Side-by-side · Research reference

BronchogenvsSS-31

Side-by-side comparison across mechanism, dosage, evidence, side effects, administration, and stack synergies. Citations on every claim where available.

AAnimal-StrongHUMAN-REVIEWED16/35 cited

BPhase 3HUMAN-REVIEWED9/43 cited

Bronchogen

Tetrapeptide Bioregulator · Khavinson-School

0.05 ng/mLEffective concentrationZakutskiĭ 2006

60 daysCOPD model durationTitova 2017

30 daysTreatment courseKuzubova 2015

Research models: tissue culture / parenteral

SS-31

Cardiolipin-binding · Mitochondrial protective

40 mgDaily doseSzeto 2014

Phase 3Evidence levelSzilagyi 2009 Szeto 2014

~3 hrHalf-life

SQ · Abdomen · Once daily

01Mechanism of Action

Parameter

Bronchogen

SS-31

Primary target

Bronchial epithelial cellsKuzubova 2015

Cardiolipin in inner mitochondrial membraneSzeto 2014

Pathway

Tissue-specific bioregulation → epithelial cell differentiation → ciliated cell restoration

Cardiolipin binding → cristae stabilisation → ETC integrity → reduced ROS + preserved ATP synthesisSzeto 2014 Szilagyi 2009

Downstream effect

Reversal of goblet cell hyperplasia, squamous metaplasia elimination, restoration of ciliated epithelium, normalized secretory IgA and surfactant protein B productionKuzubova 2015 Titova 2017

Mitochondrial bioenergetic preservation; cardio-, neuro-, and reno-protective effects in animal + clinical studiesSzeto 2014

Feedback intact?

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Origin

Synthetic tetrapeptide (Ala-Glu-Asp-Leu) from Khavinson bioregulator framework

Synthetic tetrapeptide D-Arg-Dmt-Lys-Phe-NH₂; cell-permeable, mitochondrial-selectiveSzeto 2014

Antibody development

—

02Dosage Protocols

Parameter

Bronchogen

SS-31

Effective concentration (culture)

0.05 ng/mLZakutskiĭ 2006

Demonstrated in organotypic tissue culture of bronchial explants.

—

Treatment duration (animal)

1 month (30 days)Kuzubova 2015 Titova 2017

Course duration in rat COPD models.

—

Evidence basis

Animal models (rat) / organotypic cultureTitova 2017 Kuzubova 2015 Zakutskiĭ 2006

No human clinical trials reported in available literature.

Multiple Phase 3 trials (Barth, AMD, ischemia-reperfusion)Szeto 2014 Szilagyi 2009

Model system

NO₂-induced COPD (60-day intermittent exposure)Titova 2017

—

Tissue specificity

Selective for bronchopulmonary tissue

Part of Khavinson organ-specific bioregulator series.

—

Standard dose

—

40 mg / day SQ (clinical trials)Szeto 2014

Anecdotal community range 5-10 mg/day. Phase 3 trials use 40 mg.

Frequency

—

Once daily

Lower / starter dose

—

5 mg / day (anecdotal)

Duration

—

Indefinite for mitochondrial disease; cycled for healthspan use

Reconstitution

—

Bacteriostatic water

Timing

—

Morning fasted preferred; pre-workout for exercise-induced mitochondrial stress

Half-life

—

~3 h plasma; tissue uptake longer

04Side Effects & Safety

Parameter

Bronchogen

SS-31

Animal safety profile

No adverse effects reported in published rat studies

Limited safety data; only animal models available.

—

Human data

Absent — no clinical trials in humans reported

—

Long-term effects

Unknown — maximum study duration 30 days in animals

—

Injection site reaction

—

Erythema, mild pruritus

GI symptoms

—

Nausea (uncommon)

Headache

—

Reported in some Phase 3 trials

Cardiovascular

—

Cardio-protective in studies; no signal of harm

Long-term safety

—

Phase 3 data over 24+ months; no major safety signalsSzeto 2014

Pregnancy / OB

—

Avoid — insufficient data

Absolute Contraindications

Bronchogen

—

SS-31

·Pregnancy / breastfeeding
·Hypersensitivity to peptide

Relative Contraindications

Bronchogen

—

SS-31

·None established

05Administration Protocol

Parameter

Bronchogen

SS-31

1. Research context only

Bronchogen has been studied exclusively in animal models and organotypic tissue culture. No approved formulation or human administration protocol exists.

Add bacteriostatic water per label. Light-protected handling.

2. Animal model protocol

In rat COPD models, tetrapeptide administered for 30-day course following 60-day NO₂ exposure. Route and exact dosing not specified in abstracts.Titova 2017 Kuzubova 2015

SQ — abdomen or thigh. Rotate sites.

3. Organotypic culture

Bronchial tissue explants from young (3-week) and aged (18-month) rats cultured in medium containing 0.05 ng/mL bronchogen, demonstrating tissue-specific stimulation.Zakutskiĭ 2006

Morning fasted; pre-workout for exercise-augmented mitochondrial stress.

4. Khavinson bioregulator tradition

Part of Russian peptide bioregulator framework emphasizing tissue-specific low-dose effects. Typically administered parenterally in related peptides from this series.

Lyophilised: refrigerate, light-protected. Reconstituted: refrigerate ≤30 days.

5. Needle

—

29–31G, 4–8 mm insulin syringe.

06Stack Synergy

Bronchogen

— no documented stacks

SS-31

+ MOTS-c

Moderate

View MOTS-c →

SS-31 and MOTS-c address mitochondrial decline through complementary axes. SS-31 protects existing mitochondrial structure (cardiolipin binding, cristae stabilisation). MOTS-c upregulates AMPK/PGC-1α, triggering biogenesis of new mitochondria. Together they pair preservation with renewal — anecdotally favoured in healthspan and post-cardio-event recovery protocols.

SS-31: 5–10 mg SQ · daily morning
MOTS-c: 5 mg SQ · 2× per week pre-workout
Primary benefit: Mitochondrial preservation + biogenesis