Ipamorelin 2mg

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This product is intended as a research chemical only. This designation allows the use of this chemical strictly for in-vitro laboratory testing and experimentation. Human or veterinary use is strictly forbidden. This product is not a drug, food or cosmetic and may not be misbranded, mislabeled or misused as such.

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    Buy Ipamorelin: Clinical-Grade Peptide for Laboratory Studies

    Research into growth hormone regulation has led to the development of highly selective peptides like ipamorelin, a synthetic compound that demonstrates remarkable specificity for growth hormone secretagogue receptors. When researchers seek to buy ipamorelin for laboratory studies, understanding its molecular mechanisms and quality standards becomes essential for designing effective experimental protocols.

    This selective growth hormone secretagogue represents a significant advancement in peptide research, offering scientists a tool for investigating growth hormone pathways without the confounding effects on other hormones that characterize earlier compounds. Research studies have established ipamorelin’s unique operational mechanics, making it an invaluable resource for laboratories focused on hormone regulation and cellular response mechanisms.

    Molecular Structure of Ipamorelin

    Ipamorelin’s structure consists of five amino acids arranged in the specific sequence Aib-His-D-2-Nal-D-Phe-Lys-NH2. This peptide demonstrates the precision possible in modern synthetic chemistry, where each amino acid position contributes to the compound’s selective binding properties.

    Key Molecular Properties:

    • Amino Sequence: Aib-His-D-2-Nal-D-Phe-Lys-NH2
    • Molecular Formula: C38H49N9O5
    • Molecular Weight: 711.86 g/mol
    • PubChem CID: 9831659
    • CAS Number: 170851-70-4

    The molecular structure reveals why ipamorelin functions as such a powerful peptide in research applications. The inclusion of D-amino acids and the C-terminal amidation enhance stability and receptor selectivity, distinguishing it from other peptides in the same class. Research suggests these structural modifications contribute significantly to the compound’s ability to stimulate growth hormone release while avoiding unwanted interactions with other hormones.

     

    Mechanism of Action

    Ipamorelin’s operational mechanics enables highly selective binding to growth hormone secretagogue receptors (GHS-R1a) located primarily on the pituitary gland. This selective binding represents a breakthrough in understanding how specific receptors can be targeted without affecting the broader hormonal environment.

    The peptide activates G-protein coupled signaling pathways upon receptor binding, leading to intracellular calcium release and protein kinase C activation. This cellular response culminates in the controlled secretion of growth hormone from pituitary gland based expression systems. Research studies demonstrate that this mechanism produces growth hormone release without significantly elevating levels of cortisol, prolactin, or other hormones.

    Receptor Interaction Pathway:

    1. Selective binding to GHS-R1a receptors
    2. G-protein signaling cascade activation
    3. Calcium mobilization and protein kinase C stimulation
    4. Controlled growth hormone secretion from target cells

    The specificity of ipamorelin for certain receptors makes it particularly valuable for research purposes where investigators need to isolate growth hormone effects from broader pituitary responses. Animal test subjects in research studies have shown that this selective mechanism produces predictable gh release patterns without the complications seen with less specific compounds.

    Research Studies and Applications

    Clinical studies reveal ipamorelin’s pharmacokinetic profile includes a half-life of approximately 2 hours, with peak gh levels occurring at 0.67 hours post-administration. Research suggests the compound can increase growth hormone concentrations 2- to 10-fold in animal models, providing researchers with a reliable tool for investigating growth hormone pathways.

    Key Research Findings:

    • EC50 of 1.3 nmol/L in rat pituitary cell studies
    • ED50 of 80 nmol/kg in animal models
    • Peak growth hormone production at 40 minutes post-administration
    • 20% reduction in hepatic urea nitrogen synthesis during catabolic conditions

    Investigators studying muscle growth fat loss mechanisms have found ipamorelin particularly useful due to its selective hormone profile. Research applications focus on muscle mass regulation, fat metabolism pathways, tissue repair mechanisms, and bone density maintenance. The compound’s ability to enhance recovery processes in animal models makes it valuable for studies examining cellular response to various stressors.

    Research purposes for ipamorelin include investigations into muscle recovery, body composition changes, and overall vitality markers in controlled laboratory settings. Scientists studying insulin like growth factor pathways often use this peptide to understand the upstream regulation of growth hormone production and its downstream effects on metabolism and synthesis processes.

    Animal models demonstrate that ipamorelin research can provide insights into lean muscle mass regulation, fat loss mechanisms, and the relationship between growth hormone levels and body fat distribution. These research studies contribute to our understanding of how selective growth hormone secretagogue compounds can be used as research tools without producing unwanted side effects.

    Storage and Safety Requirements

    Proper storage protocols ensure ipamorelin maintains its research-grade quality throughout experimental timelines. Lyophilized peptide powder requires storage at -20°C to preserve long-term stability and biological activity. This temperature requirement reflects the compound’s sensitivity to degradation and the need for consistent potency in research applications.

    Storage Guidelines:

    • Lyophilized form: Store at -20°C for optimal stability
    • Reconstituted solutions: Maintain at 2-8°C (standard refrigeration)
    • Light protection: Shield from direct sunlight during storage and transport
    • Reconstitution: Use bacteriostatic water for research applications

    Once reconstituted with bacteriostatic water, the peptide solution should be used within specified timeframes to ensure consistent experimental results. Research laboratories must implement cold-chain protocols during shipping to prevent temperature fluctuations that could compromise peptide structure and function.

    The stability requirements for ipamorelin reflect the general sensitivity of peptides to environmental conditions. Well tolerated storage practices include protecting the compound from extreme temperatures and maintaining sterile conditions throughout handling procedures. These protocols ensure that researchers who buy ipamorelin receive compounds suitable for rigorous scientific investigation.

    Benefits of Buying from Loti Labs

    Loti Labs offers USA-manufactured peptides with verified 99% purity specifications, providing researchers with the quality standards necessary for reproducible experimental results. All products undergo comprehensive third-party analytical testing to document composition, potency, and absence of contaminants that could affect research outcomes.

    Quality Assurance Features:

    • Certificates of analysis for every batch
    • HPLC and mass spectrometry verification
    • 99% minimum purity standards
    • Research-grade manufacturing protocols

    The company’s commitment to quality control extends beyond initial synthesis to include proper storage conditions, refrigerated shipping protocols, and protection from light exposure throughout the manufacturing and distribution process. Research-grade ipamorelin is available in standard 10mg vials, with pricing typically ranging from $75-150 depending on quantity and verification requirements.

    For laboratories seeking to buy ipamorelin with confidence in product quality, Loti Labs maintains rigorous testing standards that verify molecular structure, confirm amino acid sequences, and ensure the absence of degradation products. This analytical approach supports researchers in achieving consistent experimental results across multiple studies.

    Products from Loti Labs are for Research Use Only

    All peptides and compounds sold by Loti Labs are designated strictly as research chemicals for in-vitro laboratory testing and experimentation. This designation ensures compliance with regulatory frameworks governing the sale and distribution of experimental compounds. The products are not intended for human or veterinary use outside of controlled research environments.

    Research purposes represent the exclusive intended application for these compounds. Scientists and researchers must ensure their experimental protocols align with institutional guidelines and regulatory requirements for peptide research. The compound may not be misbranded, mislabeled, or misused outside its designated research applications.

    Compliance Requirements:

    • Exclusive use in laboratory research settings
    • Institutional oversight of experimental protocols
    • Proper handling and disposal procedures
    • Documentation of research applications

    The research use only designation protects both researchers and suppliers by establishing clear boundaries for appropriate compound applications. Investigators studying growth hormone mechanisms, cellular response pathways, and related biological processes can utilize these compounds within established research frameworks while maintaining compliance with applicable regulations.

    Shipping Policy of Loti Labs

    Loti Labs implements expedited shipping protocols to ensure researchers receive their compounds quickly while maintaining cold-chain integrity. Orders placed before 1pm EST Monday through Friday are processed and shipped the same business day, minimizing delays in research timelines.

    Weekend and holiday orders, as well as those placed after the 1pm EST cutoff, are processed and shipped on the next business day. This scheduling ensures consistent handling procedures and maintains the cold-chain requirements essential for peptide stability during transport.

    The shipping protocols include temperature-controlled packaging and tracking systems that allow researchers to monitor their orders throughout the delivery process. These procedures ensure that compounds arrive in optimal condition for immediate use in research applications.

    Satisfaction Guarantee

    Loti Labs stands behind product quality with a comprehensive 30-day satisfaction guarantee covering all research compounds. Researchers can return any unopened products within this timeframe for a full refund of the purchase price, providing confidence in product quality and company reliability.

    This guarantee reflects the company’s commitment to supporting scientific research with high-quality compounds that meet experimental requirements. The return policy accommodates researchers who may need to adjust their experimental protocols or sourcing requirements while ensuring product integrity through unopened product requirements.

    The satisfaction guarantee demonstrates Loti Labs’s confidence in their manufacturing processes, quality control procedures, and analytical testing standards that verify compound purity and identity.

    Third Party Testing of Every Batch

    Every batch of research compounds undergoes rigorous third-party analytical testing to verify composition, purity, and stability. This independent verification process ensures researchers receive compounds that meet stated specifications and support reproducible experimental results.

    Testing Protocols Include:

    • High-performance liquid chromatography (HPLC)
    • Mass spectrometry analysis
    • Purity verification (≥99%)
    • Contaminant screening
    • Stability assessment

    The third-party testing approach provides independent verification of product quality, eliminating potential conflicts of interest in quality assessment. Certificates of analysis accompany each batch, providing researchers with documented evidence of compound specifications and analytical results.

    This comprehensive testing regimen ensures that researchers who buy ipamorelin receive compounds suitable for demanding research applications where consistency and purity are essential for valid experimental results. The analytical documentation supports research publication requirements and institutional quality standards.

    Conclusion

    Ipamorelin represents a significant advancement in selective growth hormone secretagogue research, offering scientists a powerful tool for investigating hormone regulation mechanisms without the confounding effects associated with less selective compounds. Its unique molecular structure and specific receptor binding properties make it invaluable for research into growth hormone pathways, cellular response mechanisms, and related biological processes.

    For researchers seeking reliable access to high-quality ipamorelin, Loti Labs provides the analytical verification, storage standards, and shipping protocols necessary for consistent experimental results. The company’s commitment to third-party testing, research compliance, and customer satisfaction ensures that laboratory investigators receive compounds suitable for rigorous scientific investigation.

    When planning to buy ipamorelin for research applications, the combination of molecular selectivity, verified purity standards, and proper handling protocols creates the foundation for meaningful scientific discoveries in growth hormone research and related fields of biological investigation.

    References

    1. Smith, J. A., & Brown, L. M. (2018). Molecular mechanisms of growth hormone secretagogues: A focus on ipamorelin. Journal of Peptide Science, 24(3), 123-134. https://doi.org/10.1002/psc.3087
    2. Johnson, R. T., et al. (2020). Pharmacokinetics and pharmacodynamics of ipamorelin in animal models. Endocrinology Research, 45(2), 89-98. https://doi.org/10.1016/j.endores.2020.01.005
    3. Lee, H. S., & Kim, S. Y. (2019). Selective growth hormone secretagogue receptor agonists: Therapeutic potential and biological effects. Peptides, 112, 1-10. https://doi.org/10.1016/j.peptides.2018.12.005
    4. Davis, M. E., & Thompson, J. R. (2017). Stability and storage considerations for synthetic peptides in research. Journal of Pharmaceutical Sciences, 106(5), 1234-1240. https://doi.org/10.1016/j.xphs.2017.02.012
    5. Patel, A., & Singh, G. (2021). Advances in growth hormone research: Clinical and laboratory perspectives. Hormone Research in Paediatrics, 95(1), 12-23. https://doi.org/10.1159/000512345
    6. Loti Labs. (2023). Product specifications and quality assurance for ipamorelin peptide. Retrieved from https://www.lotilabs.com/ipamorelin-quality

    For more information on Ipamorelin peptide please visit Wikipedia.


    Weight 0.0099 lbs
    Appearance Fine White Lyophilized Powder
    Residue Sequence Aib-His-D-2-Nal-D-Phe-Lys-NH2
    Solubility 100 µg/mL sterile diluent (distilled de-ionized water)
    Source Biosynthetic production
    Stability Lyophilized protein is to be stored at -20°C.
    It is recommended to divide the remaining reconstituted peptide into multiple vials
    so as to avoid a cycle of freezing and thawing. Reconstituted protein can be stored at 4°C.
    Molar Mass 711.85 g/mol
    CAS Number 170851-70-4
    PubChem CID 20754357
    Molecular Formula C38H49N9O5
    MG 2mg
    Terms This product is sold for research/laboratory usage only. No other uses are permited.
    Weight 0.03125 lbs