Side-by-side · Research reference
DermorphinvsPEG-MGF
Side-by-side comparison across mechanism, dosage, evidence, side effects, administration, and stack synergies. Citations on every claim where available.
AAnimal-StrongHUMAN-REVIEWED20/47 cited
BAnimal-MechanisticHUMAN-REVIEWED2/69 cited
Dermorphin
Opioid Peptide · μ-Receptor Agonist · Research Only
Research only · ICV / SC (animal models)
PEG-MGF
IGF-1Ec Splice Variant · PEGylated
~2 hrHalf-life (PEG)
~7 minNative MGF t½
IGF-1EcSplice variant
SQ · Research Protocol
01Mechanism of Action
Parameter
Dermorphin
PEG-MGF
Primary target
μ-opioid receptors (central and peripheral)Negri 1992Steel 2014
IGF-1 receptor on muscle satellite cells and myocytes
Pathway
μ-receptor activation → G-protein coupling → adenylyl cyclase inhibition → neuronal hyperpolarization
IGF-1R → PI3K/Akt → mTOR activation → Satellite cell proliferation & myoblast fusion
Downstream effect
Potent analgesia, reduced nociceptive signaling, opioid-mediated CNS and peripheral effects
Satellite cell activation, muscle fiber repair, localized hypertrophy signaling
Feedback intact?
N/A — exogenous opioid agonist
Partially bypassed — does not require hepatic IGF-1 synthesis
Origin
Phyllomedusa sauvagei and P. bicolor frog skin — gene-encoded with natural D-amino acid incorporationAmiche 1998Mignogna 1992
IGF-1Ec splice variant (exon 4–6) conjugated to polyethylene glycol for extended circulation
Antibody development
Site-directed antibodies produced for detection and purificationCucumel 1996
Unknown — no long-term human immunogenicity data
02Dosage Protocols
Parameter
Dermorphin
PEG-MGF
Legal status
Controlled substance in many jurisdictions · Research only
Not approved for human use.
—
Animal research (ICV)
Low nanomolar to picomolar range
Intracerebroventricular administration in rodent models.
—
Detection limit (doping)
5 pg/mL in equine plasma/urineSteel 2014
High-throughput LC-MS/MS screen developed for racing industry.
—
Duration of action
10–120 minutes (dose-dependent, intrathecal)
—
Evidence basis
Animal studies · In vitro assays
Animal / mechanistic
Human toxicity
Kambô ritual (P. bicolor skin) — violent emesis, vasodilation, fluid shifts, ADH dysregulationTran 2025
—
Research dose range
—
100–200 mcg
Extrapolated from animal models; no validated human protocols.
Frequency
—
Post-training or daily
Timing to match endogenous MGF pulse post-exercise.
Half-life
—
~2 hours (PEGylated)
Native MGF: ~7 min; PEGylation extends circulation.
Reconstitution
—
Sterile bacteriostatic water
Lyophilized form; store reconstituted at 2–8 °C.
PEG molecular weight
—
Typically 5–30 kDa
Higher MW = longer t½, greater steric hindrance.
Timing
—
Within 30–60 min post-training
Aligns with endogenous MGF window.
03Metabolic / Fat Loss Evidence
Parameter
Dermorphin
PEG-MGF
Primary target
—
Muscle tissue (satellite cells, myocytes) — not adipose-specific
Indirect metabolic effect
—
IGF-1 signaling may modulate insulin sensitivity and lipid metabolismRen 2015
Mechanism distinct from direct lipolytic peptides.
Body composition
—
Lean mass preservation / hypertrophy focus
Fat loss evidence
—
No direct human or animal RCT data for PEG-MGF-driven fat reduction
04Side Effects & Safety
Parameter
Dermorphin
PEG-MGF
Opioid effects
Respiratory depression, sedation, euphoria, tolerance, dependence risk
—
Kambô ritual toxicity
Violent emesis, vasodilation, profound fluid shifts, hyponatremia, ADH dysregulation, brain death (case report)Tran 2025
—
Receptor selectivity caveat
Two μ-receptor subtypes — differential behavioral effects (analgesia vs. catalepsy)Negri 1992
—
Proteolytic stability
Tyr³-Pro⁶ bond relatively unstable; endogenous enzymes may produce tetrapeptide fragmentsCucumel 1996
—
Injection site reaction
—
Erythema, induration (common with SQ peptides)
Hypoglycemia risk
—
IGF-1 axis activation can lower blood glucose
IGF-1R overstimulation
—
Theoretical risk of aberrant cell proliferation with chronic supraphysiological exposure
Fluid retention
—
Possible with IGF-1 pathway activation (dose-dependent)
PEG accumulation
—
Chronic high-dose PEGylated proteins may accumulate in tissues; clearance slower in renal impairment
Antibody formation
—
PEGylated proteins can elicit anti-PEG antibodies (neutralizing potential unknown)
Cancer risk
—
IGF-1 axis stimulation contraindicated in active malignancy
Human safety data
—
Absent — no published human trials for PEG-MGF
Absolute Contraindications
Dermorphin
- ·Human use — not approved by any regulatory authority
- ·Controlled substance status — possession illegal in many jurisdictions
- ·Known opioid hypersensitivity or respiratory compromise
PEG-MGF
- ·Active malignancy or history of cancer (IGF-1R proliferative signaling)
- ·Known hypersensitivity to PEGylated compounds
- ·Pregnancy / lactation (no reproductive toxicity data)
Relative Contraindications
Dermorphin
- ·Any context outside approved animal research protocols
- ·CNS depressant co-administration
PEG-MGF
- ·Diabetes (monitor glucose closely)
- ·Renal impairment (PEG clearance reduced)
- ·Retinopathy (IGF-1 axis effects on vascular proliferation)
05Administration Protocol
Parameter
Dermorphin
PEG-MGF
1. Legal and ethical framework
Dermorphin is a controlled substance in many jurisdictions and is not approved for human use. Possession, synthesis, or distribution may be illegal. Use is restricted to licensed research settings under institutional review.
Add 1–2 mL bacteriostatic water to lyophilized vial. Swirl gently — do not shake. Solution should be clear to slightly opalescent.
2. Animal research protocols
In rodent models, intracerebroventricular (ICV) or intrathecal injection is used at nanomolar to picomolar concentrations. Subcutaneous administration also documented. All protocols require IACUC approval.
Subcutaneous — abdomen or thigh. Rotate sites to avoid lipodystrophy. Avoid areas with scar tissue or active inflammation.
3. Analytical detection
High-throughput LC-MS/MS screens developed for anti-doping programs detect dermorphin and 17 related peptides in equine and human urine/plasma at limits as low as 5 pg/mL.Steel 2014
Post-training preferred (within 30–60 min) to align with endogenous MGF expression window. Alternatively, daily morning dose on non-training days.
4. Kambô ritual (traditional use)
Application of Phyllomedusa bicolor skin secretions to superficial burns. Not recommended — associated with severe toxicity including violent emesis, hyponatremia, and documented case of brain death.Tran 2025
Lyophilized: room temperature, light-protected, desiccated. Reconstituted: refrigerate 2–8 °C, use within 14–21 days.
5. Needle
—
29–31G insulin syringe, 8–12 mm length. Pinch skin fold, insert at 45° angle for subcutaneous delivery.
06Stack Synergy
Dermorphin
— no documented stacks
PEG-MGF
+ BPC-157
ModerateBPC-157 promotes angiogenesis and tendon/ligament repair via VEGF and growth factor modulation, while PEG-MGF targets satellite cell activation and myocyte proliferation. Complementary pathways for comprehensive tissue repair post-injury or intensive training. BPC-157's systemic stability and oral bioavailability contrast with PEG-MGF's localized IGF-1R signaling.
- PEG-MGF
- 100–200 mcg SQ post-training
- BPC-157
- 250–500 mcg SQ or oral, twice daily
- Duration
- 4–6 weeks (injury-dependent)
- Primary benefit
- Accelerated muscle and connective tissue repair, enhanced recovery
+ TB-500
StrongTB-500 (Thymosin Beta-4 fragment) upregulates actin polymerization, cell migration, and anti-inflammatory pathways, while PEG-MGF drives satellite cell proliferation via IGF-1R/mTOR. Synergistic for muscle regeneration: TB-500 mobilizes progenitor cells, PEG-MGF stimulates their differentiation into myocytes. Both have overlapping but distinct repair cascades.
- PEG-MGF
- 100–200 mcg SQ post-training
- TB-500
- 2–5 mg SQ, 2× per week (loading), then weekly
- Timing
- Stagger injections by 6–12 hours
- Primary benefit
- Maximal satellite cell recruitment and myogenic differentiation, injury repair