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Thymus rejuvenation efforts

thymus rejuvenation

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#1 Florin

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Posted 03 September 2014 - 06:17 PM


Currently, three organizations are trying to rejuvenate the thymus: Intervene Immune, the SENS Research Foundation, and ThymiStem.

 

Intervene Immune is using HGH and DHEA to regrow the thymus. Greg Fahy, who is associated with this company, claims that he has regrown his thymus according to MRI scans. His level of good, naive T-cells has also increased. Fahy used DHEA to counteract concerns about cancer and problems with insulin function associated with HGH use. Intervene Immune is seeking men between 50 and 65 years old, in good health, with low cancer risk, and who have not used HGH before for its Thymus Regeneration, Immunorestoration, and Insulin Mitigation Trial (TRIIM). To join this trial, contact fahy [at] interveneimmune.com.

 

http://www.interveneimmune.com
http://www.brighterb...tensin-salon-14

 

The SENS Research Foundation is using a tissue engineering technique in which cells reseed tissue scaffolds to build a new thymus. A partial thymus has been built. Once a full thymus is built, it will be tested in mice.

 

http://www.sens.org/...oss-and-atrophy
http://www.sens.org/...Report 2013.pdf

 

ThymiStem is a EU-funded, $8 million, four-year project (2013 to 2017) consisting of a consortium of nine international research teams focused on thymus regeneration. The recent news about thymus rejuvenation via upregulating the FOXN1 gene of cells in the aged mouse thymus and growing a new thymus in mice from transplanted, FOXN1-reprogrammed cells is a direct result of this collaboration.

 

http://www.thymistem.org
http://www.thymistem.org/our-work
http://www.thymistem...news-and-events
http://www.longecity...ncreased-foxn1/
https://www.fightagi...eered-cells.php


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#2 Florin

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Posted 15 September 2014 - 08:29 PM

The NIA is also studying the effect of HGH on the immune system of healthy adults in a clinical trial (NCT00663611) that will end in December.

 

One worrying sign about the HGH approach is that clinical trials (e.g., NCT0071240, NCT00287677, NCT00119769, NCT00050921) on the effect of HGH on the immunity of AIDS patients have not reported their results despite the fact that these trials ended more than five years ago, and there have been no new trials of this kind AFAIK.

 

http://www.clinicaltrials.gov


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#3 Matt79

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Posted 23 March 2016 - 05:34 AM

Very interesting. I myself am considering experimenting with Thymus regrowth. I think it shows promise.

 

 

The NIA is also studying the effect of HGH on the immune system of healthy adults in a clinical trial (NCT00663611) that will end in December.

 

One worrying sign about the HGH approach is that clinical trials (e.g., NCT0071240, NCT00287677, NCT00119769, NCT00050921) on the effect of HGH on the immunity of AIDS patients have not reported their results despite the fact that these trials ended more than five years ago, and there have been no new trials of this kind AFAIK.

 

http://www.clinicaltrials.gov

 

Non-reports are mostly due to unremarkable findings, or therapies that show little or no positive benefit.



#4 Logic

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Posted 23 March 2016 - 07:23 PM

...However, the transcriptional control of Foxn1 expression has not been elucidated. Here we report that secreted Wnt glycoproteins, expressed by thymic epithelial cells and thymocytes, regulate epithelial Foxn1 expression in both autocrine and paracrine fashions. Wnt molecules therefore provide regulatory signals critical for thymic function...

http://www.ncbi.nlm....pubmed/12379851

 

...One way to upregulate WNT signalling is by suppressing DKK1 with L-Threonate...

http://www.longecity...t-upregulation/

 

Lithium is a therapeutic agent commonly used to treat bipolar disorder and its beneficial effects are thought to be due to a combination of activation of the Wnt/beta-catenin pathway via inhibition of glycogen synthase kinase-3beta and depletion of the inositol pool via inhibition of the inositol monophosphatase-1. We demonstrated that lithium in primary endothelial cells induced an increase in mitochondrial mass leading to an increase in ATP production without any significant change in mitochondrial efficiency. This increase in mitochondrial mass was associated with an increase in the mRNA levels of mitochondrial biogenesis transcription factors: nuclear respiratory factor-1 and -2beta, as well as mitochondrial transcription factors A and B2, which lead to the coordinated upregulation of oxidative phosphorylation components encoded by either the nuclear or mitochondrial genome. These effects of lithium on mitochondrial biogenesis were independent of the inhibition of glycogen synthase kinase-3beta and independent of inositol depletion. Also, expression of the coactivator PGC-1alpha was increased, whereas expression of the coactivator PRC was not affected. Lithium treatment rapidly induced a decrease in activating Akt-Ser473 phosphorylation and inhibitory Forkhead box class O (FOXO1)-Thr24 phosphorylation, as well as an increase in activating c-AMP responsive element binding (CREB)-Ser133 phosphorylation, two mechanisms known to control PGC-1alpha expression. Together, our results show that lithium induces mitochondrial biogenesis via CREB/PGC-1alpha and FOXO1/PGC-1alpha cascades, which highlight the pleiotropic effects of lithium and reveal also novel beneficial effects via preservation of mitochondrial functions.

http://www.ncbi.nlm....pubmed/17451429


Edited by Logic, 23 March 2016 - 07:44 PM.


#5 Nate-2004

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Posted 03 October 2016 - 05:56 PM

What's going on with this trial? What are the results? Is the trial ended?



#6 Florin

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Posted 03 October 2016 - 07:21 PM

The NIH is funding several projects that seek to restore the function of the thymus using non-HGH methods.

 

DEVELOPMENT AND MAINTENANCE OF THYMIC EPITHELIAL MICROENVIRONMENTS
http://projectreport...cfm?aid=8697010

 

IL-22 IN THYMIC REGENERATION
https://projectrepor...cfm?aid=8843347

 

A NOVEL THYMIC IMPLANT STRATEGY TO INDUCE T CELL RECONSTITUTION AND IMMUNE TOLERANCE FOR PATIENTS WITH COMPLETE DIGEORGE SYNDROME
https://projectrepor...cfm?aid=8954287

 

STRATEGIES TO ENHANCE THYMUS-INDEPENDENT T CELL DEVELOPMENT IN CANCER PATIENTS
http://projectreport...cfm?aid=8891380

 

INDUCTION OF ALLOGENEIC TOLERANCE WITH BIOENGINEERED THYMUS ORGANOIDS
https://projectrepor...cfm?aid=9082794

 

Bioengineering Thymus Organoids to Restore Thymic Function and Induce Donor-Specific Immune Tolerance to Allografts. (also seems to be at least partly NIH-funded)
https://www.ncbi.nlm...pubmed/25903472


Edited by Florin Clapa, 03 October 2016 - 07:28 PM.

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#7 albedo

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Posted 01 March 2018 - 11:48 AM

Same question as Nate above. Does someone know if Greg Fahy's results of the HGH + DHEA trial have been published. About the how soon in a recent (Oct. 2017) interview he said:

 

"...I’m not sure about soon, but certainly, as soon as we can. This will be a complicated paper with lots of authors and lots of data to present, but also with top-tier academic co-authors who can help us go through the scientific review process quickly. In any case, we certainly want to make sure that any novel results are shared with the broader medical and scientific communities..."

https://www.leafscie...ing-the-thymus/

 

And what's about the FOXN1 upregulation?



#8 sthira

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Posted 01 March 2018 - 01:50 PM

My guess would be that delays and the slow pace are the result from funding deficiencies -- like much of the efforts to improve people's lives and extend lifespan. You can't do science without money to do science, and no one wants to pay for science that hasn't already been done, the infinite loop keeps predictably looping away..... From your linked article it looks like they're attempting two studies to regenerate the human (not mouse) thymus; I wonder if these volunteer subjects paid for their own participation? Probably had to...

Regrowing the thymus looks interesting to me, since the thymus is so important for the human immune system and it begins to atrophy between the ages of 20-40 until it's "involuted." Human growth hormone is shown regrow the human thymus -- this is what they're testing? HGH administration is obnoxiously tricky, though, because despite its benefits to humans, the downside risks are also pretty big -- include increases in serum insulin levels. Elevated insulin, in turn, is linked to the development of atherosclerosis, hypertension, and heart disease... I think they're trying to mitigate the sides from HGH by using DHEA.

It's exciting science, and a shame that we don't live in a better world that encourages the science of slowing down aging and age related diseases. That's changing, drip, drop...one. day. at. a. .....time..... What's that quote that science progresses corpse by corpse? Something like that -- dead body by dead body...
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#9 Nate-2004

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Posted 01 March 2018 - 01:55 PM

I would love to know the methods they used. Did they inject HGH directly into the thymus or just anywhere? How much? Also how much DHEA was used? How long was the treatment? I guess we have to wait for the publication?


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#10 sthira

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Posted 01 March 2018 - 02:05 PM

I would love to know the methods they used. Did they inject HGH directly into the thymus or just anywhere? How much? Also how much DHEA was used? How long was the treatment? I guess we have to wait for the publication?


If the second cohort began in April 2017, and the study tests HGH with DHEA to regrow the thymus during one year, then they might be concluding in April 2018?

To measure if the thymus was indeed regrowing, I reckon they'd need imaging. It's exciting!

#11 albedo

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Posted 01 March 2018 - 02:51 PM

Next to the HGH + DHEA also very promising is the FOXN1 up regulation, see here and here which I would feel more comfortable with to try because of real HGH long term sides. But how? FOXN1 is a transcription factor which in mice, when isolated from young mice glands and then introduced in old, has been shown to stimulate the thymus regrowth, see here. Are there drugs being in trial?

 

See also Josh Mitteldorf's post:

 

"1. Thymus Regrowth with FOXN1

The thymus gland is a time bomb that would kill us at a certain age, if nothing else got us first.  It shrinks (the medical word is “involution”) gradually through life, beginning in childhood and culminating in disastrous results in old age.

The thymus is a small gland located just behind the top of the breastbone.  Among your white blood cells, your first-defense cells are the T-cells, named for their association with the thymus.  The thymus is training ground for the T-cells, where they learn to distinguish friend from foe.  The body has many types of cells, and the T-cells must not attack any of them; but they also must reliably identify invading microbes.

These immune functions are related to many aspects of health, and not just attacking invasive microbes.  The immune system is continually eliminating errant, pre-cancerous cells before they can become cancers, as well as cells in the body that have been taken over by a viral infection.  Rampant inflammation and auto-immune disorders are the consequence when the immune system begins to turn against self late in life.

As the thymus shrinks year by year, the immune system breaks down.  A 90-year-old thymus may be one tenth the size it was in the bloom of childhood, and this goes a long way toward explaining the vulnerability of older people to viral infections that would not be serious for a young person.  Arthritis is well-characterized as an auto-immune disease, but there are auto-immune aspects of other diseases including Alzheimer’s

There is good reason to think that if we can preserve or even regrow the shrinking thymus, then there will be benefits that echo through many or all the diseases of old age.  Human growth hormone has been used with some success, but reactions to HGH vary, and there is reason to worry about its long-term effects.  There is a recent breakthrough in treatment for the thymus that looks very promising.  A transcription factor is a coded chemical signal capable of switching the expression of many genes at once, turning some on and others off in one sweep.  FOXN1 is a transcription factor that has been isolated from the thymus of young mice, and by re-introducing it to old mice, a Scottish research team succeeded in consistently stimulating the thymus to regrow [ref].  The larger thymus looked and functioned much like the thymus of a young mouse.

The most glaring absence in the blood as we age is naive T-cells, cells that are not pre-trained to fight any specific infection from the past, but are primed to look out for new invaders.  So it is most promising that the thymus glands regenerated with FOXN1 produced copious naive T cells.

In the Scottish experiments, mice were genetically engineered with extra copies of the FOXN1 gene that could be turned on with a drug as trigger.  You and I don’t have these extra copies, so we need another means to get FOXN1 into our aging thymi.  FOXN1 is not something we can take in a pill, because it is a large protein molecule that is routinely chopped up for recycling during digestion.  A research group at University of Texas is injecting little snippets of DNA (called plasmids) containing the FOXN1 gene directly into the thymus with some success [ref].  Turning on the cell’s own FOXN1 gene would be ideal, and there are already candidates that can do this.  There is no reason to doubt the feasibility of FOXN1 drugs, but for now we have only rumors that they are under development."

https://joshmitteldo...og.com/2014/11/


Edited by albedo, 01 March 2018 - 03:04 PM.


#12 sthira

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Posted 01 March 2018 - 04:14 PM

I would love to know the methods they used. Did they inject HGH directly into the thymus or just anywhere? How much? Also how much DHEA was used? How long was the treatment? I guess we have to wait for the publication?

If the second cohort began in April 2017, and the study tests HGH with DHEA to regrow the thymus during one year, then they might be concluding in April 2018?

To measure if the thymus was indeed regrowing, I reckon they'd need imaging. It's exciting!

Maybe the studies were only six-months in length, since HGH has around six months of sustainabilities? Nate, I'm just assuming HGH was injected -- wonder if that's painful.... So guessing it's only a six month treatment, maybe they're crunching data now? The paradox is growing the thymus with HGH without damaging the body with insulin resistance perhaps (?)

Arginine is purportedly a HGH releaser in humans, but probably comes with sides similar to HGH injections. Fasting for >3-5 days also supposedly increases HGH without the nasty blood sugar effects -- but to study fasting is strictly a no-no, of course, because then who will get rich? Plus, everyone tells us no one will abstain from food because it's too hard. On the other hand I seriously doubt arginine and fasting would be targeted well enough to jumpstart thymus growth. Who knows... We wait.

#13 ceridwen

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Posted 01 March 2018 - 05:13 PM

If it did. It would be a well known fact by now as loads of people fast.

#14 sthira

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Posted 01 March 2018 - 05:45 PM

If it did. It would be a well known fact by now as loads of people fast.


I agree, and plus "we" don't even "know" if "fasting" does increase "HGH" since the last time "we" studied it was >9,000 years ago when Jesus fasted before undergoing his intense confrontation with Satan. Maybe the right wing evangelicals would fund a fasting study to see its effects upon HGH? Did Jesus' Human God Hormone increase as a direct result of His 40 days of fasting in the desert? Seems they'd like to know. Fasting might slowly diminish His fat cells (isn't this what the thymus becomes as it degenerates, even in the Lord -- fatty tissue?) but then the thing has to regrow again -- resurrect the thymus -- and well, more prayer, broccoli and blueberries during refeeding probably won't do.

Sorry. Here are two fasting and HGH studies from less biblical times:

Ho KY, Veldhuis JD, Johnson ML, Furlanetto R, Evans WS, Alberti KG, Thorner MO: Fasting enhances growth hormone secretion and amplifies the complex rhythms of growth hormone secretion in man. J Clin Invest 81: 968 -975, 1988

Hartman ML, Veldhuis JD, Johnson ML, Lee M, Alberti KG, Samojlik E, Thorner MO: Augmented growth hormone (GH) secretory burst frequency and amplitude mediate enhanced GH secretion during a two-day fast in normal men. J Clin Endocrinol Metab 74: 757 -765, 1992CrossRefPubMedWeb of Science

We -- all of us -- indeed want to regrow our shrunken thymuses (thymusi?). My guess is the thymus is a huge factor in slowing human aging; but you'd think if Greg Fahy's studies were showing big results that word might leak out...

#15 Nate-2004

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Posted 01 March 2018 - 07:23 PM

I'm definitely more interested in the FOXN1 approach, though I would love to know the specific methods used with HGH. There surely must be some kind of strong activators of FOXN1 hidden somewhere in nature already, but perhaps a drug can be developed, or at least a CRISPR/CAS9 approach.

 

On the other hand it is a protein so perhaps there's some way to either synthesize or extract it in order to inject it in sufficient amounts required to regrow the thymus.


Edited by Nate-2004, 01 March 2018 - 07:26 PM.


#16 Rocket

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Posted 05 March 2018 - 02:31 AM

I would love to know the methods they used. Did they inject HGH directly into the thymus or just anywhere? How much? Also how much DHEA was used? How long was the treatment? I guess we have to wait for the publication?


HGH is subq. Lol. Inject into the thymus? Ouch!!! The DHEA dose was not high from what i recall in the patent. I am not going to look it up but I want to say around 50mg daily. Someone will correct me.
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#17 YOLF

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Posted 07 March 2018 - 03:39 AM

 

I would love to know the methods they used. Did they inject HGH directly into the thymus or just anywhere? How much? Also how much DHEA was used? How long was the treatment? I guess we have to wait for the publication?


HGH is subq. Lol. Inject into the thymus? Ouch!!! The DHEA dose was not high from what i recall in the patent. I am not going to look it up but I want to say around 50mg daily. Someone will correct me.

 

Important to note is what level you need to achieve. DHEA is sold in doses of as little as 5mg for a reason. A young person doesn't  need that much and can get side effects from taking too much. If the dose given to the cohort was 50mg, they must have been aged 50-60. At least that's my guess. It still only took me 5mg of DHEA to greatly improve my hand/eye accuracy (reason it's banned in some professional sports) When 5 was good and I tried 50 in my late twenties, I would get pains and redness in my eyes which means 50mg is an overdose for someone of that age. 


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#18 Nate-2004

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Posted 07 March 2018 - 04:08 AM

 

 

I would love to know the methods they used. Did they inject HGH directly into the thymus or just anywhere? How much? Also how much DHEA was used? How long was the treatment? I guess we have to wait for the publication?


HGH is subq. Lol. Inject into the thymus? Ouch!!! The DHEA dose was not high from what i recall in the patent. I am not going to look it up but I want to say around 50mg daily. Someone will correct me.

 

Important to note is what level you need to achieve. DHEA is sold in doses of as little as 5mg for a reason. A young person doesn't  need that much and can get side effects from taking too much. If the dose given to the cohort was 50mg, they must have been aged 50-60. At least that's my guess. It still only took me 5mg of DHEA to greatly improve my hand/eye accuracy (reason it's banned in some professional sports) When 5 was good and I tried 50 in my late twenties, I would get pains and redness in my eyes which means 50mg is an overdose for someone of that age. 

 

I take 25 to 50 at 43 and it seems fine. I'm more curious about dosing GH and regenerating the thymus.


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#19 YOLF

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Posted 07 March 2018 - 04:17 AM

Still, getting correct dosing will be important, otherwise you start getting into risks. I'm sure your doctor will point you in the right direction, but for everyone else, age is a factor in optimum dosing.


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#20 Nate-2004

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Posted 07 March 2018 - 02:45 PM

I also don't take it every single day, partly because I forget to but also because it's in powder form and I can never be sure exactly how much I'm getting but it's somewhere between 25 and 50. 

 



#21 Rocket

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Posted 08 March 2018 - 02:37 AM

I would love to know the methods they used. Did they inject HGH directly into the thymus or just anywhere? How much? Also how much DHEA was used? How long was the treatment? I guess we have to wait for the publication?

HGH is subq. Lol. Inject into the thymus? Ouch!!! The DHEA dose was not high from what i recall in the patent. I am not going to look it up but I want to say around 50mg daily. Someone will correct me.
Important to note is what level you need to achieve. DHEA is sold in doses of as little as 5mg for a reason. A young person doesn't need that much and can get side effects from taking too much. If the dose given to the cohort was 50mg, they must have been aged 50-60. At least that's my guess. It still only took me 5mg of DHEA to greatly improve my hand/eye accuracy (reason it's banned in some professional sports) When 5 was good and I tried 50 in my late twenties, I would get pains and redness in my eyes which means 50mg is an overdose for someone of that age.
I take 25 to 50 at 43 and it seems fine. I'm more curious about dosing GH and regenerating the thymus.

Be careful with DHEA. I do a lot of blood tests and I noticed a correlation in DHEA and higher estrogen. As any good bodybuilder will tell you, testosterone converts to E. DHEA being precursor hormone can raise your E.

Its important to get blood work done when you're playing with hormones... I won't run DHEA without small amounts of E blockers.

As far as how much GH to regrow the the thymus, likely you just need youthful levels again as your mid 20s before the big fall off we suffer from. I am guessing 4 to 5iu daily from anecdotal hearsay.... Assuming your underground GH is dosed correctly. Better move to Mexico or England where hormones aren't classified the same as cocaine and heroine. Only in the good old USA.
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#22 albedo

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Posted 08 March 2018 - 09:15 AM

 

Be careful with DHEA. I do a lot of blood tests and I noticed a correlation in DHEA and higher estrogen. As any good bodybuilder will tell you, testosterone converts to E. DHEA being precursor hormone can raise your E.

Its important to get blood work done when you're playing with hormones... I won't run DHEA without small amounts of E blockers.

As far as how much GH to regrow the the thymus, likely you just need youthful levels again as your mid 20s before the big fall off we suffer from. I am guessing 4 to 5iu daily from anecdotal hearsay.... Assuming your underground GH is dosed correctly. Better move to Mexico or England where hormones aren't classified the same as cocaine and heroine. Only in the good old USA.

 

 

I agree and also test often but could not notice systematically a rise on E2 when I supplement with DHEA (always deficient if I do not not supplement). In general the trend is always DHEA down and E2 slightly rising (between 50 and 60 yo).

 

When I use DHEA I use pomegranate extracts because of ellagic acid and chrysin as aromatase inhibitors. What do you do?

 

Re GH, I look at IGF-1. Any comment on that?

 

I am trying to find more results on Greg Fahy's trials and will post them here.
 


Edited by albedo, 08 March 2018 - 09:17 AM.


#23 Nate-2004

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Posted 08 March 2018 - 04:36 PM

 

As far as how much GH to regrow the the thymus, likely you just need youthful levels again as your mid 20s before the big fall off we suffer from. I am guessing 4 to 5iu daily from anecdotal hearsay.... Assuming your underground GH is dosed correctly. Better move to Mexico or England where hormones aren't classified the same as cocaine and heroine. Only in the good old USA.

 

 

Right but the question is how much are *they* using? How often? For how long?



#24 Infinite1

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Posted 08 March 2018 - 06:35 PM

I'm surprised how MK-677 hasn't been brought up as a potential alternative to pinning HGH, assuming that systemic "non-local" increases also would offer benefit. 



#25 Nate-2004

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Posted 08 March 2018 - 07:22 PM

Actually it has. I don't think naturally induced growth hormone whether through exercise, fasting or sauna use can really meet the levels that we were at in our 20s, or more accurately the levels required to regrow a thymus in our 40's. I also don't know to what degree that MK-677 actually boosts growth hormone, there just isn't enough clinical research on it and it's a grey market item currently.



#26 sthira

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Posted 08 March 2018 - 08:10 PM

Transcriptome Analysis of the Thymus in Short-Term Calorie-Restricted Mice Using RNA-seq.

Omeroğlu Ulu Z, Ulu S, Dogan S, Guvenc Tuna B, Ozdemir Ozgenturk N.
Int J Genomics. 2018 Feb 4;2018:7647980. doi: 10.1155/2018/7647980. eCollection 2018.
PMID: 29511668

Abstract

Calorie restriction (CR), which is a factor that expands lifespan and an important player in immune response, is an effective protective method against cancer development. Thymus, which plays a critical role in the development of the immune system, reacts to nutrition deficiency quickly. RNA-seq-based transcriptome sequencing was performed to thymus tissues of MMTV-TGF-α mice subjected to ad libitum (AL), chronic calorie restriction (CCR), and intermittent calorie restriction (ICR) diets in this study. Three cDNA libraries were sequenced using Illumina HiSeq™ 4000 to produce 100 base pair-end reads. On average, 105 million clean reads were mapped and in total 6091 significantly differentially expressed genes (DEGs) were identified (p < 0.05). These DEGs were clustered into Gene Ontology (GO) categories. The expression pattern revealed by RNA-seq was validated by quantitative real-time PCR (qPCR) analysis of four important genes, which are leptin, ghrelin, Igf1, and adinopectin. RNA-seq data has been deposited in NCBI Gene Expression Omnibus (GEO) database (GSE95371). We report the use of RNA sequencing to find DEGs that are affected by different feeding regimes in the thymus.
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#27 sthira

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Posted 08 March 2018 - 09:40 PM

This also looks hopeful:

http://onlinelibrary...0F1C2E68.f01t02

Major features of immunesenescence, including reduced thymic output, are ameliorated by high levels of physical activity in adulthood


Summary

It is widely accepted that aging is accompanied by remodelling of the immune system including thymic atrophy and increased frequency of senescent T cells, leading to immune compromise. However, physical activity, which influences immunity but declines dramatically with age, is not considered in this literature. We assessed immune profiles in 125 adults (55–79 years) who had maintained a high level of physical activity (cycling) for much of their adult lives, 75 age-matched older adults and 55 young adults not involved in regular exercise. The frequency of naïve T cells and recent thymic emigrants (RTE) were both higher in cyclists compared with inactive elders, and RTE frequency in cyclists was no different to young adults. Compared with their less active counterparts, the cyclists had significantly higher serum levels of the thymoprotective cytokine IL-7 and lower IL-6, which promotes thymic atrophy. Cyclists also showed additional evidence of reduced immunesenescence, namely lower Th17 polarization and higher B regulatory cell frequency than inactive elders. Physical activity did not protect against all aspects of immunesenescence: CD28−veCD57+ve senescent CD8 T-cell frequency did not differ between cyclists and inactive elders. We conclude that many features of immunesenescence may be driven by reduced physical activity with age.
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#28 Mind

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Posted 08 March 2018 - 11:46 PM

Maybe just exercise more: http://www.longecity...munosenescence/

 

...until better biotech arrives.


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#29 Robert Seitz

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Posted 09 March 2018 - 05:16 AM

I was struck by the photo of  82-year-old Norman Lazarus on the front page of the BBC article. He looks almost like a dead ringer for Patrick Stewart ("Captain Jean-Luc Picard"), and he looks to me as though he's 45 or 50. ( O course, it could be "Q's" handiwork(:-)) I noticed the youthful appearance of long-time members of the Calorie Restriction Society. The husband of one of the CR women mentioned that when they embarked upon calorie restriction many years ago, his wife's sister appeared to be about the same age as his wife. Now his wife's sister looks like his wife's aunt.



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#30 Nate-2004

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Posted 09 March 2018 - 01:17 PM

In every picture I find him in on Google he looks maybe 70, not 45 or 50.


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