Hexarelin 2mg

$29.99
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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 Hexarelin at Loti Labs

    Hexarelin represents a significant advancement in growth hormone research peptides, offering researchers a synthetic compound with enhanced stability and potent biological activity. As investigations into growth hormone secretagogues continue to expand, the demand for high-purity, well-characterized peptides has grown substantially among research institutions. This comprehensive guide examines the molecular characteristics, research applications, and quality standards that make hexarelin a valuable tool for laboratory investigations.

    Molecular Structure of Hexarelin

    The hexarelin peptide exhibits a precisely engineered amino acid sequence that contributes to its remarkable stability and biological activity. Understanding its molecular composition provides insight into why researchers consistently choose this compound for growth hormone studies.

    Amino Sequence: H-His-D-2-Methyl-Trp-Ala-Trp-D-Phe-Lys-NH2

    Molecular formula: C47H58N12O6

    Molecular Weight: 887 g/mol

    Pubchem CID: 9831659

    CAS #: 140703-51-1

    The structural design of hexarelin incorporates several key modifications that distinguish it from naturally occurring peptides. The presence of D-amino acids, particularly the D-2-methyl-Trp-Ala-Trp-D-Phe-Lys sequence, confers significant resistance to proteolytic degradation. Research suggests this modification allows hexarelin to maintain biological activity for extended periods compared to other peptides in its class.

    The strategic placement of the 2-methyl-Trp-Ala segment enhances the compound’s binding affinity while the Trp-D-Phe-Lys terminus provides additional stability. These structural features make hexarelin more resistant to proteolytic degradation than GHRP-6 and other growth hormone releasing peptides, extending its utility in research applications.

    Mechanism of Action

    Hexarelin is a synthetic growth hormone-releasing peptide (GHRP) that effectively stimulates GH secretion through specific receptor interactions. Research indicates that hexarelin stimulates GH secretion by binding to growth hormone secretagogue receptors (GHS-R) located in both the hypothalamus and pituitary gland.

    The compound demonstrates enhanced resistance to proteolytic degradation compared to other peptides in its class, making it particularly stable and effective for research applications. Upon receptor binding, hexarelin initiates a signaling cascade that results in increased pulsatile growth hormone release from the pituitary gland.

    Laboratory studies have shown that hexarelin exhibits greater potency than many other GHRPs at equivalent concentrations. The compound’s mechanism involves both direct pituitary stimulation and hypothalamic modulation, where it reduces somatostatin’s inhibitory effects on GH release. This dual action contributes to its robust GH-releasing properties observed in research settings.

    Research suggests hexarelin may also influence secondary hormonal responses, including effects on cortisol, prolactin, and ACTH levels, though these actions are typically less pronounced than its primary GH-releasing activity. The receptor specificity and sustained biological activity make hexarelin particularly valuable for investigations into endocrine function and metabolic processes.

    Research Studies

    Hexarelin is widely used in laboratory research for growth hormone studies and peptide research. Its potent GH-releasing properties make it valuable for investigations into endocrine function and metabolic processes. Research institutions have employed hexarelin to examine various aspects of the growth hormone/IGF-1 axis and related physiological pathways.

    Published studies have demonstrated that hexarelin consistently produces robust GH responses in experimental models, often exceeding those observed with GHRP-6 and GHRP-2 at equivalent doses. Research suggests the compound’s effects on IGF-1 secretion reflect real-world physiological outcomes of increased growth hormone activity, making it valuable for metabolic studies.

    Laboratory investigations have utilized hexarelin to examine conditions related to GH deficiency, muscle wasting research, and metabolic syndrome studies. The compound’s broad systemic influence through growth hormone pathways has made it useful for cardiovascular research and muscle atrophy investigations, though these applications remain strictly within research contexts.

    Unlike some other GHRPs, research indicates hexarelin does not produce significant desensitization or attenuated responses with repeated administration over short- to medium-term experimental periods. This characteristic enhances its utility for extended research protocols and longitudinal studies.

    Storage and Safety

    Proper storage protocols are essential for maintaining hexarelin’s stability and biological activity throughout research applications. Lyophilized hexarelin demonstrates remarkable stability under appropriate storage conditions, making it practical for laboratory use.

    Storage Requirements

    Lyophilized hexarelin, although stable at room temperature for up to 3 weeks, should be stored desiccated below -18°C for optimal long-term preservation. The sterile filtered lyophilized powder form maximizes shelf life while maintaining biochemical integrity throughout storage periods.

    Upon reconstitution, hexarelin should be stored under specific conditions to prevent degradation:

    Storage Condition Duration Requirements
    Reconstituted (4°C) 2-7 days Use sterile 18MΩ-cm H2O at ≥100 µg/ml
    Long-term storage Extended periods Store below -18°C with carrier protein
    Room temperature Up to 3 weeks Maintain desiccated conditions

    For extended storage after reconstitution, add a carrier protein such as 0.1% HSA or BSA to prevent molecular degradation. This carrier protein 0.1% HSA addition is particularly recommended for future use below -18°C storage conditions.

    Handling Protocols

    Research protocols should prevent freeze-thaw cycles to maintain peptide stability and biological activity. Multiple freeze-thaw cycles can compromise the structural integrity and reduce the compound’s effectiveness in research applications.

    When preparing other aqueous solutions containing hexarelin, researchers should consider the compound’s stability characteristics. The enhanced resistance to proteolytic degradation makes hexarelin suitable for various experimental conditions, though proper handling remains essential.

    Safety considerations focus on hexarelin’s designation as a research compound. Laboratory personnel should follow standard protocols for handling research peptides, including appropriate personal protective equipment and containment procedures.

    Benefits of Buying from Loti Labs

    Loti Labs provides hexarelin as a sterile filtered lyophilized powder without additives in sealed vials to prevent contamination and degradation. Our rigorous quality control processes ensure researchers receive compounds that meet the highest analytical standards for laboratory investigations.

    Quality Assurance

    Our products exceed 98.0% purity as verified by RP-HPLC and SDS-PAGE analysis. Each batch undergoes comprehensive analytical testing using advanced methodologies:

    • RP-HPLC Analysis: Confirms peptide purity and identifies potential impurities
    • SDS-PAGE: Verifies molecular weight and structural integrity
    • Third-party Testing: Independent verification of analytical results
    • Certificate of Analysis: Detailed documentation accompanying each batch

    We provide comprehensive quality control documentation including batch testing results and clear storage recommendations to ensure optimal research outcomes. This documentation supports researchers in maintaining compliance with laboratory standards and experimental protocols.

    Product Specifications

    Every hexarelin shipment includes detailed analytical data determined through multiple testing methodologies. The appearance of our lyophilized powder meets pharmaceutical-grade standards, ensuring consistency across research applications.

    Temperature-controlled packaging maintains product integrity during shipping, preventing degradation that could compromise research results. Our packaging protocols recognize that peptide stability during transit is crucial for maintaining biological activity.

     

    Products from Loti Labs are for Research Use Only

    All products sold by Loti Labs are intended as research compounds only. This designation allows the use of these substances strictly for in-vitro laboratory testing and experimentation. Human or veterinary use is strictly forbidden. These products are not substances for therapeutic application, food, or cosmetic use and may not be misbranded, mislabeled, or misused as such.

    Research institutions and laboratory professionals must ensure compliance with research-use-only guidelines when handling hexarelin. The compound’s classification requires adherence to specific protocols that prevent any application outside approved research contexts.

    Scientists and researchers should review institutional policies and regulatory requirements before incorporating hexarelin into experimental protocols. Proper documentation and handling procedures support compliance with research standards and legal requirements.

    Shipping Policy of Loti Labs

    Loti Labs offers same-day shipping for orders placed before 1pm EST Monday through Friday. Orders placed after 1pm EST or on weekends will be shipped the next business day. This expedited processing ensures researchers receive their compounds promptly for time-sensitive experimental protocols.

    All hexarelin shipments are provided with temperature-controlled packaging to ensure peptide stability during transit. Our shipping protocols recognize that maintaining proper storage conditions throughout the supply chain is essential for preserving biological activity and analytical integrity.

    Tracking information is provided for all shipments, allowing researchers to monitor delivery progress and prepare for compound receipt. Our shipping methods have been designed to minimize transport-related degradation while ensuring reliable delivery schedules.

    Satisfaction Guarantee

    Loti Labs offers a 30-day satisfaction guarantee on all products purchased from us. Simply return any unopened products to us for a full refund of the purchase price of the unused products. This guarantee reflects our confidence in product quality and commitment to supporting research excellence.

    Our return policy provides researchers with assurance when planning experimental protocols and budget allocations. The guarantee covers product quality concerns while supporting the specific needs of research institutions and laboratory professionals.

    Researchers can submit return requests through our customer service system, with clear documentation requirements that streamline the return process. Our goal is to minimize disruption to research schedules while maintaining the highest quality standards.

    Third Party Testing of Every Batch

    Every batch of products sold by Loti Labs undergoes rigorous third-party testing using HPLC to ensure product purity and accuracy. Our hexarelin consistently achieves >98.0% purity, verified through multiple analytical testing methods including RP-HPLC and SDS-PAGE analysis.

    Independent laboratories conduct these analyses using validated methodologies that provide objective verification of our quality claims. The testing protocols examine both purity levels and structural integrity, ensuring researchers receive compounds that meet specifications.

    Analytical results are compiled into comprehensive certificates of analysis that accompany each product shipment. These documents provide the technical data researchers need for experimental planning and regulatory compliance.

    The third-party testing approach eliminates potential conflicts of interest while providing independent verification of product specifications. Research institutions can rely on these analytical results for experimental design and publication requirements.

    Conclusion

    When researchers need to buy hexarelin for laboratory investigations, product quality and analytical verification become paramount considerations. Loti Labs addresses these requirements through comprehensive testing protocols, proper storage procedures, and detailed documentation that supports research excellence.

    The unique molecular characteristics of hexarelin, combined with its enhanced stability and resistance to proteolytic degradation, make it an invaluable tool for growth hormone research. Our commitment to providing >98% purity compounds with complete analytical documentation ensures researchers can proceed with confidence in their experimental protocols.

    For research institutions seeking reliable hexarelin supplies with comprehensive quality assurance, Loti Labs provides the analytical rigor and customer support necessary for successful laboratory investigations. Our streamlined ordering process, expedited shipping, and satisfaction guarantee support the demanding requirements of modern research environments.

    References and Citations

    1. Ghigo E, Arvat E, Muccioli G, et al. Synthetic growth hormone secretagogues: pharmacology and clinical applications. J Endocrinol. 1997;154(1):15-22.
    2. Deghenghi R, Papotti M, Ghigo E. Targeting the ghrelin receptor: therapeutic perspectives. Endocrine. 2001;14(1):13-16.
    3. Arvat E, Broglio F, Muccioli G, et al. Endocrine activities of ghrelin, a natural growth hormone secretagogue. J Clin Endocrinol Metab. 2001;86(3):1169-1174.
    4. Smith RG, Van der Ploeg LH, Howard AD. Growth hormone secretagogue receptors: physiology and therapeutic potential. Trends Endocrinol Metab. 1997;8(9):398-404.
    5. Kojima M, Kangawa K. Ghrelin: structure and function. Physiol Rev. 2005;85(2):495-522.
    6. Bowers CY. Growth hormone secretagogues and the ghrelin receptor. Vitam Horm. 2004;69:345-372.
    Weight .03125 lbs