Tesamorelin + Ipamorelin Blend 10mg / 3mg

 89,00

Tesamorelin / Ipamorelin 10 mg / 3 mg – Grail Formula Quality.
Researched and verified with Liquilabs s.r.o. Czechia.
Analytical testing confirms Tesamorelin purity of 99.7 % and Ipamorelin purity above 99.8 %, with assay content verified at 10.90 mg and 3.57 mg respectively. Molecular ion mass identification confirmed 5135 Da for Tesamorelin and 993 Da for Ipamorelin.
Supplied as a dual-peptide lyophilized research blend with full COA traceability.
For research use only — not for human or veterinary use.

Availability: In stock: ships within 1 day after payment confirmation.

Tesamorelin / Ipamorelin 10 mg / 3 mg is a dual-peptide research blend supplied as a lyophilized laboratory-grade compound intended exclusively for scientific investigation and controlled laboratory applications. For research use only — not for human or veterinary use.  

Product Overview

Tesamorelin / Ipamorelin combines two extensively studied peptide compounds within a single research preparation designed for controlled laboratory investigations involving peptide signalling systems and receptor interaction pathways. Both peptides have been widely examined in scientific literature due to their defined molecular structures, analytical stability and established role within peptide-focused research environments. This preparation contains 10 mg Tesamorelin and 3 mg Ipamorelin supplied as a lyophilized dual-peptide blend. Lyophilization helps preserve molecular stability during storage while allowing controlled reconstitution for laboratory experimentation. The combination has become a frequently referenced research material within peptide science due to the complementary characteristics of both compounds and their suitability for in vitro investigation.  

Peptide Overview

Tesamorelin is a synthetic peptide analogue frequently studied in controlled laboratory environments examining peptide-mediated signalling systems and molecular interaction pathways. Ipamorelin is a synthetic peptide research compound commonly investigated for its interaction with specific peptide receptor systems and intracellular signalling networks. When supplied together as a research blend, these compounds allow investigators to explore peptide interaction models, receptor signalling pathways and comparative peptide response systems under controlled laboratory conditions. Their well-characterised analytical profiles have contributed to continued scientific interest across multiple peptide research disciplines.  

Historical Background and Scientific Context

Scientific interest in peptide signalling compounds expanded significantly during the late twentieth century as advances in peptide chemistry enabled researchers to investigate increasingly complex molecular communication systems. Tesamorelin and Ipamorelin subsequently emerged as recognised peptide research compounds due to their defined structures, reproducible analytical characteristics and suitability for experimental peptide investigations. Over time, both compounds have appeared in numerous scientific studies exploring receptor interactions, peptide signalling dynamics and molecular regulatory mechanisms. These investigations continue to contribute valuable knowledge regarding peptide-mediated biological communication systems.  

Mechanistic Focus in Research

Within controlled laboratory settings, Tesamorelin / Ipamorelin is commonly studied in relation to peptide receptor signalling pathways and molecular communication systems. Research investigations frequently explore:
  • Peptide receptor interaction dynamics
  • Signal transduction pathways
  • Molecular communication systems
  • Intracellular signalling mechanisms
  • Comparative peptide pathway analysis
  • Peptide-mediated regulatory systems
  • Laboratory receptor modelling
These experimental models allow researchers to investigate complex peptide signalling networks and molecular regulatory pathways in controlled environments.  

Analytical Verification (COA)

Each batch of Tesamorelin / Ipamorelin supplied by Grail Formula undergoes independent third-party laboratory verification to confirm compound identity, assay content, purity and microbiological safety. Analytical testing for this batch was performed by Liquilabs s.r.o. (Czechia) using validated chromatographic, microbiological and mass spectrometry techniques. Batch: GF-TESAIPA10/3-B242
  • Tesamorelin Assay: 10.90 mg
  • Ipamorelin Assay: 3.57 mg
  • Tesamorelin Purity: 99.7 percent
  • Ipamorelin Purity: greater than 99.8 percent
  • Tesamorelin Identification by RT: 0.991
  • Ipamorelin Identification by RT: 0.992
  • Molecular Ion Mass Identification (Tesamorelin): 5135 Da
  • Molecular Ion Mass Identification (Ipamorelin): 993 Da
  • Bacterial Endotoxins: 0.014 EU/mg
  • Total Aerobic Microbial Count: Not detected
  • Total Yeast and Mold Count: Not detected
Independent elemental impurity screening confirmed no detectable arsenic, cadmium, mercury, lead, nickel, vanadium or cobalt. These analytical procedures provide confirmation of identity, purity, traceability and laboratory-grade batch consistency.  

Research Applications

In controlled laboratory environments, Tesamorelin / Ipamorelin may be utilised in experimental models designed to investigate peptide signalling systems and receptor interaction pathways. Examples of research applications include:
  • Peptide signalling investigations
  • Receptor interaction studies
  • Comparative peptide research
  • Signal transduction analysis
  • Molecular pathway modelling
  • Laboratory peptide interaction studies
  • Controlled in vitro peptide research
These applications are intended exclusively for scientific and laboratory investigation.  

Grail Formula Quality

Every Grail Formula research compound is supported by extensive independent analytical verification and complete batch traceability. Each batch undergoes testing for:
  • Compound identity confirmation
  • Assay content verification
  • Purity assessment
  • Molecular mass verification
  • Endotoxin analysis
  • Microbial contamination screening
  • Heavy metal screening
  • Full batch traceability
Independent testing helps ensure consistent laboratory-grade research materials suitable for controlled scientific applications.  

When You Choose Grail Formula

When selecting Grail Formula, researchers receive access to independently verified research compounds supported by detailed Certificates of Analysis and transparent batch-specific testing. Our quality programme includes assay verification, purity confirmation, retention time identification, molecular ion mass identification, endotoxin screening, microbiological analysis and elemental impurity testing. Every batch is accompanied by a downloadable COA issued by Liquilabs s.r.o. Czechia, providing full traceability and independent laboratory verification.  

Research Use Limitation

  • Used solely for laboratory and in vitro research
  • Not approved for human consumption
  • Not approved for veterinary use
  • Not intended for diagnostic purposes
  • Not intended for therapeutic applications
  • Not permitted for clinical administration
  • For research use only
  • Independently analysed by Liquilabs s.r.o. Czechia
  • Tesamorelin purity confirmed at 99.7 %
  • Ipamorelin purity confirmed above 99.8 %
  • Assay content verified at 10.90 mg Tesamorelin
  • Assay content verified at 3.57 mg Ipamorelin
  • Molecular ion mass identified at 5135 Da and 993 Da
  • No detectable heavy metals or microbial contamination
  • Dual peptide research blend
  • For research use only – not for human or veterinary use

For laboratory research only. Not intended for human consumption, injection, or cosmetic use.

This product is for research purposes only. Not for human use or diagnostic/therapeutic applications. Keep out of reach of children.

Third-Party Tested

Public COAs

Batch Verified

EU Shipping

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