Side-by-side · Research reference
DermorphinvsFollistatin-344
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
BHuman-MechanisticHUMAN-REVIEWED4/58 cited
Dermorphin
Opioid Peptide · μ-Receptor Agonist · Research Only
Research only · ICV / SC (animal models)
Follistatin-344
Myostatin/Activin Antagonist · Research Use
15–25%FST/MSTN ratio ↑
344 AACirculating isoform
ResearchPhase status
Research · No approved protocol
01Mechanism of Action
Parameter
Dermorphin
Follistatin-344
Primary target
μ-opioid receptors (central and peripheral)Negri 1992Steel 2014
Myostatin (MSTN/GDF-8) and Activin A
Pathway
μ-receptor activation → G-protein coupling → adenylyl cyclase inhibition → neuronal hyperpolarization
FST-344 binds MSTN/Activin → prevents ActRIIB receptor engagement → disinhibits muscle anabolism
Downstream effect
Potent analgesia, reduced nociceptive signaling, opioid-mediated CNS and peripheral effects
Elevated follistatin/myostatin ratio, increased muscle protein synthesis, attenuated muscle atrophy signalingJeong 2026
Feedback intact?
N/A — exogenous opioid agonist
Yes — indirect antagonist, preserves endogenous regulation
Origin
Phyllomedusa sauvagei and P. bicolor frog skin — gene-encoded with natural D-amino acid incorporationAmiche 1998Mignogna 1992
Endogenous glycoprotein, 344-AA isoform lacking heparin-binding domain (vs FST-315)
Antibody development
Site-directed antibodies produced for detection and purificationCucumel 1996
Not documented in available trials (endogenous protein)
02Dosage Protocols
Parameter
Dermorphin
Follistatin-344
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
Human observational / biomarker studies
Human toxicity
Kambô ritual (P. bicolor skin) — violent emesis, vasodilation, fluid shifts, ADH dysregulationTran 2025
—
Clinical protocol
—
None — no approved dosing regimen
Follistatin-344 measured as endogenous biomarker, not administered exogenously in cited trials.
Research context
—
Endogenous modulation via exercise + nutrition
Resistance training + EAA intake elevated FST/MSTN ratio by 15–25% in 12-week RCT (older women).
Half-life
—
Not established
Circulating isoform; lacks tissue-binding domain of FST-315.
03Metabolic / Fat Loss Evidence
Parameter
Dermorphin
Follistatin-344
Primary target
—
Muscle mass preservation, not direct lipolysis
Indirect fat effect
—
Increased lean mass → elevated resting metabolic rate
Not primary mechanism. Muscle-sparing during deficit.
Clinical evidence
—
Lorcaserin trial (6 mo) showed no MAFI axis changes during fat lossRamirez-Cisneros 2026
Suggests follistatin not primary driver of fat loss in weight-reduction interventions.
GLP-1RA studies
—
Liraglutide (35 days) — no significant MAFI axis modulation despite fat/lean changes
04Side Effects & Safety
Parameter
Dermorphin
Follistatin-344
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
—
Clinical safety data
—
None — no human exogenous administration trials in literature
Theoretical risks
—
Excessive myostatin inhibition → muscle overgrowth, impaired glucose tolerance
Based on myostatin-null animal models and clinical myostatin inhibitor trials.
Endogenous elevation (exercise)
—
No adverse effects reported in 12-week resistance + EAA trials
Cancer risk (theoretical)
—
Myostatin inhibition may promote tumor growth in malignancy (preclinical data)
Regulatory status
—
Not approved for human use — research peptide only
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
Follistatin-344
- ·Active malignancy
- ·No approved protocol — research use only
Relative Contraindications
Dermorphin
- ·Any context outside approved animal research protocols
- ·CNS depressant co-administration
Follistatin-344
- ·Insulin resistance / Type 2 diabetes (monitor glucose)
- ·Pregnancy / lactation (unknown safety profile)
05Administration Protocol
Parameter
Dermorphin
Follistatin-344
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.
Follistatin-344 is not approved for human administration. All cited studies measure endogenous serum follistatin as a biomarker, not as an exogenous therapeutic agent.
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.
Resistance exercise combined with essential amino acid (EAA) supplementation elevated the follistatin/myostatin ratio by 15–25% in 12-week randomized trials. Protein intake (1.2–1.5 g/kg/day) synergizes with training to upregulate endogenous follistatin.
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
Serum follistatin and follistatin/myostatin ratio are used diagnostically in sarcopenia screening and as biomarkers of muscle anabolic balance in clinical trials.
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
Gene therapy and recombinant follistatin delivery are under preclinical investigation for muscular dystrophy and sarcopenia. No human safety or efficacy data for exogenous FST-344 administration.
06Stack Synergy
Dermorphin
— no documented stacks
Follistatin-344
+ BPC-157
Multi-pathwayFollistatin-344 (myostatin antagonist) and BPC-157 (tissue repair peptide) address complementary pathways in muscle recovery. FST-344 promotes muscle protein synthesis by disinhibiting myostatin signaling, while BPC-157 accelerates healing of tendons, ligaments, and microtears via angiogenesis and collagen synthesis. Combined, they may support both hypertrophy and structural repair during high-volume training or injury recovery.
- Follistatin-344
- No approved protocol — endogenous modulation via resistance exercise + EAA
- BPC-157
- 250–500 mcg SQ · twice daily · near injury site or systemic
- Duration
- 4–8 weeks
- Primary benefit
- Muscle hypertrophy + accelerated soft tissue repair
+ TB-500
ModerateTB-500 (thymosin beta-4 fragment) promotes cell migration, angiogenesis, and anti-inflammatory signaling in muscle and connective tissue. Follistatin-344's anabolic signaling may synergize with TB-500's regenerative effects during muscle damage or overtraining, particularly in older adults where both myostatin inhibition and tissue repair are rate-limiting.
- Follistatin-344
- Endogenous upregulation (resistance training + protein)
- TB-500
- 2–5 mg SQ · twice weekly · loading phase 4 weeks, then maintenance
- Frequency
- Twice weekly TB-500, daily training stimulus for FST
- Primary benefit
- Enhanced recovery, reduced inflammation, muscle growth support