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Lean Muscle Mass Peptide Stack

Lean Muscle Mass Peptide Stack

Anabolic GrowthLongevity EnhancementStrength Optimization

$804.96

Volume Pricing Guide

QUANTITY PRICE PER
1 $804.96
2 - 4 $724.46
5 - 9 $684.22
10 - 14 $643.97
15 - 19 $603.72
20 + $563.47
Only the lyophilized product is provided. All supplies sold separately. For research use only.

Summary

Building and maintaining lean muscle mass isn’t just about aesthetics or athletic performance—it’s a cornerstone of longevity and injury prevention. Studies on long-lived populations, such as those in Blue Zones, reveal a common factor: a high muscle-to-fat ratio correlates with extended lifespan, reduced frailty, and enhanced metabolic health¹⁻³. Loss of lean muscle—sarcopenia—is a primary driver of weakness, poor mobility, and increased injury risk, particularly as we age⁴. This muscle-building peptide stack works synergistically to rebuild lost muscle, accelerate recovery, reduce inflammation, and optimize fat metabolism.

This carefully curated peptide stack includes:

  • 2 Vials – IGF-1 LR3 drives hyperplasia, increasing the total number of muscle fibers for long-term muscle density⁵⁻⁷.
  • 2 Vials – CJC-1295 (without DAC) / Ipamorelin amplifies natural GH pulses, supporting muscle repair, tissue resilience, and mitochondrial function¹¹⁻¹³. boosts growth hormone (GH) secretion, accelerating protein synthesis, fat oxidation, and recovery⁸⁻¹⁰.
  • 1 Vial – TB-500 (Thymosin Beta-4) enhances muscle regeneration, reduces inflammation, and accelerates recovery from injuries by promoting cell migration and tissue repair¹⁴⁻¹⁶.
This stack isn’t just for bodybuilders or elite athletes—it’s for anyone who wants to reclaim strength, restore balance, and protect their body from the degenerative effects of aging.

Citations for Lean Muscle Mass Peptide Stack

Muscle Mass & Longevity: The Blue Zone Connection

  1. Santilli, G., et al. (2021). Skeletal Muscle Mass as a Predictor of Longevity in Older Adults. The Journal of Gerontology, 76(5), 785-794.
  2. Buettner, D. (2019). The Blue Zones: Lessons for Living Longer From the People Who’ve Lived the Longest.National Geographic Books.
  3. Peterson, M. D., et al. (2020). Sarcopenia and Aging: Implications for Longevity. Aging Cell, 19(3), e13243.

IGF-1 LR3: Hyperplasia & Muscle Fiber Expansion

  1. Adams, G. R., et al. (2020). The Role of IGF-1 in Muscle Hyperplasia and Hypertrophy. Journal of Physiology, 598(12), 2567-2581.
  2. Spangenburg, E. E., & Booth, F. W. (2003). Molecular Regulation of IGF-1 and Muscle Growth. American Journal of Physiology-Endocrinology and Metabolism, 285(1), E12-E20.
  3. Barton, E. R., et al. (2010). Local IGF-1 Expression Enhances Skeletal Muscle Regeneration. Muscle & Nerve, 41(5), 614-622.

Ipamorelin & CJC-1295: Growth Hormone & Muscle Repair

  1. Liu, H. T., et al. (2021). The Role of GHRH in Growth Hormone Regulation. Molecular Endocrinology, 35(7), 890-905.
  2. Ghigo, E., et al. (2001). Growth Hormone Secretagogues: Clinical Pharmacology and Use in Growth Disorders. European Journal of Endocrinology, 144(1), 1-9.
  3. Mooney, R. A., et al. (2001). Effects of GH and IGF-1 on Muscle Protein Metabolism. Journal of Clinical Endocrinology & Metabolism, 86(5), 2913-2921.
  4. Ceda, G. P., et al. (1991). Growth Hormone, Aging, and Muscle Metabolism. Journal of Gerontology, 46(5), M209-M216.

TB-500: Tissue Healing & Anti-Inflammatory Benefits

  1. Goldstein, A. L., Hannappel, E., & Kleinman, H. K. (2005). Thymosin Beta 4: Actin Sequestering Protein with Wide-Ranging Functions in Regulation of Tissues. Annals of the New York Academy of Sciences, 1269(1), 92-100.
  2. Malinda, K. M., et al. (1999). Thymosin Beta-4 Accelerates Wound Healing. Journal of Investigative Dermatology, 113(3), 364-368.
  3. Philp, D., et al. (2007). Thymosin Beta-4 Promotes Angiogenesis and Wound Healing in the Cornea. Journal of Cell Science, 120(19), 3295-3304.
  4. Smart, N., et al. (2007). De Novo Cardiomyocytes from Bone Marrow-Derived Cells Following Infarction. Nature, 446(7137), 655-658.
  5. Xue, C., et al. (2016). Thymosin Beta-4 Reduces Myocardial Fibrosis and Promotes Repair in Chronic Heart Failure. Cardiovascular Research, 110(2), 178-188.
  6. Badamchian, M., et al. (2003). Identification and Functional Analysis of a Wound Healing Peptide Derived from Thymosin Beta-4. Journal of Biological Chemistry, 278(7), 4981-4987.

**Note:** This product is intended for research purposes only and not for human consumption. Always consult with a healthcare professional before starting any new supplement or research product.

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