Tesamorelin & CJC-1295 (Mod GRF 1-29) & Ipamorelin Blend (12mg)

Buy Tesamorelin CJC-1295 Ipamorelin UK | Growth Hormone Research Blend

Buy Tesamorelin CJC-1295 Ipamorelin UK, a premium research peptide blend designed for laboratory studies involving growth hormone signalling, IGF-1 production, metabolic regulation, and recovery biology. At Peptide House UK, we supply this advanced peptide combination exclusively for scientific and laboratory research purposes.

Unlike single-compound growth hormone peptides, this blend combines three complementary mechanisms. Tesamorelin and CJC-1295 target growth hormone-releasing hormone (GHRH) receptors, while Ipamorelin selectively activates ghrelin (GHS-R1a) receptors. Consequently, researchers use this combination to study multiple pathways involved in endogenous growth hormone release.

Why Researchers Choose Tesamorelin CJC-1295 Ipamorelin

Researchers frequently select this blend because it combines three of the most recognised growth hormone research peptides into a single protocol. Furthermore, each peptide contributes a unique mechanism that allows broader investigation of GH-related pathways.

• Growth hormone axis research
• IGF-1 signalling studies
• Lean mass and body composition research
• Metabolic function investigations
• Recovery and regeneration models
• Healthy ageing and longevity research

How This Growth Hormone Blend Works

Tesamorelin

Tesamorelin is a synthetic GHRH analogue that interacts with pituitary GHRH receptors. As a result, researchers study its potential influence on pulsatile growth hormone release and downstream IGF-1 activity.

CJC-1295 (Mod GRF 1-29)

CJC-1295 is engineered to provide enhanced stability and prolonged biological activity. Therefore, researchers commonly use it in studies examining sustained growth hormone signalling and endocrine regulation.

Ipamorelin

Ipamorelin selectively targets ghrelin receptors and stimulates growth hormone release through a different pathway. Moreover, researchers investigate its role in appetite regulation, digestive function, and recovery-related mechanisms.

Synergistic Activity

When combined, these peptides provide a comprehensive model for studying growth hormone regulation. Consequently, researchers can evaluate how multiple signalling pathways interact within the GH-IGF-1 axis.

Key Research Applications

1. Growth Hormone & IGF-1 Research

One of the primary applications of this blend involves studying endogenous growth hormone secretion and IGF-1 production. In addition, researchers examine intracellular signalling pathways linked to endocrine function and physiological adaptation.

• GH axis regulation studies
• IGF-1 pathway investigations
• Pituitary signalling research
• Endocrine system models

2. Muscle Growth & Performance Research

Researchers frequently explore this peptide blend in models focused on lean mass development and musculoskeletal adaptation. Furthermore, studies investigate the relationship between growth hormone signalling and muscle protein synthesis pathways.

• Lean muscle research
• Performance optimisation studies
• Musculoskeletal biology models
• Recovery pathway investigations

3. Metabolic & Fat Loss Research

Growth hormone signalling influences several metabolic processes. Therefore, researchers study this blend in models involving lipid metabolism, body composition, energy utilisation, and insulin sensitivity.

• Lipid metabolism research
• Body composition studies
• Insulin sensitivity investigations
• Energy regulation models

4. Recovery & Regeneration Research

Researchers also investigate how GH and IGF-1 signalling influence recovery mechanisms. As a result, this blend remains popular in studies focused on tissue regeneration, repair pathways, and physiological resilience.

• Tissue recovery research
• Regeneration pathway studies
• Recovery optimisation models
• Cellular adaptation investigations

5. Longevity & Healthy Ageing Research

Growth hormone signalling plays a significant role in healthy ageing research. Consequently, researchers use this blend to explore age-related physiological changes, cellular maintenance, and long-term metabolic health.

• Longevity research
• Healthy ageing studies
• Cellular maintenance models
• Metabolic ageing investigations

6. Cognitive & Neurological Research

Researchers increasingly study GH and IGF-1 pathways in neurological models. Furthermore, investigations examine neuroplasticity, cognitive performance, and brain recovery mechanisms.

• Neuroplasticity studies
• Cognitive performance research
• Neurological recovery models
• Brain signalling investigations

Chemical Profile

Tesamorelin

• Molecular Formula: C221H366N72O67S
• Molecular Weight: 5136 g/mol
• Alternative Name: N-(trans-3-hexenoyl)-[Tyr1]hGRF(1–44)NH2 acetate

CJC-1295 (Mod GRF 1-29)

• Molecular Formula: C152H252N44O42
• Molecular Weight: 3367.9 g/mol
• Alternative Name: CJC-1295 with DAC

Ipamorelin

• Molecular Formula: C38H49N9O5
• Molecular Weight: 711.8 g/mol
• Alternative Name: Ipamorelin Acetate

Related Research Peptide Categories

Researchers frequently combine this blend with complementary growth hormone, recovery, and longevity research compounds to build broader experimental models.

• Ipamorelin
• CJC-1295
• Tesamorelin
• MK-677
• IGF-1 LR3
• MGF Peptide
• Muscle Growth & Performance Peptides
• Longevity & Cellular Health Peptides

Why Buy from Peptide House UK?

• Premium research-grade peptide blends
• Rigorous quality control standards
• High-purity manufacturing processes
• Secure UK shipping
• Trusted UK peptide supplier
• Consistent batch-to-batch quality

Important Notice

Tesamorelin CJC-1295 Ipamorelin is supplied strictly for laboratory and scientific research purposes only. It is not intended for human consumption, medical use, diagnosis, or treatment.

Peptide House UK supplies all research compounds exclusively for qualified laboratory and research applications.