My HGH stem test results... not good

I finally had a stem test done to see what kind of levels of HGH my body was producing, hoping if it was a little low like my testosterone levels are I could get it supplemented by prescription... Just found out my body produces no natural HGH now at age 32 and test levels were still around 180. Now Im on this stuff for life and doesnt feel so cool like I thought it would. Five years ago I know my test levels were normal and assumed my hgh was normal to with the gains I got. Ive done a few cycles over the years never more than 650 mg of test a week also no longer than 10-12 wks also did three months of hgh at 4 iu per day last spring. Surely my novice dosages wouldnt shut me down like that for the rest of my life would it?

Bump, good questions

for test, no. As far as gh, im not sure.

I wouldn't think 4iu would shut you down completely. If you want to boost your own GH levels, there's always the GHRP peptides, CJC-1295, etc. You can also get a lot out of arginine and ornithine (amino acids) supplementation when taken at night.

During the test they gave me an iv with arginine in it to force my body to produce and it still didn't do anything. So I get the feeling from the doc that natural is not gonna cut it anymore. Now I'm just waiting for the hgh supplier to negotiate with my insurance.

i can guarantee you that your usage of exogenous rHGH at a dosage of a mere 4IUs daily is not what shut down your endogenous production completely. It is simply your genetics, which I know is sad. However, there is so much you can do to get your production of HGH and all downstream metabolites through the roof. Here is a truncated list of some (not all) of your options:

1. rHGH
2. GHB before bed
3. CJC-1295
4. GHRP-2,6
5. IGF-1 LR3
6. MGF
7. Arginine Supplementation

This is a very short list. I currently combine many different elements off of this list, because my own endogenous production is quite low. It will take you 3 months to start seeing results with exogenous rHGH, which will peak in effect around the 6 month mark. I think you should simply run a replacement dose for the rest of your life of 5IU daily. Then also supplement it with things that will increase your body's natural production (like #2, 3,4), as well as administering exogenous downstream metabolites (#5, 6). I think you will be very satisfied, and in fact you will have the best results of your life since you have identified the problem which probably is what caused your gains to plateau. Now all that is left to do is address the problem and watch for the evidence of successful treatmeant (aka incredible lean mass gains and fat loss).

Best of luck !

Igf-1 is more or less anti-GH....wouldn't recomned that with low GH levels...

Plang said:

Igf-1 is more or less anti-GH....wouldn't recomned that with low GH levels...

Click to expand...

Whaaaaaat?

Bumping this up I really don't understand how IGF is "anti-GH?"

Plang said:

Igf-1 is more or less anti-GH....wouldn't recomned that with low GH levels...

Click to expand...

IGF is converted from HGH, so it really isn't anti-GH. Insulin is antagonistic to GH so in a sense, that would be like an anti-GH.

Local124bro said:

During the test they gave me an iv with arginine in it to force my body to produce and it still didn't do anything. So I get the feeling from the doc that natural is not gonna cut it anymore. Now I'm just waiting for the hgh supplier to negotiate with my insurance.

Click to expand...

Interesting test. The test I normally hear about is that they give you a huge dose of insulin, and that is supposed to trigger a GH release. I've never heard of an IV with arginine. I wanted them to do the test for me, but my endo at the time wouldn't do it. A different doc agreed with me however and prescribed me serostim. Ins won't cover it though because it is an injectable (stupid not to cover something just because it's injectable), so it would cost around $9,000 to fill the prescription. It's far cheaper to find a good GH supplier out there and just buy it yourself.

Anti-GH was a poor choice of words...but high igf-1 levels are inhibitory on gh synthesis...hence why we keep ghrp/ghrh doses away from igf-1 admin....and well respected researcher an basically pioneer if ghrp bbing application Datbtrue even recomends dosing gh or ghrp/ghrh together with insulin


Copyright © 2005 by The Endocrine Society
Testosterone Blunts Feedback Inhibition of Growth Hormone Secretion by Experimentally Elevated Insulin-Like Growth Factor-I Concentrations
Johannes D. Veldhuis, Stacey M. Anderson, Ali Iranmanesh and Cyril Y. Bowers
Endocrine Research Unit (J.D.V.), Mayo School of Graduate Medical Education,

The present study tests the hypothesis that a high dose of testosterone (Te) drives GH and IGF-I production, in part, by blunting autonegative feedback by the end-product peptide. To this end, we infused saline or recombinant human IGF-I (10 µg/kg·h iv for 6 h) in seven healthy men ages 51–72 yr after administration of placebo (Pl) and Te in randomized order. GH release was quantitated fasting before and after injection of GHRH (1 µg/kg). Statistical analyses disclosed that Te vs. Pl: 1) increased the mean concentration of GH from 0.15 ± 0.045 to 0.48 ± 0.11 µg/liter (P = 0.007) and IGF-I from 108 ± 5.0 to 124 ± 4.1 (P = 0.047) without altering GHRH-induced GH release; 2) elevated the GH nadir from 0.13 ± 0.03 to 0.23 ± 0.06 µg/liter (P < 0.05) in the control session and from 0.06 ± 0.02 to 0.14 ± 0.04 µg/liter (P = 0.038) during IGF-I infusion; 3) augmented GHRH-stimulated GH release from 3.0 ± 0.56 (Pl) to 3.7 ± 0.52 µg/liter (Te) (P < 0.05) during IGF-I infusion; and 4) did not influence estimated IGF-I kinetics.
In summary, supplementation of a high dose of Te in middle-aged and older men attenuates IGF-I feedback-dependent inhibition of nadir and peak GH secretion. Both effects of Te differ from those reported recently for estradiol in postmenopausal women. Accordingly, we postulate that Te and estrogen modulate IGF-I negative feedback differentially.

Testosterone Supplementation in Older Men Restrains Insulin-Like Growth Factor’s Dose-Dependent Feedback Inhibition of Pulsatile Growth Hormone Secretion, Johannes D. Veldhuis, Daniel M. Keenan, Joy N. Bailey, Adenborduin Adeniji, John M. Miles, Remberto Paulo, Mihaela Cosma and Cacia Soares-Welch,The Journal of Clinical Endocrinology & Metabolism Vol. 94, No. 1 246-254, 2009

Background: Pulsatile GH secretion declines in older men. The causal mechanisms are unknown. Candidates include deficient feedforward (stimulation) by endogenous secretagogues and excessive feedback (inhibition) by GH or IGF-I due to age and/or relative hypoandrogenemia.

Hypothesis: Testosterone (T) supplementation in healthy older men will restrain negative feedback by systemic concentrations of IGF-I.

Subjects: Twenty-four healthy men (ages, 50 to 75 yr; body mass index, 24 to 30 kg/m2) participated in the study.

Methods: We performed a prospectively randomized, double-blind, placebo-controlled assessment of the impact of pharmacological T supplementation on GH responses to randomly ordered separate-day injections of recombinant human IGF-I doses of 0, 1.0, 1.5, and 2.0 mg/m2.

Analysis: Deconvolution and approximate entropy analyses of pulsatile, basal, and entropic (pattern-sensitive) modes of GH secretion were conducted.

Results: Recombinant human IGF-I injections 1) elevated mean and peak serum IGF-I concentrations dose-dependently (both P < 0.001); 2) suppressed pulsatile GH secretion (P = 0.003), burst mass (P = 0.025), burst number (P = 0.005), interpulse variability (P = 0.032), and basal GH secretion (P = 0.009); and 3) increased secretory pattern regularity (P = 0.020). T administration did not alter experimentally controlled IGF-I concentrations, but it elevated mean GH concentrations (P = 0.015) and stimulated pulsatile GH secretion (frequency P = 0.037, mass per burst P = 0.038). Compared with placebo, T attenuated exogenous IGF-I’s inhibition of GH secretory-burst mass (P < 0.038) without restoring pulse number, basal secretion, or pattern regularity.

Conclusion: The capability of systemic T to mute IGF-I feedback on pulsatile GH secretion suggests a novel mechanism for augmenting GH production.

Later tonight I'll post the studies showing 5-7ius of insulin actually increases GH receptor sensitivity...but more decreases...so basically we are both right

And just so u don't think I'm a study posting wanna be...I'm not gigantic...but I have overcome "hardainer genetics" through both ass busting work at the gym and the table...but with an intelligent science based approach

saudades said:

Interesting test. The test I normally hear about is that they give you a huge dose of insulin, and that is supposed to trigger a GH release. I've never heard of an IV with arginine. I wanted them to do the test for me, but my endo at the time wouldn't do it. A different doc agreed with me however and prescribed me serostim. Ins won't cover it though because it is an injectable (stupid not to cover something just because it's injectable), so it would cost around $9,000 to fill the prescription. It's far cheaper to find a good GH supplier out there and just buy it yourself.

Click to expand...

They chose arginine because it's a little safer and I could leave the office right away when done. You might check your insurance on the injectable thing, I just changed mine where I used to get my test cyp for $5 and my new one said it was not covered because it's an injectable and it's $90 now but we researched it and found out my insurance has it's own specialty pharmacy where you can get injectables covered. It's through tons of hoops and crap to make it hard to find so you don't get the coverage.

Found it...from ProM....
Quote:
Originally Posted by weltweite;
I'm wondering how much insulin is needed over what duration of time to reduce translocation of GH receptors to the cell membrane. I understand there are a lot of variables to answering that question, but thought id put my thoughts down in words.
...
To me it sounds like there is a good synergism between a long acting cjc and a long acting insulin, but wouldn't that go down the drain if insulin caused these issues with the GH receptors and the STAT5b pathway.
You asked a very good question.

From: Insulin Regulation of Human Hepatic Growth Hormone Receptors: Divergent Effects on Biosynthesis and Surface Translocation, Kin-Chuen Leung, Nathan Doyle, Mercedes Ballesteros, Michael J. Waters, And Ken K. Y. Ho, The Journal of Clinical Endocrinology & Metabolism 2000 Vol. 85 No. 12 4712-4720

In the study they recognized the importance of insulin and how it interacts with growth hormone, specifically highlighting that "insulin is essential for GH stimulation of IGF-I production and growth."

They then focused on the results of their study. They found that:

- Insulin up-regulated total and intracellular GH-receptors in a concentration-dependent manner.

- The abundance of GHR messenger ribonucleic acid and protein, ... respectively, markedly increased with insulin treatment.

[So the more insulin that was used the more biosynthesis or creation of GH-receptors that occurred. Now these receptors while abundant were not necessarily moved to the surface of the cell nor where they activated. Just a pool of GHRs was created.]
CAVEAT: Parts of the GH-Receptor can move to the nucleus and mediate gene expression. See the wonderful post that follows on "Growth Hormone Receptor structure, post-biogenesis behavior and degradation"
- It increased surface GHRs in a biphasic manner, with a peak response at 10 nmol/L, and modulated GH-induced Janus kinase-2 phosphorylation in parallel with expression of surface GHRs.

[So insulin increases the number of GH-receptors that make it to the cell surface AND increase the "intensity" of activation...but up to a point. After that point is reached insulin begins to hinder both the number of GH-receptors and "intensity" of activation"]

To quote from the study on this point:
Insulin induced a concentration-dependent increase in GHR biosynthesis, but simultaneously inhibited surface translocation. However, the net effect of reducing receptor surface availability only occurred at concentrations greater than 10 nmol/L, a concentration causing 70% inhibition of surface translocation. These data suggest that up-regulation of surface GHRs can occur with as little as 30% of intracellular receptors available for translocation to the cell surface. At concentrations above 10 nmol/L, the inhibitory effect of insulin on surface translocation overrides the compensatory effect of a 4- to 5-fold increase in receptor biosynthesis.
[So this means that insulin increases GH-receptors by 400-500% but that as insulin rises it reduces the number of those GH-receptors that make it to the surface and are active. There is a point at which insulin begins to reduce the benefit of this GH-receptor creation. That point is 10 nmol/L of insulin. Just prior to that point insulin has inhibited substantially the translocation of GH-Receptors but the increased quantity made up for it and created an overall net benefit.]

So the problem becomes how to translate that pivot point (10 nmol/L) into a number we can use.

From: Correspondence Letter Regarding Article by von Lewinski et al, "Insulin Causes [Ca2+]i-Dependent and [Ca2+]i-Independent Positive Inotropic Effects in Failing Human Myocardium", Chih-Hsueng Hsu, MD; Cheng-I Lin, PhD; Jeng Wei, MD, Circulation. 2005;112:e367
...we find that "3 IU/L, equivalent to 20 nmol/L" ...so 10 nmol/L is equivalent to 1.5 IU/L

From Wiki Answers http://wiki.answers.com/Q/How_many_l...an_beings_have

...we find that humans have 5-6 litres of blood in general.

So 5 x 1.5 = 7.5IU
So 6 x 1.5 = 9IU
Therefore the point at which the amount of insulin in plasma becomes a negative rather then a positive is approximately 7.5 to 9 IUs.

So to arrive at a net benefit an insulin amount below that threshold point such as 5-6 ius is desirable.

Plang said:

Anti-GH was a poor choice of words...but high igf-1 levels are inhibitory on gh synthesis...hence why we keep ghrp/ghrh doses away from igf-1 admin....and well respected researcher an basically pioneer if ghrp bbing application Datbtrue even recomends dosing gh or ghrp/ghrh together with insulin


Copyright © 2005 by The Endocrine Society
Testosterone Blunts Feedback Inhibition of Growth Hormone Secretion by Experimentally Elevated Insulin-Like Growth Factor-I Concentrations
Johannes D. Veldhuis, Stacey M. Anderson, Ali Iranmanesh and Cyril Y. Bowers
Endocrine Research Unit (J.D.V.), Mayo School of Graduate Medical Education,

The present study tests the hypothesis that a high dose of testosterone (Te) drives GH and IGF-I production, in part, by blunting autonegative feedback by the end-product peptide. To this end, we infused saline or recombinant human IGF-I (10 µg/kg·h iv for 6 h) in seven healthy men ages 51–72 yr after administration of placebo (Pl) and Te in randomized order. GH release was quantitated fasting before and after injection of GHRH (1 µg/kg). Statistical analyses disclosed that Te vs. Pl: 1) increased the mean concentration of GH from 0.15 ± 0.045 to 0.48 ± 0.11 µg/liter (P = 0.007) and IGF-I from 108 ± 5.0 to 124 ± 4.1 (P = 0.047) without altering GHRH-induced GH release; 2) elevated the GH nadir from 0.13 ± 0.03 to 0.23 ± 0.06 µg/liter (P < 0.05) in the control session and from 0.06 ± 0.02 to 0.14 ± 0.04 µg/liter (P = 0.038) during IGF-I infusion; 3) augmented GHRH-stimulated GH release from 3.0 ± 0.56 (Pl) to 3.7 ± 0.52 µg/liter (Te) (P < 0.05) during IGF-I infusion; and 4) did not influence estimated IGF-I kinetics.
In summary, supplementation of a high dose of Te in middle-aged and older men attenuates IGF-I feedback-dependent inhibition of nadir and peak GH secretion. Both effects of Te differ from those reported recently for estradiol in postmenopausal women. Accordingly, we postulate that Te and estrogen modulate IGF-I negative feedback differentially.

Click to expand...

Ah, that's what you were trying to say. Yes, this is true, and the reverse is also true. They both inhibit each other through the same feedback loop.

Exactly...I'm not exactly a wordsmith...ha ha...especially since I'm 2 weeks out an taking halotestin I come off like a prick sometimes online...I really think one can run igf-1 indefinitely as long as u are using either peptides (ghrp/ghrh) and/or gh...basically turning one off and the other on....timing is important IMO

Local124bro said:

They chose arginine because it's a little safer and I could leave the office right away when done. You might check your insurance on the injectable thing, I just changed mine where I used to get my test cyp for $5 and my new one said it was not covered because it's an injectable and it's $90 now but we researched it and found out my insurance has it's own specialty pharmacy where you can get injectables covered. It's through tons of hoops and crap to make it hard to find so you don't get the coverage.

Click to expand...

Ah, that makes sense.

Yeah, I know the whole "jump through a hoop" thing with the insurance. I used to get mine for $10 until the ins plan was modified by the ins company as to what they would cover when our company renewed for the next year. Now it's covered under a different part of the plan that contains a deductible so it costs me full price the first couple of times around, then the cost goes down as I fulfill the deductible. It's really stupid though because it's something that you need medically, and they're making it hard to get. If you can't afford it then, they're essentially decreasing your quality of life all because of their policies so they can make money.