Initially I thought that the reason for this would be that most people with transplants live less than 10 years, and eligibility requirements of who gets transplants (and therefore who gets calcineurin inhibitors) might further complicate the results.

Wow, was I ever wrong. This article says it's not too uncommon for people to live 30 years after their transplant. Other articles say that even the obese are eligible for transplantation now. Very impressive.

https://wexnermedical.osu.edu/blog/how-long-do-transplanted-...

That being said, I know life extension and nootropics and all that jazz is a really popular topic with tech bros, so its worth noting the side effects of calcineurin inhibitors are really bad.

It's also neat ciclosporin was isolated from some scandanavian fungus living in the soil. Makes me sad thinking about how once we are able to significantly understand and appreciate genetics and related biotechnology later this century, half of the species on earth will already be gone, their amazing biological traits and compounds lost forever.

I'm a pessimist and when I look at the graft half-life in your article, it puts a wet blanket on things. For example, half of kidney transplants from a deceased donor fail in 7-9 years. That's not a lot of time. A lung gets you on average less than five years.

I would be interested in whether it's survivorship bias, or lack of in this case.

The average lifespan of deceased donor kidney is 10 to 15 years and for live donor is around 15 to 20 years. People normally get multiple transplants throughout their lives.

I thought all donors had to be living with a beating heart, are deceased non-heartbeat donors viable for some subset of organ transplants? How does this work exactly?

They collect the organs from people who have just died, such as in car crashes. In the paperwork for getting a California driver license, you check a box saying whether you are willing to be an organ donor. If you check yes and you are later killed in a crash, they immediately bring your remains to a hospital that is always awaiting such deliveries, and a transplant operation gets going right away.

Motorcycles are sometimes called "donorcycles" because of the high likelihood that any given crash will be fatal, and that the rider is young and healthy and thus a highly desirable source of transplant material.

It's important to understand that there are some very strong selection biases here in the U.S.

While fatalities per passenger-mile may be 24x cars (as below), you have to realize that the population riding motorcycles in the U.S. is not a random sampling. These people aren't trying to get around, they're acting out an image. For that behavior I don't blame them, but it is what it is.

Anecdotally, a little less than half of U.S. motorcyclists are fat, bald, drunk dudes riding Harleys or Harley look-alikes with the legal minimum protective gear (which in some states is none at all), while another little less than half are young, shirtless dudes on sportbikes. To their credit, they are wearing full-face helmets (because you can't go 200mph without one). Also, something like half of motorcycle fatalities involve alcohol[0]. Yikes.

<10% of motorcyclists are riding reasonable, well-maintained bikes with a modicum of skill and all of the proper protective gear.

So while motorcycling qua motorcycling may be more dangerous than driving a car per vehicle-mile, the difference is probably a lot smaller when controlling for differences in the behavior of people doing it. To put it in perspective, in the U.S., if motorcycling is ~30x deaths per vehicle mile compared to cars, bicycling is ~20x (though you do get exercise, which extends your life). And miles per motorcycle (or bicycle) are << miles per car per year in the U.S. People don't realize, but moving to the suburbs and driving everywhere vs. living in the city is taking the same sort of risk one might by motorcycling. </rant>

[0]: https://en.wikipedia.org/wiki/Motorcycle_safety

People needing organ donations are sometimes told to move to Florida.

Florida motorcyclists are not generally required to wear helmets. Therefore they more efficiently get to the "donor" stage.

A friend studying prosthetics told me half the recipients are motorcyclists.

Riding a motorbike is amazing fun, but if you ride long enough, something terrible will happen. Every rider has a story of an accident. Although you are more manoeuvrable than a car, can get out ahead of traffic, are smaller, can see more, and are more keenly alert... a little tap you'd hardly notice in a car can kill you.

A doctor friend of mine would joke about it being good organ transplant weather when it was raining, because they’d get dead motorcyclists turning up in the rain so frequently.

It's rather astonishing that all the safety regulations for cars manage to exist in the same legal system that allows motorcycles on public roads at all. Last I read the death risk ratio was about 24x.

Surely it's because: on a motorcycle you usually only hurt yourself?

In a car you tend to hurt other people including any kids, etc that may be along for the ride.

More likely it's just because cycles existed before the safety regulations and there would be too much backlash to banning them. Plenty of other things that only harm yourself, like drugs or unpasteurized milk are also illegal.

I’m still amazed by this one. My first thought on riding a 250 was “how is this possibly legal?” And then the jump to a big bore (non-cruiser) is completely insane.

As a motorcycle rider (every day commuter) I often think that if motorcycles didn't already exist, they wouldn't be allowed to.

As per sibling comment, maybe the only reason they are tolerated is that the risk is statistically largely to the rider themselves.

IE the person taking the risk is largely the target of the consequences.

If motorcycles somehow magically penetrated into peoples cars in a crash I think people would rule them out pretty quick.

As a rider, I too dislike people labelling me as having a deathwish. Clearly, I do not.

But calling names the other way won't help and I can see why the donorcycle term has stuck. There is enough of an element of truth to make it stick.

Organ donation is based on recently dead people. Heart, liver, kidneys, eyes etc are all up for grabs as soon as possible

I learned yesterday that a heart has a shelf life of about 6 hours and liver is 12

Fun social engineering fact: countries that make organ donation (on death) opt-out instead of opt-in have much shorter waiting lists for organs. The USA could save thousands of lives by switching to opt-out.

https://en.wikipedia.org/wiki/Organ_donation#Opt-in_versus_o...

Funnier social engineering fact: If it's legal for people sell their kidneys, wait lists for kidneys goes to zero[1]. Too bad only one country in the world does that.

Another fun fact. The US government spends more on dialysis than the budget for NASA.

[1]https://en.wikipedia.org/wiki/Kidney_trade_in_Iran

From news sources I found, it looks like the system in Iran works exactly as one would expect: the poor and desperate end up with one less kidney while not significantly benefitting from the trade.

Which is precisely the reason such sales are outlawed worldwide.

Kidney donors in Iran get ~6 month salary, kidney donors in the U.S. get 0 months salary.

Are Iranian kidney donors the ones getting scammed?

Kidneys in the US are largely sourced from cadavers.

If we enticed poor people to sell their kidneys, some percentage of them would wind up needing kidneys again without an ability to pay for them.

This turns into a kidney marketplace where the rich win out over the poor.

FCFS with triage based on need, immunocompatibility, and health outcome is the most equitable model.

Poor people need kidneys far more often than rich people.

Diabetes and uncontrolled high blood pressure are the top cause of kidney failure. These two conditions are far more common in the poor, and far more likely to be poorly managed.

Also if the price of a kidney relative to median income in the U.S. was similar to Iran, then a kidney would cost $15,000. This is expensive but still far cheaper than dialysis. And there is no reason an ACA plan or Medicaid wouldn't pay for it.

If the ACA or Medicaid will pay for kidneys for those who can't afford, what stops the price of kidneys from becoming equivalent to the price of dialysis should the kidney not be bought?

> FCFS with triage based on need, immunocompatibility, and health outcome is the most equitable model.

In theory. In practice rich people can jump ahead the line no matter what system. I.e. Steve Jobs and the liver that went to waste.

According to CNN, "it is unlikely that someone like Steve Jobs can 'cut the line' of the transplant waiting list. The reason that some people might be able to get transplants more quickly is that they're standing in more lines. Nothing prevents someone from being evaluated and listed at multiple transplant centers. As long as a patient has the wherewithal to fly around the country -- and be available at the drop of a hat if a liver becomes available (this is where the private jet comes in handy) -- a patient can, in theory, be evaluated by all the transplant centers in the country."

https://www.cnn.com/2009/HEALTH/06/24/liver.transplant.prior...

If you legalize selling organs, less rich people will be able to afford them. I don't like the idea of merchandizing humans. It is worse than prostitution. Maybe worse than slavery, as humans become disposable.

The difference is we are talking about saving lives, not prurient interests.

> This turns into a [marketplace] where the rich win out over the poor.

Same could be said for gambling and sales tax.

I agree that if you ignore the saved life on the other end of the transaction, it does seem rather pointless.

It is problematic yes, however so is most of medical care, poor don't get access to it as much as the rich do , whether it is countries or people.

Sadly, economics dictate a lot of people's health is going to be like. Living/Work conditions lifestyle, diet are all influenced by wealth.

Poor people work most of the dirty and unhealthy jobs that significantly cut short life spans. Wealth and lifespans are known to be strongly correlated.

As countries we are perfectly comfortable reserving vaccines blocking poor countries with patents, polluting a lot more or exploiting their labor in terrible conditions we wouldn't tolerate. Compared to what we are willing to accept already this doesn't seem worse.

If a commercial system could save more lives(probably more likely rich) it is not that much worse for poor than it already is.

Uhum. Maybe the next step is to encourage the poor to have more kids so we have a little extra supply?

Before we get to that we should probably harvest organs from prisoners. A person who will spend life in prison has no need for two kidneys.

Surely for the budget of NASA, the U.S. government could just buy or build their own dialysis machines instead of paying for hospitals to do it.

Presumed consent would effectively end waiting lists for most organs.

Yep. I have type 1 diabetes for 27 years, and so far, no complications.

I recently contracted a shiga toxin producing E. coli strain which was cultured from my bowels. I also cultured entericocci (ETEC) but that’s not relevant to the discussion. I am lucky Shiga toxin E. coli (remember this famous Jack In The Box Breakout, FTW https://en.m.wikipedia.org/wiki/1993_Jack_in_the_Box_E._coli... ) did not affect my kidneys.

I am a dual US|European Union (Croatian) national. Croatia has one of the highest (ethical) transplant rates in the world. Let it be known that I would get it in Croatia over the USA.

I learned today that one can be a living heart donor. There is a special type of donation where a person who needs lungs gets a lungs+heart donation from a deceased donor, while the living person's healthy heart is transplanted to another person whose heart needs to be replaced. It seems this has advantages both for the lung recipient and the heart-only recipient and allows for compatibility in cases where the lungs and heart of the deceased person will not work separately for the two recipients.

Sure, but "dead" is a Humpty Dumpty word. Some organs need the donor to be legally but not colloquially dead. In other words, you are dead and your heart is still beating.

can you share a link, I'd like to learn more about this "organ shelf life". Very fascinating. Maybe I was mistakenly applying the sudden death of the brain without blood perfusion to hold likewise for every other organ. Like a heart attack when blood ceases to flow into it turns the myocardium to scar tissue. But that must not be an instant process, probably takes some time. I know temperature can keep tissues viable longer too, so that's another variable to consider.

This article is pretty fascinating, never knew about so called preservation solution https://www.livescience.com/how-long-can-donated-organs-last...

The brain doesn’t die suddenly without blood perfusion, either.

If it did, heart transplants wouldn’t work at all.

For the brain it's pretty damn quick (minutes before significant damage). heart transplants rely on being able to run an artificial heart and lung machine to oxygenate and pump the blood while the heart is stopped, removed, and replaced.

Where I am being on an organ donor list also makes you eligible to be used as a cadaver. I’m not comfortable being prodded by med students but would give an organ.

Clinical Death != brain dead, Clinical death has a very well defined and nearly irreversible process [1].

The longest human is known to be revived is only in the range 10-15 minutes. Brain damage is quite likely at this point. The longest for an animal is for cat - 1 Hour.

Only clinically dead people are eligible for organ transplantation

[1] https://en.wikipedia.org/wiki/Clinical_death

That's what I'm concerned about. Clinical death is apparently survivable.

> Reduced body temperature, or therapeutic hypothermia, during clinical death slows the rate of injury accumulation, and extends the time period during which clinical death can be survived. The decrease in the rate of injury can be approximated by the Q10 rule, which states that the rate of biochemical reactions decreases by a factor of two for every 10 °C reduction in temperature. As a result, humans can sometimes survive periods of clinical death exceeding one hour at temperatures below 20 °C.[20] The prognosis is improved if clinical death is caused by hypothermia rather than occurring prior to it; in 1999, 29-year-old Swedish woman Anna Bågenholm spent 80 minutes trapped in ice and survived with a near full recovery from a 13.7 °C core body temperature. It is said in emergency medicine that "nobody is dead until they are warm and dead."[21] In animal studies, up to three hours of clinical death can be survived at temperatures near 0 °C.[22][23]

I'd rather not be harvested too quickly, when I could have been revived without issue.

No doctor/hospital is going to harvest organs unless the person is warm and dead and all reasonable means of revival have been already tried.

Also even if revied would you even want to ? While anna as an exception didn't suffer from brain damage , it is likely, and even she had long term issues with nerve function paralysis etc.

Anna and other similar cases are a extreme rarity. policy shouldn't be made basis a one in a million chance, that's why we have vaccines enforced for example.

You can always opt-out or not opt-in depending in on jurisdiction I am sure.

There are plenty of people who opt for cryogenic storage after they die in the hope technology will evolve to revive them. That's natural step to this argument in a way , what if I could be revived some day even if not today ?

Ultimately handling life and death are intensely personal choices.

> No doctor/hospital is going to harvest organs unless the person is warm and dead

Well, that's the thing. "warm and dead" is above and beyond the criteria you referenced earlier, "clinical death". I'd hope you're right, but I'm not convinced you are. It doesn't seem like it from what I've seen.

And, the cooling factor in brain damage prevention is becoming more widely known these days. Anna wasn't just a fluke.

What have you seen?

That Wikipedia article, which gives a definition of clinical death, and then talks about how clinical death is survivable.

According to that article, clinical death != warm and dead.

So on the basis of a Wikipedia article and with no further research, you’re now concerned people are harvesting organs when a person could potentially survive?

[0] is the Australian College of Intensive Care guidelines on organ harvesting. There are strict criteria around when a person is considered dead and for organ donation that means brain death.

I’m not sure what you’re worried about, this was easily discoverable - clinical death is not the criteria that is used for the determination of organ donation eligibility

[0] https://csds.qld.edu.au/sdc/Provectus/ELI/Module%202%20-%20O...

> So on the basis of a Wikipedia article and with no further research, you’re now concerned people are harvesting organs when a person could potentially survive?

No, I'm asking a question and having a discussion, and you decided to jump in with your hostile skepticism that's completely unwarranted. Chill out.

If you re read your comments, there is a tone of ‘they’re up to something and it can’t be good’. It’s as far from ‘I’m interested in this topic and would like to have a discussion to learn more’ as a QAnon follower is from a PhD student. I’m not the only one who picked up on it as you can see by the other commenter.

> there is a tone of ‘they’re up to something and it can’t be good’

No, there's a tone of 'exactly how dead is dead'. If you look at the other commenter, sometimes doctors jump the gun.

> far from ‘I’m interested in this topic and would like to have a discussion to learn more’ as a QAnon follower is from a PhD student

Congrats, you've managed to drag in completely unrelated politics.

You're assuming the worst of me. You're comparing me to a Qanon follower, apparently. You're giving (unfounded) credit to a commenter who called me a 'covid vaccine denier'. Seems like you're implying that I'm not acting in good faith.

It's like you're looking for people that fit your preconceptions, and shoehorning me into it. That's prejudice, plain and simple. Chill out.

> No, there's a tone of 'exactly how dead is dead'. If you look at the other commenter, sometimes doctors jump the gun.

No, they don't - you made a misunderstanding which perpetuated a line of questioning which isn't a practical concern. Brain Death + other criteria depending on jurisdiction is a pre-requisite for cadaveric organ donation

As to the rest, you have approached this from the perspective of 'prove to me that X doesn't happen' which is perilously close to that of the antivax/antiscience brigades.

I apologise for thinking the worst of you but I wasn't the only one which perhaps reflects on the approach you have taken in your line of questioning in these highly polarised times

I went back and looked up brain death, and yeah, I made a misunderstanding. Fair enough.

> you have approached this from the perspective of 'prove to me that X doesn't happen'

There's absolutely nothing wrong with that. If I'm thinking of buying a power tool, then 'prove to me that <rapid unplanned disassembly> doesn't happen' is an appropriate tone, and exactly the kind of skeptical questioning that should take place: it's my problem if the problem happens.

I don't care what kind of political climate we're in; you don't get to tell me what kinds of questions I'm not supposed to ask.

Tell me your a covid vaccine denier without telling me your a covid vaccine denier.

>how 'dead' is 'dead', in the context of being an organ donor?

Doctors occasionally jump the gun: https://www.fox6now.com/news/father-accused-in-hours-long-st...

I'm assuming it's that you can get a kidney transplant from a family member who is lying in the OR next to you. Deceased donors are transported from wherever they died.

Non-heartbeat donors can be for corneal, bone and skin grafts

I don't really understand your formulation here. How is your view about the benefit of organ transplantation pessimistic?

Patients living 7 years instead of dying in short order is a pretty good trick for doctors to be working. For pessimism to make sense, there needs to be some better option than that available.

Did you read the original article? The context of this is in regards to dementia.

A dead 40 year old, regardless of whether they had a transplant at 30 or not, is probably not going to have dementia.

There's a reasonable sample of over 65s.

My Dad and I celebrated our 20th kidneyversary this year. The kidney I gave him in 2000 is still going strong (knock wood).

Sirolimus and Tacrolimus are two other common anti-rejection medicines. They were found in Easter Island and Japanese soil samples respectively.

Wild tangent:

Another side effect of cyclosporin is increased hair growth. Every where. I shaved my ears while taking it. I saw women on cyclosporin growing beards.

The person(s) who figure out why will become very rich. Imagine a rogaine (minoxidil) that actually worked.

I've shared this tidbit a few times. I've met (socially) a few people working in pharma. One was even working on hair growth.

I don't think anyone I've told ever believed me. It's so weird how silos increase as knowledge expand.

The other side effects of cyclosporin truly suck. I doubt I'd ever use it off-label, in hopes of saving some brain cells.

But I hope someone can learn from cyclosporin and maybe find alternatives.

> Other articles say that even the obese are eligible for transplantation now. Very impressive.

I would hope that would be before any right-weight candidate had been ruled out. Otherwise it's grossly unfair.

Maybe if obesity resulted merely from character flaws, but clearly there’s something environmental going on.

Nonetheless, would it be unfair to give transplants to manual laborers and motorcycle riders as their chances of dying early are high?

I am not sure I buy into the author's calcineurin/mitochondria hypothesis.

There is a much more direct causal link as auto-immunity has been implicated in AD progression for years, e.g. [1-11]. I can't find the paper right now, but I once saw a very compelling longitudinal study where they regularly measured cognitive performance as well as several immunity markers in older subjects. Basically, every transient increase in antibody levels (IIRC, but they may have been tracking some other marker of immune system activation) was followed by a step decline in cognitive performance.

[1] Lopez (1991) Serum auto-antibodies in Alzheimer's disease

[2] Aisen (1996) Inflammation and Alzheimer disease

[3] D'Andrea (2005) Add Alzheimer’s disease to the list of autoimmune diseases

[4] Carter (2010) Alzheimer's Disease: A Pathogenetic Autoimmune Disorder Caused by Herpes Simplex in a Gene-Dependent Manner

[5] Reddi et al (2011) Autoimmunity in Alzheimer’s disease: increased levels of circulating IgGs binding Aβ and RAGE peptides

[6] Sardi et al (2011) Alzheimer's disease, autoimmunity and inflammation. The good, the bad and the ugly

[7] Marchese (2013) Autoimmune Manifestations in the 3xTg-AD Model of Alzheimer's Disease

[8] Li et al. (2018) Dementia and Alzheimer's disease risks in patients with autoimmune disorders

[9] Arshavski (2020) Alzheimer’s Disease: From Amyloid to Autoimmune Hypothesis

[10] Itzhaki et al (2020) Do infections have a role in the pathogenesis of Alzheimer disease?

[11] Lim et al (2020) Alzheimer Disease Pathogenesis: The Role of Autoimmunity

I absolutely agree with this. My great grandmother had Alzheimers as well as Hidradenitis suppurativa, which I have inherited from her. I switched to a yeast and wheat free diet many years ago to relieve symptoms of HS. Not only did it resolve my HS, but also migraines and many other inflammatory issues. Looks like there is research around Alzheimer's and Dectin-1 signaling which is involved in innate immunity to fungi, including bread yeast (Saccharomyces cerevisiae). It's absolutely insane to me that people eat a pathogen that triggers an innate immune response. A inflammation response to yeast is coded into our cells, if it weren't we'd be killed by unbaked bread. Why then do most processed foods contain it? We're taxing and confusing our immune systems by eating it.

That does not really make sense. Yeast from bread is not really a pathogen. Everything you eat, not just bread, is covered in wild yeast.

Fermented foods, which are largely considered good for heath, are full of yeast.

So you could refine that last bit to

> We're taxing and confusing our immune systems by eating.

if that were truly the case.

> We're taxing and confusing our immune systems by eating.

Well this is not wrong. I'm no expert, but it seems as though not eating (or drinking) would result in less need for inmune system activity, at least in the digestive track. Of course, you'd die, but maybe that was the cost of healthy living all along

Slightly off topic, but if this experiment https://www.thefreshloaf.com/node/37259/mythbusters-grain-ye... is correct, bread yeast is specialized, and doesn't spread by air very well.

I can easily imagine someone with a genetic trait that malforms a single protein could end up with a heritable sensitivity to one particular yeast strain, and not all yeast, everywhere.

This diet is hard to follow because yeast cuts through a lot of foods, especially in fermented foods as you've mentioned. A non-exhaustive list of yeasty foods looks like: Non-distilled vinegars, non-distilled alcohols, dried fruits, naturally-fermented soy sauce, cheese, many savory packaged goods, most vegan meat replacements, some dried spices, bread, etc.

Fermented foods and mushrooms can be good at fighting cancer precisely because they ramp up the immune system. In fact yeast is used as an adjuvant inside of vaccines for this purpose.

What's insane is that it is both known and not known that yeast causes inflammation by science. Used as adjuvant, used to "boost" immunity, yet not understood to be a cause of general low-grade systemic inflammation when in our food supply.

Opportunistic Strains of Saccharomyces cerevisiae: A Potential Risk Sold in Food Products https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4705302/

Most cheese, if not all, doesn't have yeast in it. It's bacteria that ferment it.

Though I guess it will have as much wild yeast land on it as any other food in your plate but I don't think that's what the parent comment was referencing.

Source: I've been involved in small commercial cheese making for years.

Umm, yeast is a common surface flora on many cheeses (probably all natural rind cheeses), and you can in fact buy packets of Debaryomyces Hansenii and Candida Utilis from Danisco specifically for use in cheese. Source: I'm involved in cheesemaking.

So what are you proposing? Trying to avoid everything that might cause an immune system reaction? That will eventually lead to the immune system really running amok...

I'm just saying that a wheat and yeast-free diet has reversed Hidradenitis and many systemic inflammation symptoms for me. In trying to understand _why_ it became clear to me that yeast (and maybe wheat) trigger an inflammatory response in our innate immune system - by design. So it's probably not a good idea to eat yeast unless you want to up-modulate your immune system (inducing inflammation). Even if your body can down-modulate, isn't that just causing a sensitivity imbalance similar to diabetes and glucose?

For example, Dectin-1 is one of many innate cellular receptors that launch inflammatory responses when Bread yeast (and others) is detected (and possibly 1,3 beta glucans from wheat). We are in a genetic war with saccharomyces cerevisia, inside of our DNA. And not just us, all animals need to be in this war, because otherwise we'd die.

https://en.wikipedia.org/wiki/CLEC7A

So if all this is true, does it make sense to put yeast extract in your gravy tonight?

Is there less Alzheimer's in cultures that don't eat bread (e.g. where rice or potatoes are a staple instead)?

Maybe in bread heavy cultures it's not a widespread issue because the majority of people have evolved some kind of resistance?

You tend to get Alzheimer's after you are done having children, so resistance wouldn't evolve.

If that were true humans would die much sooner after becoming infertile.

The fact we stick around for so long is because having healthy grandparents is still beneficial to grandchildrens' survival.

This isn’t a well understood area at all but the idea that yeast / fermented food consumption helps us regulate our immune system in a good way has also been studied.

Yep, it's kind of a double-edged sword. On one hand an over-active immune response can be great for fighting cancers and opportunistic infections possibly. But too much inflammation will wear down our bodies and trigger auto-immune responses.

Sorry, haven’t read these yet, but any antibodies? Like any immune response makes you duller and at greater risk? Eek.

Like I said, I can't find the study right now, and I originally saw the data anywhere between 5-10 years ago. They may also have been measuring some cytokine. Even without AD, memories really aren't reliable over that time span.

The point the authors were trying to make is that if you have AD, any inflammation, even asymptomatic ones, will potentially worsen your cognitive performance. The most interesting feature of that graph was to me that the cognitive performance actually remained fairly constant in between infections/inflammations, and decline was not gradual but in a step-wise fashion.

Also interesting is ISRIB [0,1], which is intended to negate the cognitive impacts of stress memory accumulated over years of immune response, and possibly as a result of TBI as well [2].

[0] https://en.wikipedia.org/wiki/ISRIB

[1] https://doi.org/10.1073/pnas.1815767116

[2] https://doi.org/10.1073/pnas.1707661114

People talk about inflammation vs metabolism. They are linked. Inflammatory signals can turn cellular metabolism up or down.

African sleeping sickness is an infection that results in a person going into a kind of coma. The parasite constantly changes its molecular interface with the host which is supposed to confuse the hosts immune system. This places a huge burden on the immune system and results in the host becoming hungry all the time, despite already being full. These patients will stuff themselves while growing progressively more tired. And eventually they fall asleep permanently. Inflammatory signals slow metabolism or something to that effect and this change in metabolism causes the body to feel as though it’s starved of energy and so the patients feel hunger. Inflammation and metabolism are linked.

A man with schizophrenia was cured after a bone marrow transplant. The New York Times wrote about it recently. Symptoms of age including cognitive decline have been reversed in mice and humans through blood dilution/ blood transfusion probably due to reduction in the concentration of inflammatory molecules in the blood that are produced by ones own body. Inflammation/metabolism is the biggest medical revolution on the horizon. Especially since COVID has made it a grant-worthy topic now and doctors can’t deny that chronic fatigue syndrome is real anymore. It’s funny how all those people who insisted that CFS wasn’t real are now nowhere to be found to answer for their mistake.

> It’s funny how all those people who insisted that CFS wasn’t real are now nowhere to be found to answer for their mistake.

Oh a many of them are still out there. Now pushing CBT and GET as a cure all for Long COVID.

I have direct experience of this. My wife has had long covid for the last year, has had dozens of medical tests, and none of them have showed up anything except for POTS.

I can understand why a neurologist would suggest CBT. All my wife's test results are normal, so the neurologist has no remedies available. People do get psychosomatic illnesses, and in those cases CBT does help. That doesn't mean that my wife has a psychosomatic illness, but there's no test for that either - can't hurt to try

(FWIW this is not the way my wife saw it - she was pretty furious and felt like the neurologist was demeaning her condition)

Your wife is correct to be angry. I can relate to your comment - my gf is likewise suffering from long COVID.

I can also totally understand why a neurologist would suggest CBT, because as you say, they find nothing, and thus have nothing else to offer.

But it's clearly not just psychosomatic, so think-yourself-better like CBT can hurt and will hurt, because it won't work.

Current thinking - among numerous researchers (and fwiw, her specialist) - is that endothelial damage is causing long covid symptoms. There is some progress towards identifying the cause, if not the treatment, yet.

Hope that helps some.

https://www.timesofisrael.com/covid-pieces-that-trigger-stro...

https://academic.oup.com/eurheartj/article/41/32/3038/590115...

https://pubmed.ncbi.nlm.nih.gov/34375505/ https://www.degruyter.com/document/doi/10.1515/labmed-2021-0...

I have hEDS which can cause POTS and had the exact same experience. The Golden Girls covered it over 30 years ago https://www.youtube.com/watch?v=vVyLZTKDy2E and it is still the default response.

From your description I'm pretty sure she is thiamine deficient. Regarding POTS, that's just one of possible manifestations. And I saw more than one occurrence of POTS in people after covid.

They all recovered after B1 in form of TTFD plus supporting therapy.

I said she has long covid, including POTS, and apart from the POTS all medical tests are coming up negative/normal.

You don't know what tests were done, you don't know any of her other symptoms. I don't understand how you can be "pretty sure she is thiamine deficient".

If you are right and she can fix a year of misery by taking an over-the-counter supplement then I will be over the moon, but in order to convince her to try yet another remedy-suggested-by-someone-on-the-internet I'd like to hear more about your diagnosis

>all medical tests are coming up negative/normal

Indicating that this is a neurological problem.

>you don't know any of her other symptoms

I can only imagine as you did not communicate them. But let me guess: fatigue, brain fog, possibly panic attacks, tingling/burning sensations in feet or hands, limbs numbing especially at night, the sensation of suffocation or dissatisfaction with breathing, the sense of a blocked nose while there is no stuff in there, headaches, spatial disorientation, loss of short-term memory, impacted ability to speak and learn new things, GI and cardiovascular issues. All that while having a normal (>= 96%) O2 saturation in the blood.

>I don't understand how you can be "pretty sure she is thiamine deficient".

She may have an acquired mitochondrial dysfunction caused by the oxidative stress induced by the active phase of illness. Which is unfortunately pretty typical for Covid [1] and 30% of survivors will have metabolic and neurological complications as the result, regardless of the severity of the original illness.

This is the first thing to check given the symptoms, but most of neurologists are unaware of it yet. You can do a formal test that checks for that condition: transketolase.

I am also including some materials that might help: [2], [3]

[1] https://journals.physiology.org/doi/full/10.1152/ajpcell.004...

[2] https://www.youtube.com/watch?v=7UOyE-3PbJY

[3] https://www.youtube.com/watch?v=rjVXFqiPDwE

Links?

"Symptoms of age including cognitive decline have been reversed in mice and humans through blood dilution/ blood transfusion probably due to reduction in the concentration of inflammatory molecules in the blood that are produced by ones own body."

There is no probably here. The experiment is real and its results too, but the underlying mechanism is being hotly debated with no clear favorite. One of the competing explanations is dilution of badly folded albumine.

Reduction in Complement 3C seems to be correlated with protection from Alzheimer's in mice[0]. Good news for Lupus patients (who typically have low 3C3).

"Blocking complement function by deleting C3 rescues plaque-associated synapse loss in PS2APP mice and ameliorates neuron loss and brain atrophy in TauP301S mice, improving neurophysiological and behavioral measurements. In addition, C3 protein is elevated in AD patient brains, including at synapses, and levels and processing of C3 are increased in AD patient CSF and correlate with tau."

An earlier cohort study[1] of nearly 100k humans said "Low baseline levels of complement C3 were associated with high risk of AD"

1: https://pubmed.ncbi.nlm.nih.gov/30243924/ 2: https://www.cell.com/cell-reports/pdf/S2211-1247(19)30964-7....

The immune system is a crazy thing about which the medical community knows far less than one would think. There's some fascinating potential in there if it can be well-understood (not just 'hacked').

.. CFS is real? Honest question. I only knew two people diagnosed with it in high school and I would have attributed one to depression and one to a general inability to handle disappointment and thus mope around. Even reading the wikipedia page on it makes it sound like it's not 100% agreed upon as being real.

Or is CFS now an acceptable term for things like 'long COVID' ?

I don't think the framing of "real" or not is useful here - whether it maps to one or many underlying conditions (or even in the IMO unlikely event it always mapped to some other established condition), the symptoms are real for the people diagnosed with it, and unless there's a more useful set of criteria that match, it's reasonable to use as a shared descriptor.

A few years ago, I had a fun experience - all of a sudden, I was absurdly exhausted (not just "tired", but "physically could not reliably get out of bed sometimes") from the time I woke up to the time I went to sleep, independent of how much I was sleeping (or the quality of the sleep), or what I ate, or [...]. I didn't have headaches, or fever, or anything else, I was just perpetually exhausted.

As it turns out, I came back with a suddenly positive mono test where I had never had one before, and once a few weeks passed, it did too. But it gave me some reference for how it feels to be perpetually not just mentally but physically exhausted, with the potential of it never ending (since mono can have permanent repercussions, as someone I know discovered).

I think "post-viral syndrome" is the term getting traction now for "long COVID" and post-mono consequences and the like, but AIUI the criteria are the same save CFS not requiring an infection as a trigger event.

How do you influence inflammation to increase metabolism? Are you saying high inflammation increases cognitive decline?

The statistical prevalence of dementia is absolutely shocking to me... It is bar none one of the worst experiences one can go through. This [0] is an album that is an auditory approximation of it. I sincerely hope for more discourse and research dedicated to understanding, preventing, and treating it.

[0] https://youtu.be/wJWksPWDKOc

An auditory approximation of dementia - what does that even mean?

This is just an album that was inspired by what James Leyland Kirby (The Caretaker) read on dementia. It does not have anything to do with actually experiencing dementia.

You're right, but I think the part that's ostensibly analogous is the slow, progressive decline. Which is something that happens with many chronic illnesses, but the notion of slowly losing your mental capacities is one of the worst kinds of decline.

The music's coherence and form very gradually breaks down in an unsettling way as an abstract metaphor for the neurological dilapidation. It's of course nothing at all like the experience itself, but it's just an attempt to artistically portray it very abstractly and indirectly.

(Side note: I was actually never a fan of this album or its concept after seeing it saturate music forums over the past several years, and all its associated "this album broke me" memes made me consider it pretentious and melodramatic, but the process of writing this post somehow changed my opinion.

I think maybe because I suddenly found myself in the frame of feeling compelled to defend it from what I felt was an overly unfair and dismissive critique and became aware of my own cognitive dissonance. I suppose that's one way HN's stereotypical pessimism and negativity also has some benefit. I could see myself in the mirror of your post and I didn't like what I saw.)

It means it is intended to evoke something approaching the feelings and mindspace associated with dementia.

We have works of art that allude to or generate all sorts of human feelings. While perhaps "the real deal" would be a piece of music written by someone who was actually going through the ordeal themselves it absolutely reminds me of collections of paintings or books created by artists with progressing dementia.

As someone who lost a family member to it, I couldn't stand to listen to much of the album because it is just too on the dot.

Music can help dementia and Alzheimer’s. https://youtu.be/G7vkKHYosuQ

Yes, absolutely! My grandfather, even in the very late stages, could deeply enjoy music from his youth and appeared to regain some lucidity while listening to it.

Is it weird that I was listening to music kind of like this right before clicking on this? https://www.youtube.com/watch?v=aMJyQK4xBUQ

Honestly though I'm sort of loving this music. I'm 29 years old and feel like I have a false nostalgia for this kind of music.

That's cool, thanks for the tip. It's also on Spotify: https://open.spotify.com/show/3YvkqDkpemZOvwSlLbq3c3?si=4e17...

“The Father” is another excellent portrayal of the emotional turmoil.

The irony of ranting about starting with the most interesting part of your thesis for 5 paragraphs, before actually starting.

It's a good way to hide the fact that your thesis is pretty sketchy. Say you have one result that has replication issues, but don't want to appear too crackpotty or dishonest while emphasizing that brilliant result. So you do a little song and dance beforehand.

As an opposing anecdata, my aunt got a heart transplant in the late 70's, is still kicking, but has severe dementia now in her mid 70's.

That would be (most likely) an absolute world record in surviving with a heart transplant. In 2016, someone died with a survival Guinness Record of 33 years [1], your Aunt would exceed that quite far. Current (non-official) US record supposedly is 35 years [2]. I am not saying your are mistaken, just noting that she might be an outlier.

[1] https://www.bbc.com/news/uk-england-beds-bucks-herts-3554369... [2] https://www.wbay.com/2021/06/29/green-bay-man-nations-longes...

Maybe he means just a valve?

There are multiple types of dementia, a woman with known heart disease might have vascular dementia (dementia related to decreased blood flow to the brain). This article is really about alzheimers (although that's not clear from the title, it should probably say "(maybe) don't get alzheimers").

Does she take calcineurin inhibitors?

I have no idea.

Wow - that is an absolutely incredible result for a heart transplant! Very unusual situation. Be interesting to understand the specifics - and the team doing this kind of work!

Wikipedia:

> Calcineurin inhibitors and azathioprine have been linked with post-transplant malignancies and skin cancers in organ transplant recipients. Non-melanoma skin cancer (NMSC) after kidney transplantation is common and can result in significant morbidity and mortality. The results of several studies suggest that calcineurin inhibitors have oncogenic properties mainly linked to the production of cytokines that promote tumor growth, metastasis and angiogenesis.

Bummer

I'm not sure I'd take medical advice from there. Are there no better sources?

Not everyone who needs an organ transplant gets one. So could it be that recipients are privileged in some way that also prevents them getting dementia?

Very nice to read a balanced paper, but a hospital might very well ( and, I think, illegally ) give some transplant people priority. Isn't that what happened to Steve jobs? No one is supposed to jump the queue, but he did. If 'queue jumping' is illegal, and happening at one hospital, I could imagine that as the kind of stunning bias shown in the data, and everyone involved would say it isn't happening

As I recall it he didn't so much "queue jump" as he used his private plane to travel to another state within a specific window of time from where he lived, which most people who lived outside of the transplant state couldn't do. So he was able to get on multiple transplant waiting lists.

Transplants are coordinated regionally. Jobs just purchased homes in multiple areas with shorter wait times than California. One of the advantages of being rich.

Incorrect. You don't have to be rich. I am currently being evaluated for deceased donor transplant outside my home state of California. You just have to register at another center and you are allowed to multi list. Some states have residency requirements but lot of them do not.

You can multi list at different transplant clinics across the country. They just require you to be able to travel quickly on call. Steve Jobs has a private jet so he pick anywhere in the US.

And each type of organ has different priority criteria. Kidneys for example you have a wait time and compatibility score. Liver is by MELD score and how healthy the person it (sick enough to need it but not too sick!)

Also a lot of transplant patients fall under Medicare and are not rich at all.

Also wondering if lifestyle choices of those post-op have anything to do with this. i.e. better diet, exercise, etc.

Theory. People who take immune suppressing drugs have less dementia. Perhaps undiagnosed autoimmune conditions are a cause / trigger for dementia.

My experience. Had out of control undiagnosed autoimmune condition.

Started developing major dementia.

Eventually (20 years) got autoimmune diagnosed and under control. Also started blood thinners. Dementia resolved quickly.

It's not just you that has a theory around this, if you view allergies around histamine as autoimmune conditions:

Here's some pseudoscience, you may also find the parent comment interesting.

https://news.ycombinator.com/item?id=27993001

These stats are only useful if we know how many people get dementia in the first place.

What are the chances of a random control group of 14 over 85 year olds also not getting dementia?

If it's very common, and you would usually expect 7 of them to develop dementia, then 0 cases in the test group is potentially impressive. If it's quite rare and you would usually expect only one of the control group to get dementia, then it's not that impressive that the test group had 0, and easily down to chance

That's what the first image in the article is purporting to show (~33% of people in the general population over 85 have dementia)

Ha of course it does, thanks :) I don't know why I didn't see that

so we could expect about 5 people with dementia in that control group, and the test group got 0, so not bad

That is a tiny sample.

As a liver transplant recipient (7.5 years out), I find how transplant patients are stereotyped in this somewhat informal article a bit misleading.

First, transplants are about as close to a life-changing miracle as you can imagine. By which I mean night and day change for a reasonable subset of patients. The fact that we now have anything like access to interchangeable parts that can let people live extremely normal lives is absolutely remarkable. Before transplant there were times when I was too weak to walk. One month after transplant I could walk a mile, three months after five miles.

There is zero question I'd be dead by now without my transplant. I might have lived a year or so more with my old one, but it would have been an unpredictable high-wire act between GI bleeds, encephalopathy, coma, and fear that any simple action might trigger an emergency trip to the emergency room. Internal bleeding and encephalopathy put my in a coma for three days and, when I came out, this PhD computer scientist couldn't remember my own kids' names. Now I'm writing this. I am simply so fortunate to be able to have this second chance in life.

As for the misleading parts, "Organ transplant patients are, by their nature, sick patients." Yes, but that's why they get transplants. Many get better. Look at livers. Viral hepatitis (in my case, Hep C) is one of the most common reasons for liver transplant. But we can cure Hep C. I was one of the first people cured before transplant with Gilead's Hep C antivirals. The new liver fixed my cirrhosis. Now I get sick less often than my kids, and my life is extremely normal except for a couple pills a day (tacrolimus) and lab tests every three months. I was a mild hemophiliac, and that was cured by the new liver as well.

If you looked at my lab tests, besides a low platelet count, I would look perfectly normal. And especially for livers, which deal with processing a lot of foreign substances in the body, so it probably more tolerant than other organs, the lifespan on them may be quite long. Older liver transplant patients can sometimes even drop their immunosuppressants completely.

So, for people who have curable diseases, the health of a transplant patient can be quite good, potentially better than their peers. There's no specific reason they as a single less healthy class (as opposed to a set of classes, which also includes people who abuse alcohol or have diseases we can't cure).

To answer some other questions in the discussion, the transplant process tries hard to keep someone from being able to literally buy their way onto the transplant list. For livers, priority of transplant goes by a lab test called MELD which estimates 90 day mortality. You have to be sicker than other people but healthy enough not to waste an organ. It's a fairly macabre competition.

There are, however, advantages to those with means. In the US, organ transplant is administered nationally but organs are still basically allocated regionally. If you can travel to another region in the country with a surplus of organs, you can get a transplant sooner. I did it. It saved my life.

You also need to go through a battery of tests to make sure you are, basically, a good host for the rare organ. In general you have to stop substance abuse. You need to lose weight. You need to take a physical which can disqualify you. You need to have a social support mechanism to help take care of you after surgery (in the hospital, after discharge, and long term).

Finally, you need to have insurance that will cover the potentially million dollar surgery and and complications that might follow. And that means there's another hidden process that happens in the insurance company to assess whether you're a good risk or not.

Most of those conditions strictly require wealth. All of them benefit from it, especially access to health care. On the other hand, it isn't clear that access to health care is strongly correlated with an absence of dementia, is it?

It is very difficult to engineer animals with symptoms mimicking human dementia so they can effectively be trialed with drugs before testing on people.

This is the exact reason dementia / Alzheimer’s research is littered with dozens of high-profile failed clinical trials; after billions and decades poured into this area and nothing to show.

I would be interested to see non-murine, primate-based(?) clinical findings before I get my hopes up again. We have seen this pattern too many times; a compelling agent, pathway, or signaling mechanism is found, targeted, and shows great promise in mice, even sometimes in primates. And once we get to human trials it fails because we cannot replicate dementia accurately in these test vehicles.

I'm not seeing much mention of diet and gut biome in these comments, over the last decade they're linking satisfactorily the gut to so many different ailments in later life, including Alzheimer's and dementia. Additionally studies are linking diet/gut Flora to stuff like autism, some inflammatory diseases, etc.

If I was born 15 years later I'd probably have gone into that field of study as it probably makes the most fiscal sense - from a national medicine standpoint - to combat these disorders and diseases at the actual source.

I wonder if there's been a metastudy on the median lifespan going up and incidence of these cognitive or neurological disorders. That is, now that humans on average are living longer, perhaps our diets are more important; and with his knowledge we can get some enhancements on regulations from the FDA or something.

This is unfortunately almost certainly bunk. There is a large selection and survivorship bias. To be an 85+ yo and be alive with an organ transplant you have to be pretty special. That generally means you have kept your transplant for at least 30 years and survived the early days of suboptimal immunosuppressants and perioperative care. Also transplant recipients are managed very carefully by their physicians, who constantly tweak their medication, blood pressure, blood sugar etc. Also people who manage to live with their transplants for long periods are presumably highly selected for diligence, education, wealth, compliance, mental health etc.

It'd be nice to take out the clickbaity "here's why" from the title.

My nose suspects the system (TU) was triaging agaisnt dementia, somehow, and the author didn't notice.

Next study, designed for comparing transplantation correlation to dementia, should use a dementia scale before and after the trasplant.

The article is not a scientific paper. I hope scientific papers were so honest about conflict of interest and autocritic as this author is in this article.

This is an interesting pop-science read, but who is Trevor Klee? As far as I can tell, he's a college exam tutor who's written a few "how to pass the GRE" booklets. He's writing about trying to start a biomedical business around this idea, but if his LinkedIn is accurate, he's never had a job beyond tutoring college students. His list of "failed projects," linked to from the blog, contains a bunch of similar biomed business ideas, none of which have anything at all to do with each other on a technical level ("Using RNAi for agriculture", "Exploring ketamine for blood pressure").

This basically reads as "I got a masters in molecular bio, have never worked in the field, and want you to give me money for my next crackpot idea". That doesn't mean the idea is wrong, but this guy isn't the one who's gonna make it happen.

This is quite the display of unnecessary credentialism. It’s a blog. A nicely-designed and seemingly useful one at that (I’m finding this post on IBS to be a handy summary and pointer to studies: https://trevorklee.com/a-complete-guide-to-self-diagnosing-a...).

From what I can tell, this is a humble, curious, and well-meaning guy that funds his menagerie of research interests with a successful tutoring business (a noble career in and of itself). I see absolutely no need to frame him as an unworthy crank.

I don't think the parent was taking much issue with the blog posts or the fact that he's a tutor. I think it's his previous companies, plus this paragraph from the post:

> So, first of all, the confession: I’m not a neutral observer here. In talking about this paper, I’m talking my own book. My company, Highway Pharmaceuticals, is currently raising funds to get a safer, easier to use, extended-release version of cyclosporine, the most common calcineurin inhibitor, into first-in-human trials. If this paper is correct, investors should probably consider throwing money at me.

Yes, this. I enjoyed the blog post. It was an easy read, the idea is intriguing, it linked to a related paper. I found the plug for the company mildly offputting, and decided to see if the author was someone actively working in this space.

I don't think anyone needs credentials to have an interesting idea, but it's laughable that someone with no lab or research or business experience is an actual player in this space. I guess people can invest in him if they want. The idea that he's fundraising for human trials is laughable.

As they say, ideas are easy. Execution is hard.

I don’t know much about how the biotech industry works, but are you saying that he should “work in the field” before pitching this idea? In software that would be almost laughed at as a suggestion, if the idea is indeed promising.

>In software that would be almost laughed at as a suggestion

yes because we don't care if our software breaks every five minutes and if its clobbered together by people who have no idea what they're doing because 99% of the time it's just consumer gadgets anyway. If you deal with technologies that affect people's health that's not really how things work, or in any other serious engineering discipline.

If the semiconductor or aeronautics industry would work like the software industry your computer wouldn't boot up and the planes would double their fuel consumption every year

>yes because we don't care if our software breaks every five minutes and if its clobbered together by people who have no idea what they're doing because 99% of the time it's just consumer gadgets anyway. If you deal with technologies that affect people's health that's not really how things work, or in any other serious engineering discipline.

Yeah, you're not really gonna get away with an "oopsie woopsie!! we made a widdle fucky wucky! our elves are working vewy hard to fix this!" after you kill a few people due to negligence.

No, in software terms, he's saying that is somebody comes and tells you "Software that has enough spaces, never crashes", and he "happens" to be selling the "Extra-spaces-adder" IDE, then maybe don't believe him...

And how many times have you been faced with "I have this great idea, I just need a few programmers to build it"?

I wouldn't put it quite like that, but....

It would be hard to overstate how complicated the nervous and immune systems are. On top of the biology, the provision of medical care is also absurdly complex: there are all sorts of biases in how patients are treated, some of which turn into feedback loops. An early heart transplant might stave off vascular dementia, while a patient with severe dementia might not be eligible for transplants at all.

It is certainly possible for a new person to notice something that people already working in the field have missed. At the same time, domain knowledge is worth a lot, especially when trying to figure out if a relationship seen in messy, observational data is real. I'd be skeptical either way, but collaborating with a more established team would help a little bit.

I don't think that software, in general, has quite so many foot-guns laying around. However, people do give similar advice for cryptography and (sometimes) machine learning because those fields do offer a number of subtle ways to really foul things up.

Anybody asking me for money to cure Alzheimer’s I just at this point assume is Theranos 2.0. There are plenty of well informed life sciences investors with very deep pockets.

Yeah I’d be as likely to buy a magical anti-dementia rock as invest in this.

I'm surprised the author does not mention taking steps to verify the "unique University of Texas protocol" hypothesis. It really looks like the most probable alternative explanation, and it doesn't seem very difficult for someone already in the medical industry to get in touch with one of the people there who could be able to verify it. Maybe I'm missing something ?

> Maybe I'm missing something ?

I'm afraid it appears so.

The article says they contacted the authors of both publications but haven't got a response back yet. Relevant bit:

"For my own part, I’ve contacted authors of both papers, but haven’t received substantive responses from either. I’ll update this post when/if I do."

It's like the consolation prize/participation ribbon of major operation.

Congrats, your kidney's been replaced and you'll have to be on immunosuppressants for the rest of your life, but at least you won't get dementia.

Related: Type 3 Diabetes https://en.wikipedia.org/wiki/Type_3_diabetes

Could it be that patients with early stage dementia are somewhat less likely to ask for or receive transplants?

Results aside, I give this article points for clear and persuasive writing!

So we think it's because of the immunosuppression then?

I thought it'd be too much in the weeds. The UTexas paper goes into their prescribing data and comes out with the conclusion that calcineurin inhibitors are the only common factor in their patients who don't get dementia.

Rapamycin also does not have any evidence of efficacy on neurodegeneration, while there's evidence for CNI on other forms of neurodegeneration.

What are the side-effects of calcineurin inhibitors ?

Cyclosporine has some very serious long-term toxicity (especially renal dysfunction and hypertension) and the availability of newer biologic agents has restricted the use of cyclosporine to patients who have not responded to conventional treatment.

  *Mild tremor is common with both cyclosporine and tacrolimus use, occurring in 35 to 55 percent of patients [ 79,80 ].
  *Rarely, patients develop severe headache, visual abnormalities, and seizures. This syndrome is associated with acute hypertension and resembles hypertensive encephalopathy [ 77 ]. 
  *Posterior leukoencephalopathy is usually seen on brain imaging [ 82 ].
  *Cyclosporine may contribute to bone loss after organ transplantation [ 88 ]; this effect may be due to the induction of high bone turnover. 
  *Cyclosporine can cause hyperkalemia and hypomagnesemia, via effects on renal tubular function. Hyperuricemia and exacerbation of gout are well-described with cyclosporine.

[77]. Schwartz RB, Bravo SM, Klufas RA, et al. Cyclosporine neurotoxicity and its relationship to hypertensive encephalopathy: CT and MR findings in 16 cases. AJR Am J Roentgenol 1995; 165:627.

[78]. Eidelman BH, Abu-Elmagd K, Wilson J, et al. Neurologic complications of FK 506. Transplant Proc 1991; 23:3175.

[79]. Randomised trial comparing tacrolimus (FK506) and cyclosporin in prevention of liver allograft rejection. European FK506 Multicentre Liver Study Group. Lancet 1994; 344:423.

[80]. A comparison of tacrolimus (FK 506) and cyclosporine for immunosuppression in liver transplantation. The U.S. Multicenter FK506 Liver Study Group. N Engl J Med 1994; 331:1110.

[81]. Wijdicks EF, Wiesner RH, Krom RA. Neurotoxicity in liver transplant recipients with cyclosporine immunosuppression. Neurology 1995; 45:1962.

Apples & oranges

Correlation.

Are you're implying that there is a third factor that both reduces risk of dementia by 10x and increases risk of kidney failure by 10x? I think that's highly unlikely.

Or theoretically getting dementia a decade later could protect against organ failure a decade earlier.

But I really don't think that's it. If this data is right there is probably an effect. I agree with the author that the mostly likely reason this isn't true is because of bad data.

Two things I would want to dig into:

- How are the patients selected for transplants? Scarce organs are probably not given to patients who have other serious impairments as well.

- How were the (non)-dementia patients assessed? No formal diagnosis of dementia != no dementia.

> - How are the patients selected for transplants? Scarce organs are probably not given to patients who have other serious impairments as well.

Even though being healthy helps move you up the list of organ transplant recipients. It would still be really strange if people who got organ transplants were healthier than the general population, who mostly do not need organ transplants.

>- How were the (non)-dementia patients assessed? No formal diagnosis of dementia != no dementia.

But it would be weird if organ transplant recipients were 10x less likely to get a diagnosis of dementia (assuming the same base rates). I would think because of their heavy interaction with the healthcare system they'd have a high rate of diagnosis.

Autoimmune issues may fit that bill in people with the right genetics. They can cause and/or contribute to CKD, which could push someone into kidney failure with other insults (eg dehydration), and can also contribute to dementia.

That would give us the opposite result, higher rates of dementia among organ transplants. It would have to be something that causes kidney failure, but prevents dementia.

How so? The autoimmunity would contribute to kidney failure when unchecked, and after failure and transplant, immunosuppressive meds would reduce the chances of developing dementia related to autoimmunity.

But according to this study, organ transplant patients have a much lower risk of dementia compared to the general population, not just people who have autoimmune diseases.

It could be that autoimmune activity/genetics, even if it doesn't result in a specific disease, contributes to certain aspects of dementia.

Take Celiac disease as an example. It only affects ~1% of the population, but ~30% of the population has the two genes (HLA-DQ2 and DQ8) that are most strongly associated with it and those genes are also associated with other autoimmune diseases.

There are similar thoughts with respect to the hygiene hypothesis and autoimmune/immune-related disease.

https://en.wikipedia.org/wiki/Hygiene_hypothesis#Overview

Other diseases, like Parkinson's, are also associated with autoimmune diseases. I suspect that there's some trade-off with respect to the effectiveness of the immune system/how well it deals with infections/cancer and the incidence of certain diseases/pathologies, but it's not something that's as straightforward as we would like it to be.

Firstly yes, they are already suggesting it a correlation -- people who get transplants get given certain drugs which (might) stop you getting dementia.

Secondly, even if the corrolation is caused by another effect, whatever it is it's a REALLY strong corrolation, so we should find out what it is!

It's an immunosuppressant, and it seems like the mechanism of action is preventing brain cell death. You'd have to be pretty old to benefit at all, and you're risking potentially fatal infection to maybe possibly get some nootropic effects. I really wouldn't risk it if I were you.

Dementia can't be cured. Best we can hope for is preventing it. So, meds agaisnt dementia will have the highest impact on populations without overt dementia

To add to what everyone else said: it's not just an immunosuppressant, it's an immunosuppressant with unpredictable, severe side effects. It's really interesting, and I hope to reformulate it to make it possible for healthy people to use, but you will cause severe damage to yourself if you self-administer.

Are you looking for any kind of help besides funding?

> 3. There’s something different about how the University of Texas hospital administers calcineurin inhibitors vs. the average hospital.

> This is entirely possible. Calcineurin inhibitors are dangerous and difficult to administer correctly,

I know nothing about this drug... but probably not a good idea..

Given that it suppresses organ rejection, my untrained speculation is that it might make you more prone to cancer.

Yes, per https://www.ncbi.nlm.nih.gov/books/NBK304321/

> There is sufficient evidence in humans for the carcinogenicity of ciclosporin. Ciclosporin causes cancer of the skin (squamous cell carcinoma), cancer at multiple other sites, and non-Hodgkin lymphoma.

This also would be a hell of a stretch but the reference to the study about pigs getting hit on the head having less brain damage, maybe something in the future along these lines would be a drug football players could take during their career.

According to my Facebook feed, All I need is to replace my immune system with Invermectin and Colloidal Silver and I’ll be fine.