subsidy part of their part of their system is at least as arbitrary, and their market based prices reflect the value of an arbitrary patent duration.
Their claim that Medicare savings will pay for their subsidies seems deceptive. When estimating the Medicare savings, they appear to rely on an assumption that prices of existing drugs will drop by a large amount. Yet when estimating the subsidy costs, they appear to count only the costs of subsidizing newly introduced drugs.
They are too quick to complain about drug companies medicalizing conditions that are mere inconveniences. E.g. they say Flomax does nothing more important than reduce sleep disturbances. This ignores the evidence that sleep disturbances cause significant health problems.
The chapter “Are Drug Companies Risky?” is pointless because it only evaluates the most successful companies (i.e. those whose gambles have already paid off).
Book review: Counting Sheep: The Science and Pleasures of Sleep and Dreams by Paul Martin.
This book makes convincing claims that most people give too little thought to an activity that occupies a large fraction of our life.
It has lots of little pieces of information which can be read as independent essays. Here are some claims I found interesting:
- “sleepiness is responsible for far more deaths on the roads than alcohol or drugs”.
- Tired people rate their abilities higher than people who slept well do.
- Poor sleep contributes to poor health a good deal more than medical diagnoses suggest, but hospitals are designed in ways that hinder patients’ sleep.
- Idle time was apparently a status symbol up to a century ago, now being busy is a status symbol. This should have economic implications that someone ought to explore in depth.
- People in a vegetative state have REM sleep. This sounds like cause to re-evaluate the label we apply to that state.
While the book has many references, it doesn’t connect specific claims to references, and I’m sometimes left wondering why I should believe a claim. How can boredom be a modern concept? When he says “no person has ever gone completely without sleep for more than a few days”, how does he know he can dismiss people who claim to have not slept for years?
Bernie Sanders has introduced a bill to replace patent monopoly protection for drugs with awards based in part on Quality Adjusted Life Years added by the drugs.
This would eliminate the harm due to monopoly pricing. It might also cause some research to be redirected from “me-too” drugs to more innovative drugs. But I suspect that it’s common enough for what initially looks like a “me-too” drug to end up having valuable advantages that such an effect will be minor.
It would probably be a bigger help to people in developing nations than all the government spending misleadingly labeled as foreign aid.
Because politics will ensure that the idea is implemented suboptimally, I would prefer that something similar (e.g. patent buyouts) be implemented by a more responsible institution such as the Gates Foundation. But the patent system has enough problems that even this imperfectly written bill might improve on the status quo.
One strange effect of political reality is that the rewards are apportioned according to either benefits to U.S. patients or world patients, and the bill provides an awfully vague description of which rule will apply to which drug.
The bill allocates 10% of the rewards to orphan drugs, presumably because the lives of people with those diseases are worth more than those with common diseases.
The bill claims generics cost 85% less than patented drugs, but gets that figure from comparing overall generic prices with overall patented prices. If the cost of manufacturing drugs differs for old and new drugs, that will be misleading. The estimates I’ve found for same-drug price declines after generic competition starts suggest the price decline is more like 30% to 50%. So the bill’s claim that it can be financed by the reduced Federal government drug spending appear to be fiction.
Besides, if it were self-financing that way, wouldn’t it indicate a big reduction in the rewards to drug development? I want to see a good analysis of why $80 billion a year is adequate to substitute for patent exclusivity. My crude attempts at analyzing it suggests it’s too low, but not by a large amount.
(HT Alex Tabarrok)
A recent report makes surprising claims about the causes of the apparently impressive Cuban life expectancy data.
It says that shortages of cars, food, and reduced cigarette use had effects that were on balance healthy (I don’t see anything specific about whether a cigarette shortage caused the decline in smoking).
I had thought that there was strong evidence for the claim that increased wealth reliably correlated with increased health. It looks like I ought to examine the evidence on that subject more carefully.
Political Calculations has a post with an interesting table of life expectancy in OECD countries. In addition to the standard life expectancy numbers, there is an additional set that is standardized to eliminate differences in a category of deaths that is roughly described as accidents and homicide (those least likely to be connected to healthcare problems).
I haven’t found an online explanation of how they were standardized (it’s apparently explained in the book The Business of Health: The Role of Competition, Markets, and Regulation by Robert Ohsfeldt and John Schneider, which I haven’t checked), and I can’t evaluate the extent to which their desire to promote the U.S. medical system has biased their methods.
What surprised me most was that it implies that the differences in what we normally think of as health and healthcare explain a surprisingly small part of the difference between national life expectancies. The actual life expectancy shows a difference of 3.6 years between the highest (Japan) and lowest (Denmark), but the standardized life expectancy shows a difference of 1.2 years between the highest (U.S.) and the lowest (U.K.).
This implies that national difference in traffic accidents, homicides, and some similar (poorly identified) causes of death are a good deal more important than the following differences: healthcare systems, diet, serious vitamin D deficiencies (which I expect to vary by latitude), FDA rules, and litigation of medical outcomes.
On a loosely related note, the book A Farewell to Alms mentions a report that 16th century Japan had an unusual absence of disease (but no indication whether it’s possible to get any quantitative evidence of this). This made me think of the alleged high Cuban life expectancy. Could relatively isolated islands be healthier due to lower influx of disease? Not that this would make isolation nice, especially since it might mean increased vulnerability to disease when contact with the outside increases.
An amusing parody: A Thinking Apes Critique of Trans-Simianism (HT Mark Atwood).
Book review: How to Survive a Robot Uprising: Tips on Defending Yourself Against the Coming Rebellion by Daniel H. Wilson
This book combines good analyses of recent robotics research with an understanding of movie scenarios about robot intentions (“how could millions of dollars of special effects lead us astray?”) to produce advice of unknown value about how humans might deal with any malicious robots of the next decade or two.
It focuses mainly on what an ordinary individual or small groups can do to save themselves or postpone their demise, and says little about whether a major uprising can be prevented.
The book’s style is somewhat like the Daily Show’s style, mixing a good deal of accurate reporting with occasional bits of obvious satire (“Robots have no emotions. Sensing your fear could make a robot jealous”), but it doesn’t quite attain the Daily Show’s entertainment value.
Its analyses of the weaknesses of current robot sensors and intelligence should make it required reading for any science fiction author or movie producer who wants to appear realistic (I haven’t been paying enough attention to those fields recently to know whether such people still exist). But it needs a bit of common sense to be used properly. It’s all too easy to imagine a gullible movie producer following its advice to have humans build a time machine and escape to the Cretaceous without pondering whether the robots will use similar time machines to follow them.
Restaurants almost universally try to bundle cheap food with cheap service and expensive food with expensive service. Often this makes sense. But when I just want food, expensive service can be slow enough to be less desirable than McDonald’s style service. But that doesn’t mean I want cheap food.
A few weeks ago I ate at the Mobil station in Lee Vining (just outside of Yosemite) with some fellow backpackers just before heading to the mountains. We each paid more than $25 a person for our dinner, and got food that looked and tasted like I would expect from a $25+ meal at a moderately fancy restaurant, yet the service was fairly close to fast food service – we ordered at a cash register, and picked our food up at a counter (although it probably took 3 or 4 minutes longer than McDonald’s does).
Why haven’t I seen any other restaurants that imitate this style? It appears to work there (it was crowded, but since that was a holiday weekend, I can’t tell how typical that was). If there were such restaurants near my home, I’d expect to eat at them more than once a month.