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Originally posted by @dliftstok on TikTok · 308s|Watch on TikTok
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Auto-generated transcript of @dliftstok's video. Quoted here for educational fact-check commentary; original creator retains all rights to the video content.

  1. 0:00Today, I'm going to walk you guys through how to properly reconstitute IJF1LR3.
  2. 0:05This is strictly for educational purposes only.
  3. 0:08This is a peptide that tends to gel a lot.
  4. 0:10So I'm going to show you a ratio that you can use if you want to reconstitute it.
  5. 0:14What we're going to do, we're going to need our bacteria of static water.
  6. 0:17We're going to need acetic acid right here.
  7. 0:19As you can see this is from Alpha Omega and they do actually batch test this to make sure
  8. 0:23it is what it says it is.
  9. 0:25And we have our peptide from Alpha Omega.
  10. 0:27First thing we're going to do is we're going to pop the caps of everything that's new.
  11. 0:30I already used this HOSPIR backwater before.
  12. 0:33So that one doesn't have a cap but these other two do.
  13. 0:36We're going to grab our alcohol wipe, rip this guy open and we're going to wipe down
  14. 0:40each of these tops.
  15. 0:42So top of the backwater, nice and easy.
  16. 0:45You see the acid and then also the peptide itself.
  17. 0:50This is important to keep a sterile environment.
  18. 0:52Overall, you should always be doing this every single time.
  19. 0:55And then we have a little three abouts, ridge.
  20. 0:58We only need like a one ML one, but I just didn't have it on me.
  21. 1:01So we're just going to be using this one instead.
  22. 1:06First thing we're going to do with these lower locks, we are going to turn all the way
  23. 1:08to the right to make sure this is nice and locked in and then pull out.
  24. 1:13First thing we'll add in is the HOSPIR backwater.
  25. 1:16We are going to go right in and we already alcohol wipe this.
  26. 1:19So go in here, boom, we are going to draw one ML.
  27. 1:24What we're going to do is we're going to do one ML of each one ML of backwater and one
  28. 1:28ML of a seed gusset.
  29. 1:30This should come out nice and easy, just like so.
  30. 1:32We're going to pull down to that one ML mark, pull a little bit past it and then let any
  31. 1:38air kind of suck back up.
  32. 1:41So that's where my stopper is.
  33. 1:42I'll show you.
  34. 1:43We have a couple of air bubbles right at the bottom.
  35. 1:45So what we're going to do is just pull back and flick any of them to the top and then
  36. 1:49we can push back up.
  37. 1:51It's okay if some of this squirts out just like that.
  38. 1:54Boom.
  39. 1:55And then we are going to add this directly into the peptide.
  40. 1:58So you want to be careful, especially with these, a lot of pressure gets applied.
  41. 2:01So when we're going in, we're going to go right in the center, right there.
  42. 2:04A little circular thing.
  43. 2:06If you hit the rubber stopper, that's okay.
  44. 2:08You're just going to pull it out and do it again.
  45. 2:11So boom.
  46. 2:12We're going to let this draw in nice and slowly.
  47. 2:14As you can see, that already went in.
  48. 2:18Pull this guy out.
  49. 2:19First thing we're going to do, we're going to mix like normal.
  50. 2:22Back and forth for a little bit.
  51. 2:29And then I never use the same one to go into the acetic acid or the backwater.
  52. 2:34So what I have over here are some regular ones.
  53. 2:37These are the .5 mLs, 50 units.
  54. 2:40So I will do two of these for the acetic acid.
  55. 2:43So we're going to wipe this down.
  56. 2:46Grab a little 50 unit one.
  57. 2:48Like I said, you're just going to have to do this twice, which is a little bit different.
  58. 2:52So go right into the acetic acid.
  59. 2:54We're going to draw.
  60. 2:56If you see the gasket comes out a little bit smoother and a little bit easier.
  61. 3:00So boom.
  62. 3:01Down to the 50 units.
  63. 3:04Push up.
  64. 3:05Make sure I wipe the top every time just in case.
  65. 3:10This is already starting to mix a little bit, but we're going to go back in.
  66. 3:14Boom.
  67. 3:15This is what I want to show you.
  68. 3:17Nice and slow.
  69. 3:18Sometimes the vacuum will pull all the way.
  70. 3:20Some of these are nitrogen sealed.
  71. 3:21Some are vacuum sealed.
  72. 3:23So that's why you might see a little bit of a difference.
  73. 3:25We're just going to kind of keep mixing as we're adding this stuff in.
  74. 3:28And like I said, we're going to do a one mL to one mL ratio for this one milligram.
  75. 3:33So let's wipe down these tops one more time.
  76. 3:37We're going to add in the final 50 units and we should be good to go.
  77. 3:41So like I said, directly in the center there.
  78. 3:46Boom.
  79. 3:49Pull all the way back.
  80. 3:50See the gasket is super nice to come out compared to everything else.
  81. 3:56The mark perfect.
  82. 4:01And we're going into the IGF the last time.
  83. 4:06Nice and slow.
  84. 4:07Just adding this guy in.
  85. 4:09The more water the easier it is to mix, especially with this ratio.
  86. 4:12It'll last you a lot longer than the fridge.
  87. 4:14This is one that tends to gel just like an AOD.
  88. 4:17I've also seen some people report Tess Morellen, but I've never had issues with that one.
  89. 4:22This is just the ratio I saw.
  90. 4:24I wanted to make this video for you guys.
  91. 4:26So we're just going to keep going back and forth.
  92. 4:31Do a little tip.
  93. 4:32So if we get any on the top or anything like that, this one's kind of hard to see.
  94. 4:37You can see it did clear up.
  95. 4:39There are some air bubbles just because I did this kind of quick.
  96. 4:41Those should diminish within like five minutes of you putting it in the fridge.
  97. 4:45But overall, that's just how you mix it.
  98. 4:47You can see the little air bubbles on top.
  99. 4:48It is clear though.
  100. 4:50So none of the powder is stuck or anything like that.
  101. 4:52You're good to go.
  102. 4:53You can put this in the fridge.
  103. 4:54I'd leave it.
  104. 4:55Let it sit for 15 to 20 minutes.
  105. 4:57Let all those air bubbles go away.
  106. 4:59Put it right in the holder right in the fridge.
  107. 5:01And that's all you have to do.
  108. 5:02One ml backwater, one ml of the seed gusset.
  109. 5:05That's how you do IGF-1 LR3, one ml gram.

@dliftstok's IGF1-LR3 reconstitution tutorial fact-checked

DLifts

TikTok creator

65.7K viewsWatch on TikTok

Quick answer

IGF-1 LR3 is a synthetic, research-grade elongated analog of insulin-like growth factor 1, not approved by the FDA for human therapeutic use. This video demonstrates reconstitution using acetic acid and bacteriostatic water to prevent peptide gelation, a technique with partial biochemical support, but the unspecified acid concentration and absence of any risk disclosure represent meaningful gaps for a compound with documented hypoglycemia risk and theoretical mitogenic effects. Anyone considering IGF-1 analogs should do so only under physician supervision with full metabolic and oncologic screening.

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Viral claims can miss contraindications, dose escalation, medication interactions, and quality-control risks.

This page currently connects to 6 source-backed evidence items through visible references or structured citation data.

PubMed evidence trail

Research sources used to frame this page

For @dliftstok's IGF1-LR3 reconstitution tutorial fact-checked, FormBlends checks the page topic against primary trials, systematic reviews, guidelines, and current PubMed-indexed literature where available. These citations are context, not medical advice, proof of eligibility, or a claim that every study applies to every patient.

ReviewGrowth-hormone peptide evidence1998

Ipamorelin, the first selective growth hormone secretagogue

Background source for ipamorelin selectivity and GH-secretagogue mechanism.

PubMed

ReviewGrowth-hormone peptide evidence2001

The growth hormone secretagogue ipamorelin counteracts glucocorticoid-induced decrease in bone formation

Preclinical context that should not be overstated as consumer clinical evidence.

PubMed

Systematic reviewObesity pharmacotherapy evidence2025

Emerging pharmacotherapies for obesity: A systematic review

Broad context for new and established obesity-drug categories.

PubMed

ReviewObesity pharmacotherapy evidence2026

Glucagon-like receptor agonists and next-generation incretin-based medications

Current review for incretin-based obesity medications and cardiometabolic effects.

PubMed

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This FormBlends review is specific to "@dliftstok's IGF1-LR3 reconstitution tutorial fact-checked" from DLifts. We read the clip as a Peptide social video fact-checks claim about Peptide social video fact-checks, then separate the useful signal from what a short social video cannot prove. The page-specific claim focus is: IGF-1 LR3 is a synthetic, research-grade elongated analog of insulin-like growth factor 1, not approved by the FDA for human therapeutic use.

The reason this review is not generic is the source wording and the canonical claim label "peptides how to reconstitute igf1 lr3 education tutorial no gelling." In this clip, the useful excerpt is: "Today, I'm going to walk you guys through how to properly reconstitute IJF1LR3." That wording changes the review because it points to Peptide social video fact-checks evidence, safety, and patient-fit context, not a one-size-fits-all protocol.

The source trail for this page is checked against Ipamorelin, the first selective growth hormone secretagogue (1998), The growth hormone secretagogue ipamorelin counteracts glucocorticoid-induced decrease in bone formation (2001), and Influence of chronic treatment with the growth hormone secretagogue Ipamorelin (2002), plus the creator's own wording. Peptide social video fact-checks decisions still need an eligibility review, medication-interaction screen, access check, and quality-control review before anyone treats a social clip as medical advice.

Dilute acetic acid does improve solubility for acidic peptides with isoelectric points near pH 5.
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IGF-1 LR3 is a synthetic, research-grade elongated analog of insulin-like growth factor 1, not approved by the FDA for human therapeutic use.

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What it helps with

  • IGF-1 LR3 is a synthetic, research-grade elongated analog of insulin-like growth factor 1, not approved by the FDA for human therapeutic use. This video demonstrates reconstitution using acetic acid and bacteriostatic water to prevent peptide gelation, a technique with partial biochemical support, but the unspecified acid concentration and absence of any risk disclosure represent meaningful gaps for a compound with documented hypoglycemia risk and theoretical mitogenic effects. Anyone considering IGF-1 analogs should do so only under physician supervision with full metabolic and oncologic screening.
  • IGF-1 LR3 is not FDA-approved for human use and is explicitly prohibited by WADA; any use outside a supervised research or clinical context carries regulatory and health risk.
  • Dilute acetic acid does improve solubility for acidic peptides with isoelectric points near pH 5.5, but research protocols typically specify 0.1% concentration, not unspecified commercial-grade acid diluted 1:1.

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What You'll Learn

  • IGF-1 LR3 is not FDA-approved for human use and is explicitly prohibited by WADA; any use outside a supervised research or clinical context carries regulatory and health risk.
  • Dilute acetic acid does improve solubility for acidic peptides with isoelectric points near pH 5.5, but research protocols typically specify 0.1% concentration, not unspecified commercial-grade acid diluted 1:1.
  • Renehan et al. (2012, Lancet Oncology) found statistically significant associations between elevated IGF-1 signaling and increased cancer risk, a relevant consideration for anyone amplifying this pathway exogenously.
  • Berteau et al. (2015, International Journal of Pharmaceutics) identified final solution pH as a primary driver of subcutaneous injection-site reactions, making acid concentration a safety-relevant variable this video does not address.
  • IGF-1 LR3 has an estimated half-life of 20 to 30 hours compared to minutes for endogenous IGF-1, meaning its effects on insulin signaling and tissue growth persist far longer and are harder to reverse if adverse reactions occur.
  • Batch testing from a supplement or research supplier confirms chemical identity and purity but says nothing about the safety or appropriateness of the reconstitution method used for human injection.
  • Alcohol wiping of stoppers before each syringe insertion, as demonstrated in this video, is consistent with validated sterile compounding guidelines and is one of the few unambiguously correct practices shown.

Our take · Written by FormBlends editorial team · Reviewed by FormBlends Medical Team · This is not a transcript. It is our independent review of the video above.

What did @dliftstok actually say?

The creator walked through reconstituting IGF-1 LR3, a synthetic analog of insulin-like growth factor 1, using a 1:1 ratio of bacteriostatic water and acetic acid, one milliliter of each, to dissolve one milligram of peptide. The stated goal was preventing the gelation that reportedly plagues this compound. They demonstrated syringe technique, alcohol-wiping stoppers, and slow injection into the vial to avoid pressure buildup. They also noted that AOD-9604 gels similarly, and mentioned anecdotal reports of the same issue with TB-500, though they said they had not personally experienced it.

To their credit, they framed the video as educational, not as medical advice, and they referenced third-party batch testing from their supplier, Alpha Omega. That kind of sourcing transparency is rare in peptide content and worth acknowledging.

Does the science back this up?

The acetic acid reconstitution approach is biochemically defensible, but the specific ratio used here is not validated by any published clinical protocol. IGF-1 LR3 is a research-grade compound, not an approved pharmaceutical, so there are no peer-reviewed reconstitution guidelines to cite. What we do know from peptide chemistry literature supports the general logic.

IGF-1 LR3 has an isoelectric point around pH 5.5, meaning it is more stable and soluble in mildly acidic conditions. Dilute acetic acid, typically 0.1% to 1%, is a standard solvent used in research settings for acidic peptides precisely because it prevents aggregation and gelation. A 2014 review by Manning et al. in Pharmaceutical Research confirmed that pH management is one of the primary tools for preventing peptide aggregation during reconstitution. However, the creator does not specify the concentration of their acetic acid, which is a meaningful gap. A food-grade 5% acetic acid solution diluted 1:1 into bacteriostatic water produces a very different final pH than a research-grade 0.1% solution. That distinction matters for both peptide stability and injection safety.

What did they get wrong (or right)?

They got the core concept right: acetic acid does help prevent IGF-1 LR3 from gelling. That is consistent with published peptide formulation science. The alcohol-wiping protocol and the advice to inject slowly to reduce pressure are also sound sterile technique basics.

Here is where it breaks down. The creator says to use "one ML of each" without specifying the concentration of the acetic acid. That is a significant omission. Injecting a solution with an inappropriate acid concentration could cause local tissue irritation or, in a worse case, pH-induced cell damage at the injection site. Research on subcutaneous injections published by Berteau et al. in 2015 in the International Journal of Pharmaceutics identified local pH as a primary driver of injection-site reactions. The creator also describes this peptide casually without mentioning that IGF-1 LR3 is not approved by the FDA for human use, carries real risks including hypoglycemia and potential mitogenic effects on tissue, and is explicitly banned by WADA. Leaving that context out of a 65,000-view tutorial is a problem.

What should you actually know?

IGF-1 LR3 is not a wellness supplement. It is a potent growth factor analog with a longer half-life than endogenous IGF-1, estimated at 20 to 30 hours versus a few minutes for native IGF-1. That extended activity window is exactly why researchers study it, and exactly why unsupervised use carries real risk. Hypoglycemia is a documented concern. So is the theoretical promotion of abnormal cell growth, particularly in individuals with undiagnosed cancers or pre-cancerous tissue. A 2012 meta-analysis by Renehan et al. in The Lancet Oncology found significant associations between elevated circulating IGF-1 levels and increased risk of several cancers. Using an exogenous analog that amplifies IGF-1 signaling without medical supervision is not a trivial decision.

On the practical chemistry side: if you encounter guidance to use acetic acid for reconstitution, the concentration matters enormously. Research-grade protocols typically specify 0.1% glacial acetic acid, not undiluted household or supplement-grade product. Batch testing from a supplier, as the creator referenced, addresses identity and purity but does not validate the reconstitution method or the safety of the final solution for human injection.

Bottom line

This video offers technically plausible advice about a real problem with IGF-1 LR3 gelation, but it skips the information that would allow someone to actually assess the risk of what they are doing. The acetic acid strategy has scientific grounding. The execution details, particularly acid concentration, are dangerously vague. And no reconstitution tutorial for a non-approved, WADA-banned compound with known mitogenic potential is complete without a frank discussion of what that compound actually does in the body.

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About the Creator

DLifts · TikTok creator

65.7K views on this video

How to Reconstitute IGF1-LR3 Education Tutorial No Gelling #gluathione #alphaomega #acetic #igf1 #igf1lr3

Frequently asked questions

Quick answers based on this video and our medical team review.

What does the video say about igf-1 lr3?

IGF-1 LR3 is not FDA-approved for human use and is explicitly prohibited by WADA; any use outside a supervised research or clinical context carries regulatory and health risk.

What does the video say about dilute acetic acid does improve solubility for acidic peptides with?

Dilute acetic acid does improve solubility for acidic peptides with isoelectric points near pH 5.5, but research protocols typically specify 0.1% concentration, not unspecified commercial-grade acid diluted 1:1.

What does the video say about renehan et al. (2012, lancet oncology) found statistically significant associations?

Renehan et al. (2012, Lancet Oncology) found statistically significant associations between elevated IGF-1 signaling and increased cancer risk, a relevant consideration for anyone amplifying this pathway exogenously.

What does the video say about berteau et al. (2015, international journal of pharmaceutics) identified final?

Berteau et al. (2015, International Journal of Pharmaceutics) identified final solution pH as a primary driver of subcutaneous injection-site reactions, making acid concentration a safety-relevant variable this video does not address.

What does the video say about igf-1 lr3 has an estimated half-life of 20 to 30?

IGF-1 LR3 has an estimated half-life of 20 to 30 hours compared to minutes for endogenous IGF-1, meaning its effects on insulin signaling and tissue growth persist far longer and are harder to reverse if adverse reactions occur.

What does the video say about batch testing from a supplement?

Batch testing from a supplement or research supplier confirms chemical identity and purity but says nothing about the safety or appropriateness of the reconstitution method used for human injection.

Educational use only. This fact-check is editorial content for general information. Nothing here is medical advice. Talk to a licensed provider about your specific situation before starting, stopping, or changing any supplement, peptide, or medication regimen.

Read More on This Topic

Our written guides go deeper with dosing details, comparison tables, and medical-team reviewed protocols.

Not medical advice. This video was made by DLifts, not by FormBlends. Our write-up above is an editorial review, not a medical recommendation. Talk to your doctor before making any decisions about medications or treatments.