Side-by-side · Research reference
BronchogenvsTesamorelin
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
BFDA-ApprovedFlagship27/68 cited
Bronchogen
Tetrapeptide Bioregulator · Khavinson-School
Research models: tissue culture / parenteral
Tesamorelin
GHRH Analogue · FDA-Approved
SQ · Abdomen · Once Daily
01Mechanism of Action
Parameter
Bronchogen
Tesamorelin
Primary target
Bronchial epithelial cellsKuzubova 2015
Hypothalamic GHRH receptorsEGRIFTA® (tesamorelin for inje 2010
Pathway
Tissue-specific bioregulation → epithelial cell differentiation → ciliated cell restoration
GHRH → Pituitary GH release → Liver IGF-1 synthesisFalutz 2007
Downstream effect
Reversal of goblet cell hyperplasia, squamous metaplasia elimination, restoration of ciliated epithelium, normalized secretory IgA and surfactant protein B productionKuzubova 2015Titova 2017
Increased GH pulsatility, elevated IGF-1, lipolysis of visceral adipose tissueFalutz 2010
Feedback intact?
—
Yes — physiological pulsatility preserved
Origin
Synthetic tetrapeptide (Ala-Glu-Asp-Leu) from Khavinson bioregulator framework
Synthetic 44-AA GHRH analogue with trans-3-hexenoic-acid modification for stabilityEGRIFTA® (tesamorelin for inje 2010
02Dosage Protocols
Parameter
Bronchogen
Tesamorelin
Effective concentration (culture)
0.05 ng/mLZakutskiĭ 2006
Demonstrated in organotypic tissue culture of bronchial explants.
—
Treatment duration (animal)
1 month (30 days)Kuzubova 2015Titova 2017
Course duration in rat COPD models.
—
Evidence basis
Animal models (rat) / organotypic cultureTitova 2017Kuzubova 2015Zakutskiĭ 2006
No human clinical trials reported in available literature.
RCT / FDA-approvedFalutz 2007Falutz 2010
Tissue specificity
Selective for bronchopulmonary tissue
Part of Khavinson organ-specific bioregulator series.
—
Frequency
—
Once daily (morning or pre-sleep)
Aligns with natural GH pulse.
Duration
—
12–52 weeks
VAT returns within months of stopping.
Reconstitution
—
Sterile water per labeling
Preserved at 2–8 °C after reconstitution.
Timing
—
Empty stomach, pre-sleep preferred
03Metabolic / Fat Loss Evidence
Parameter
Bronchogen
Tesamorelin
Primary fat target
—
Visceral adipose tissue (VAT) — abdominal
Effect on lean mass
—
Modest lean mass preservation / slight increase
Effect reversibility
—
VAT returns within months of stopping
Key publication
—
Falutz et al. NEJM 2007 · Falutz JCEM 2010 · FDA approval 2010Falutz 2007Falutz 2010EGRIFTA® (tesamorelin for inje 2010
04Side Effects & Safety
Parameter
Bronchogen
Tesamorelin
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, pruritus, redness (common)
Fluid retention / Edema
—
Peripheral edema, arthralgia, carpal tunnel (GH-axis effect)
IGF-1 elevation
—
Dose-dependent; supraphysiological levels = discontinue
Cancer risk
—
Contraindicated in active malignancy (GH/IGF-1 axis); theoretical tumour growth riskEGRIFTA® (tesamorelin for inje 2010
Antibody formation
—
~50% at 26 weeks; non-neutralising in most; rare hypersensitivity (<1%)Sévigny 2018
GI symptoms
—
Nausea, diarrhea (mild, transient)
Absolute Contraindications
Bronchogen
—Tesamorelin
- ·Active malignancy or history of treated cancer
- ·Pregnancy
- ·Hypersensitivity to tesamorelin or mannitol
- ·Disruption of hypothalamic-pituitary axis (trauma, tumour, radiation)
Relative Contraindications
Bronchogen
—Tesamorelin
- ·Untreated diabetes (monitor HbA1c)
- ·Severe carpal tunnel syndrome
- ·Acute critical illness
05Administration Protocol
Parameter
Bronchogen
Tesamorelin
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 2.1 mL sterile water to 2 mg lyophilised vial. Roll gently — do not shake. Solution should be clear.
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 2017Kuzubova 2015
Subcutaneous — abdomen preferred. Rotate sites (avoid same spot within 2 cm). Avoid navel and waistband area.
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
Once daily. Preferred: evening, 2–3 hrs post-meal, before sleep — aligns with natural GH secretion pulse.
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: room temp, light-protected. Reconstituted: refrigerate 2–8 °C, use within 21 days.
5. Needle
—
27–31G, 4–8 mm insulin syringe. Pinch skin, 45° angle for lean individuals.
06Stack Synergy
Bronchogen
— no documented stacks
Tesamorelin
+ Ipamorelin
StrongTesamorelin (GHRH analogue) and ipamorelin (GHRP / ghrelin mimetic) act on two distinct receptor systems to amplify GH release synergistically — GHRH receptor + ghrelin receptor. This dual-axis stimulation produces a more robust, sustained GH pulse than either alone while maintaining physiological pulsatility. Ipamorelin is highly selective with minimal cortisol or prolactin elevation, making it the preferred GHRP pairing.
- Tesamorelin
- 2 mg SQ · evening
- Ipamorelin
- 200–300 mcg SQ · same injection
- Frequency
- Once daily, pre-sleep
- Primary benefit
- Maximal GH pulsatility, fat loss, recovery, sleep quality