Side-by-side · Research reference
MGFvsVesugen
Side-by-side comparison across mechanism, dosage, evidence, side effects, administration, and stack synergies. Citations on every claim where available.
AAnimal-StrongHUMAN-REVIEWED14/55 cited
BAnimal-MechanisticHUMAN-REVIEWED5/43 cited
MGF
IGF-1Ec Splice Variant · Muscle-Specific
SQ · Research context only
Vesugen
Bioregulatory Tripeptide · Vascular Endothelium
3 AATripeptide
Endothelin-1 ↓Atherosclerotic tissue
Ki-67 ↑Aged endothelium
SQ / IM · Protocol varies
01Mechanism of Action
Parameter
MGF
Vesugen
Primary target
Satellite cells (Pax7+) in skeletal muscleMoore 2018
Vascular endothelial cell nucleus — MKI67 gene promoter
Pathway
Mechanical stress → IGF-1Ec mRNA upregulation → Local E-domain peptide release → Satellite cell activation
KED → MKI67 promoter interaction (CATC binding motif -14 to +12 bp) → Ki-67 proliferation protein ↑
Downstream effect
Satellite cell proliferation, myoblast differentiation, muscle fiber repair
Normalised endothelin-1 expression in atherosclerotic/restenotic endothelium, restored connexin expression for cell-cell communication, enhanced proliferative capacity in senescent endothelial culturesKozlov 2016Khavinson 2014
Feedback intact?
—
Not applicable — does not operate via hormone axis
Origin
Alternative splicing of IGF-1 gene (exons 4-6) produces IGF-1Ec precursor; E-domain cleaved post-translationallyArmakolas 2016Vassilakos 2017
Khavinson bioregulatory peptide school — designed as tissue-specific (vascular) cytomodulator
Antibody development
—
—
02Dosage Protocols
Parameter
MGF
Vesugen
Synthetic peptide
24-amino-acid E-domain sequence
Corresponds to human IGF-1Ec exons 4-6 region.
—
Rodent cardiac model
200 μg/kg via peptide-eluting microstructures
Post-MI injection; improved ejection fraction by 8 weeks.
—
Acute delivery (mouse MI)
Single bolus within 12 hrs post-infarctionShioura 2014
Delayed decompensation; no human protocol established.
—
Human evidence
None — no published clinical trials
All dosing extrapolated from animal models.
—
Detection in doping
Full-length MGF detected via LC-MS in illicit productsThevis 2014
WADA-prohibited since 2005; no therapeutic indication.
—
Evidence basis
Animal models + in vitro only
Animal models (atherosclerosis, restenosis, aging) · Russian case series
Standard dose (reported)
—
Not standardised — Russian clinical case series
Protocols vary; no FDA-approved regimen.
Route
—
Subcutaneous or intramuscular
Frequency
—
Not specified in available literature
Duration
—
Case series report treatment courses in elderly arterial insufficiency
Half-life
—
Not reported
Tripeptides typically cleared rapidly.
04Side Effects & Safety
Parameter
MGF
Vesugen
Human safety data
None — no clinical trials published
—
Theoretical IGF-1 axis risk
Chronic IGF-1Ec overexpression linked to cancer progression (prostate, colorectal, breast)
—
Tumor promotion
IGF-1Ec overexpressed in osteosarcoma, colorectal polyps with dysplasia, endometrial cancer
—
Antibody development
Unknown — no longitudinal human exposure data
—
Local injection reaction
Presumed similar to other peptides (erythema, induration) — no direct evidence
—
Dysregulated expression with age
Older adults (70+ yrs) show blunted IGF-1Ec response post-exercise vs youngMoore 2018
—
Reported adverse events
—
None documented in available abstracts
Injection site
—
Assumed minimal — typical for small peptides
Long-term safety
—
Unknown — no long-term RCT data
Epigenetic mechanism risk
—
Theoretical concern: direct gene promoter interaction — proliferative effects in non-target tissues not characterised
Absolute Contraindications
MGF
- ·Active malignancy or history of IGF-1-sensitive cancers (prostate, colorectal, breast, osteosarcoma)
- ·No established therapeutic use — investigational only
Vesugen
—Relative Contraindications
MGF
- ·Family history of IGF-1-axis malignancies
- ·Use outside research setting
Vesugen
- ·Active malignancy — proliferative mechanism (Ki-67 upregulation) untested in oncologic context
05Administration Protocol
Parameter
MGF
Vesugen
1. No validated protocol
MGF (E-domain peptide) has no approved clinical protocol. All published data derive from animal models or in vitro experiments.
Lyophilised powder reconstituted with sterile water or bacteriostatic water per supplier protocol. No standardised formulation.
2. Synthetic peptide form
Commercially available MGF corresponds to the 24-amino-acid human E-domain (hEc). Rodent E-domain (Eb) is structurally distinct and not interchangeable.
Subcutaneous (abdomen, thigh) or intramuscular. Rotate sites if multi-dose protocol.
3. Animal delivery models
Rodent studies used peptide-eluting polymeric microstructures (cardiac) or direct intramuscular injection. Routes and doses non-translatable to humans.Peña 2015Shioura 2014
No reported circadian or fasting requirement. Russian protocols typically integrated into geroprotective regimens.
4. WADA prohibition
MGF peptides prohibited in sport since 2005. Detection via LC-MS established for full-length MGF products.Thevis 2014
Lyophilised: refrigerate 2–8 °C, light-protected. Reconstituted: use immediately or refrigerate per supplier guidance (typically <7 days).
5. Research context only
Any human use falls outside approved medical practice and regulatory frameworks. No safety or efficacy data exist.
—
06Stack Synergy
MGF
+ BPC-157
Multi-pathwayMGF activates satellite cells for muscle fiber repair; BPC-157 promotes angiogenesis, collagen synthesis, and tendon healing via distinct pathways (VEGF, FAK, integrin signaling). Theoretical synergy in post-injury contexts combines myogenic (MGF) and stromal (BPC-157) repair mechanisms. Both lack human validation.
- MGF
- No established dose
- BPC-157
- 250–500 mcg SQ near injury site
- Context
- Animal models only
- Primary benefit
- Theoretical multi-tissue repair (muscle + tendon/ligament)
+ TB-500
ModerateTB-500 (thymosin beta-4 fragment) enhances actin polymerization, cell migration, and angiogenesis—complementary to MGF satellite cell activation. Both upregulated post-injury; combined use presumed additive for muscle regeneration in preclinical models.
- MGF
- No established dose
- TB-500
- 2–5 mg SQ weekly
- Context
- Animal models only
- Primary benefit
- Satellite cell activation + enhanced migration/angiogenesis
Vesugen
+ Thymalin
Multi-pathwayBoth from Khavinson bioregulatory school. Thymalin targets thymic/immune axis, Vesugen targets vascular endothelium. Rationale: multi-system geroprotection in elderly — immune senescence + vascular aging. Documented in Khavinson-tradition protocols combining tissue-specific peptides for poly-organ rejuvenation. No direct synergy study; combinatorial logic based on distinct target tissues.
- Vesugen
- Per protocol (SQ/IM)
- Thymalin
- Per protocol (SQ/IM)
- Frequency
- Sequential or concurrent per geroprotective protocol
- Primary benefit
- Multi-system age-related decline mitigation (vascular + immune)