Semaglutide – 10mg

Original price was: $125.00.Current price is: $105.00.

    Semaglutide – 10mg, Premium Lyophilized Peptide Powder, > 99% Purity.

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    Research Use

    Product Description
    BPC-157

    BPC-157 (Body Protection Compound-157) is a synthetic peptide derived from a protein found in the human stomach called BPC. It consists of a sequence of 15 amino acids. Studies into the peptide have shown promise in various research areas due to their potential therapeutic benefits.

    Some preclinical and future clinical research use cases include:

    • Wound Healing:  may accelerate the healing of wounds, including skin, muscle, tendon, ligament, and other tissue injuries.
    • Anti-Inflammatory Effects:  potential anti-inflammatory properties making it a candidate for conditions involving inflammation.
    • Gut Health:  studies into gastroprotective effects and potential treatment of gastrointestinal disorders such as inflammatory bowel disease.
    • Bone Healing:  effectiveness in promoting bone healing and regeneration, which could have implications for conditions like fractures or osteoporosis.
    • Neuroprotection and Brain Injury: Exploration of neuroprotective for neurological conditions and brain injuries.
    CJC-1295-ND

    CJC-1295 No Dac (mod GRF 1-29) is a synthetic peptide that functions as a growth hormone-releasing hormone (GHRH) analog. It is primarily researched for its ability to increase growth hormone (GH) and insulin-like growth factor 1 (IGF-1) levels.

    Some preclinical and future clinical research use cases include:

    • Growth Hormone Deficiency:  potential and safety and efficacy for treating growth hormone deficiency, improving quality of life, muscle mass, and metabolic functions.
    • Anti-Aging:   effectiveness in reducing age-related decline in growth hormone and IGF-1 levels, aiming to improve vitality, muscle mass, skin health, and overall longevity.
    • Muscle Growth and Performance:  effects on muscle growth, recovery, and performance enhancement in athletes and bodybuilders.
    • Sarcopenia: potential treatment of sarcopenia (age-related muscle loss) in elderly populations.
    • Metabolic Health/Type 2 Diabetes:   role in promoting fat loss and improving body composition, given the anabolic and lipolytic properties of increased GH levels, and impact on insulin sensitivity and metabolic markers, potentially aiding in the management of metabolic syndrome and type 2 diabetes.
    • Bone Health:   effects on bone density and strength, potentially aiding in the treatment of osteoporosis and other bone-related conditions.
    • Sleep and Recovery:   potential to improve sleep quality and patterns, given the role of GH in sleep regulation and recovery.
    • Immune Function: impact on immune function, as GH and IGF-1 are known to have immunomodulatory effects.
    • Wound Healing and Tissue Repair:  potential to enhance wound healing and tissue repair, leveraging the regenerative properties of GH.
    • Neuroprotection:   potential neuroprotective effects and its impact on cognitive function and brain health.
    • Chronic Illness:  use in counteracting muscle wasting and improving overall health in patients with chronic illnesses such as HIV/AIDS.
    Epithalon

    Epithalon (also known as Epitalon) is a synthetic tetrapeptide with potential applications in various areas of research, particularly in gerontology and longevity studies.  It is primarily researched for its potential anti-aging effects, including telomere maintenance, immune modulation, neuroprotection, and hormone regulation.

    Some preclinical and future clinical research use cases include:

    • Anti-aging and Longevity Research: potential to extend lifespan and improve overall healthspan  & activate the production of telomerase, an enzyme involved in maintaining telomere length, which could theoretically slow down cellular aging.
    • Immune System Modulation: effects on immune function, particularly its ability to enhance thymus gland function and immune system response
    • Neuroprotection and Cognitive Enhancement: neuroprotective properties, potentially reducing oxidative stress and inflammation in the brain and cognitive benefits such as improved memory and learning abilities have been observed in animal studies.
    • Hormone/Endocrine Regulation: usefulness in regulating hormone levels, particularly in balancing melatonin and cortisol secretion which impact sleep patterns, stress response, and overall metabolic health.
    • Anti-cancer Potential: effects on cancer cells, particularly its ability to inhibit metastasis and induce apoptosis (programmed cell death) in certain cancer types.
    • Oxidative Stress and Antioxidant Activity: antioxidant properties in various experimental settings, potentially reducing oxidative damage and promoting cellular health.
    • Reproductive Health: potential impact on reproductive function, including its influence on fertility and reproductive hormone levels.
    GHK-Cu

    GHK-Cu (Copper Peptide), also known as Copper Tripeptide-1 (GHK-Cu), is a copper complex of a small naturally occurring human peptide & is commonly researched for its potential therapeutic and regenerative properties.

    Some preclinical and future clinical research use cases include:

    • Wound Healing – potential wound healing and treatment of chronic wounds, burns, and other skin injuries, collagen production, and angiogenesis properties.
    • Skin Regeneration and Anti-Aging – ability to reduce wrinkles, improve skin elasticity, increase skin density, and its potential to treat various skin conditions, such as psoriasis, eczema, and UV-induced skin damage.
    • Hair Growth – effectiveness in promoting hair growth and preventing hair loss, particularly in conditions like androgenetic alopecia.
    • Anti-Inflammatory Properties – impact on inflammation and use in treating inflammatory diseases and conditions.
    • Tissue Repair & Regeneration – role in enhancing the repair and regeneration of muscle tissue and bone fractures and benefits in treating cartilage damage and conditions like osteoarthritis.
    • Antioxidant Properties – impact on oxidative stress and its potential therapeutic applications in diseases associated with oxidative damage.
    • Neuroprotective Effects – ability to protect neurons and promote nerve regeneration, which could have implications for treating neurodegenerative diseases like Alzheimer’s and Parkinson’s.
    • Cancer Research – potential anti-cancer properties and its ability to inhibit tumor growth and metastasis.
    Ipamorelin

    Ipamorelin is a growth hormone secretagogue that stimulates the release of growth hormone (GH) from the pituitary gland and is the subject to research across various fields, including endocrinology, anti-aging, muscle and bone health, metabolic diseases, gastrointestinal health, cardiovascular health, neuroprotection, and overall well-being.

    Some preclinical and future clinical research use cases include:

    • Growth Hormone Deficiency: potential treatment of GH deficiency through stimulation of the pituitary gland to release growth hormone
    • Anti-Aging Research: effectiveness of increased GH as anti-aging treatment to improve skin elasticity, increased muscle mass, reduced body fat, and potential cognitive benefits associated with elevated GH levels, including memory and learning improvements.
    • Muscle Growth and Recovery: role in promoting muscle growth and strength by stimulating protein synthesis and muscle cell proliferation and effectiveness in enhancing recovery from muscle injuries and surgeries through accelerated tissue repair and reduced inflammation.
    • Bone Density and Health: influence on bone density and its potential application in treating osteoporosis and other bone-related conditions as well as role in speeding up the healing process of bone fractures by promoting osteoblast activity and bone remodeling.
    • Metabolic Research: effects on insulin sensitivity and glucose metabolism for conditions like type 2 diabetics and lipid metabolism and its potential to reduce body fat, especially visceral fat, which is linked to metabolic diseases.
    • Gastrointestinal Health: potential protective effects on the gastrointestinal tract, including its influence on gut motility and secretion and role in treating gastrointestinal inflammatory conditions like Crohn’s disease and irritable bowel syndrome (IBS).
    • Cardiovascular Health: cardioprotective effects, particularly in the context of reducing oxidative stress and improving cardiac function endothelial function and blood vessel health, which may have implications for treating cardiovascular diseases.
    • Neuroprotective Effects: potential benefits in neuroprotection and neurogenesis, which could be relevant for diseases like Alzheimer’s and Parkinson’s.
    • Brain Injury Recovery: Investigating its effectiveness in promoting recovery and regeneration after traumatic brain injuries.
    • Sleep and Well-being: effects on sleep patterns and quality, given the role of GH in regulating sleep and impact on overall well-being, including energy levels, mood, and general quality of life.
    MT2

    Melanotan II (MT2) is a synthetic peptide that mimics the action of the naturally occurring melanocortin hormone. It is primarily researched for its ability to stimulate melanin production, but it has several other potential applications.

    Some preclinical and future clinical research use cases include:

    • Skin Tanning: ability to induce a natural tan and increase melanin production, which may provide protection against harmful UV radiation and reduce the risk of skin cancer and use as an alternative to sunbathing or tanning beds for achieving a desired skin tone without UV exposure.
    • Erectile Dysfunction: potential to treat erectile dysfunction and other sexual disorders by stimulating the melanocortin receptors that influence sexual arousal and function.
    • Appetite Suppression: effects on appetite suppression and potential use in weight loss therapies, given its influence on the central melanocortin system involved in appetite regulation.
    • Pain Management: potential analgesic effects and use in pain management, particularly for chronic pain conditions.
    • Pigmentary Disorders: Vitiligo and Hypopigmentation: Exploring its use in treating pigmentary disorders such as vitiligo, where it might help repigment affected skin areas and potential to reduce photosensitivity and improve the quality of life for individuals with EPP, a condition that causes extreme sensitivity to sunlight.
    • Photoprotection: role in enhancing skin protection against UV-induced damage and reducing the incidence of photodermatoses (skin disorders caused by exposure to sunlight).
    • Mood and Cognitive Effects: effects on mood, stress, and cognitive functions, given its interaction with the central melanocortin system which can influence brain functions.
    • Melanocortin Receptor Research: study of the melanocortin receptors (MC1R, MC3R, MC4R, etc.) and their roles in various physiological processes, including pigmentation, energy homeostasis, and inflammation.
    Mots-c

    MOTS-c (Mitochondrial Open Reading Frame of the 12S rRNA-c) is a small mitochondrial-derived peptide that has garnered interest in scientific research due to its potential role in various physiological processes from metabolic disorders and aging-related diseases to neurodegenerative conditions and cancer.

    Some preclinical and future clinical research use cases include:

    • Metabolic Regulation: role in metabolic regulation, including glucose metabolism and insulin sensitivity and ability to improve glucose uptake in skeletal muscle and adipose tissue, potentially offering therapeutic avenues for diabetes and metabolic disorders.
    • Mitochondrial Function: effectiveness in maintaining mitochondrial health and function.
    • Muscle Function and Physical Performance: potential in enhancement of muscle strength, endurance, and overall physical performance and role in improved mitochondrial function in skeletal muscle, which is crucial for energy production during exercise.
    • Anti-aging and Longevity: anti-aging effects, including its role in cellular senescence and oxidative stress, and longevity by preserving mitochondrial function and reducing age-related decline in metabolic processes.
    • Neuroprotection: ability to shield neurons from oxidative damage and improving cognitive function in neurodegenerative diseases.
    • Immune Modulation: effects on immune function, including its role in regulating inflammatory responses and immune cell activity.
    • Cardiovascular Health: potential beneficial effects on cardiovascular health, such as improving endothelial function, reducing cardiovascular risk factors, and regulating vascular smooth muscle cell proliferation and arterial stiffness.
    • Cancer Research: role as a regulator of cellular growth and apoptosis which may impact tumor growth and metastasis pathways.
    Semaglutide

    Semaglutide, a glucagon-like peptide-1 (GLP-1) receptor agonist, has several research use cases, primarily in the fields of endocrinology, metabolism, and cardiovascular health.

    Some preclinical and future clinical research use cases include:

    • Type 2 Diabetes Mellitus (T2DM) – effects on blood sugar and potential to improve glycemic control in type 2 diabetics, insulin sensitivity, and pancreatic beta-cell function.
    • Obesity and Weight Management – ability to suppress appetite and increase satiety through release of synthetic GLP-1 hormones.
    • Cardiovascular Disease – potential benefits on cardiovascular health, given the links between diabetes, obesity, and cardiovascular disease.
    • Non-alcoholic Fatty Liver Disease (NAFLD) and Non-alcoholic Steatohepatitis (NASH) – liver health and efficacy in reducing liver fat and inflammation.
    • Polycystic Ovary Syndrome (PCOS) – potential benefits in managing symptoms of PCOS, such as metabolic disturbances and infertility.
    • Anti-Inflammatory – potential anti-inflammatory properties due to ability to reduce inflammatory cytokines, modulate immune system responses, and lower systemic inflammation.
    Tirzepatide

    Tirzepatide is a synthetic dual GLP-1/GIP receptor agonist which has gained interest in the research setting for its potential use for a range of metabolic and related health conditions.

    Some preclinical and future clinical research use cases include:

    • Type 2 Diabetes Mellitus (T2DM) – efficacy in managing blood glucose and reducing HbA1c levels.
    • Obesity and Weight Management – ability to suppress appetite and increase satiety through release of synthetic GLP-1/GIP hormones.
    • Cardiovascular Disease – potential benefits on cardiovascular health, given the links between diabetes, obesity, and cardiovascular disease.
    • Non-alcoholic Fatty Liver Disease (NAFLD) and Non-alcoholic Steatohepatitis (NASH) – potential to reduce liver fat and inflammation, which are critical factors in NAFLD and NASH.
    • Polycystic Ovary Syndrome (PCOS) – potential benefits in managing symptoms of PCOS, such as metabolic disturbances and infertility.
    • Chronic Kidney Disease (CKD) – potential protective effects on kidney function, particularly in patients with diabetes, who are at higher risk for CKD.
    • Gastrointestinal Health – gastrointestinal motility and its potential benefits in conditions like gastroparesis.
    • Metabolic Syndrome – metabolic syndrome and benefits for related conditions such as hypertension, hyperglycemia, dyslipidemia, and abdominal obesity.
    • Anti-Inflammatory Properties – potential anti-inflammatory due to reduction of oxidative stress, improved endothelial function, and modulating immune responses.
    Thymosin-A1

    Thymosin Alpha-1  (Tα1) is a synthetic peptide mimicking a hormone produced by the thymus gland. It plays a crucial role in modulating immune function and has garnered interest in several areas of biomedical research, primarily centered around immune modulation, infectious diseases, cancer immunotherapy, autoimmune disorders, vaccine development, wound healing, and combating age related deterioration of the immune system (immunosenescence).

    Some preclinical and future clinical research use cases include:

    • Immune Modulation: potential immunomodulatory properties, particularly in enhancing innate and adaptive immune responses and effects on stimulating T cell proliferation, maturation, and differentiation, which are critical for effective immune surveillance and response to pathogens.
    • Infectious Diseases: role as a therapeutic agent for infectious diseases, including viral infections (such as hepatitis B and C, HIV), bacterial infections, fungal infectionsimmune, and immune system’s ability to combat pathogens and improve response to antiviral or antibiotic treatments.
    • Cancer Immunotherapy: studied in the context of cancer immunotherapy due to its ability to boost immune responses against tumor cells and ability to enhance the activity of cytotoxic T cells and natural killer (NK) cells against cancer cells, potentially improving the effectiveness of immunotherapeutic approaches.
    • Autoimmune Diseases: therapeutic potential in autoimmune diseases by modulating immune tolerance and reducing autoantibody production and treatment of conditions such as rheumatoid arthritis, multiple sclerosis, and systemic lupus erythematosus.
    • Vaccine Adjuvant: potential candidate as a vaccine adjuvant to enhance immune responses to vaccines and improved vaccine efficacy by promoting antigen-specific immune activation and memory responses.
    • Chronic Inflammatory Conditions: role in mitigating chronic inflammatory conditions by regulating cytokine production and dampening excessive inflammation and potential treatment for conditions such as chronic hepatitis, chronic obstructive pulmonary disease (COPD), and inflammatory bowel diseases have been areas of interest.
    • Wound Healing: acceleration of wound healing processes, possibly by promoting tissue repair, angiogenesis, reducing inflammation at the wound site and various types of wounds such as diabetic ulcers and surgical wounds.
    • Aging and Immunosenescence: potential to counteract age-related decline in immune function and restore immune responsiveness in elderly individuals to improve overall immune competence.
    TB500

    TB-500 (Thymosin Beta-4) is a synthetic version of a naturally occurring peptide present in various tissues in the body. It is known for its role in cell migration, wound healing, and tissue repair making it a popular arear of interest in the fields of regenerative medicine, sports medicine, and beyond.

    Some preclinical and future clinical research use cases include:

    • Wound Healing: ability to accelerate the healing process of wounds, including cuts, abrasions, surgical incisions and potential to reduce scarring and improve the quality of healed tissue.
    • Tissue Repair and Regeneration: efficacy in enhancing the repair of muscle tissue following injury or strain.
    • Tendon and Ligament Healing: role in promoting the healing of tendons and ligaments, which are slow to recover from injuries.
    • Cardiac Repair: potential to aid in the repair and regeneration of heart tissue following myocardial infarction (heart attack).
    • Anti-Inflammatory Effects: ability to reduce inflammation in chronic inflammatory conditions such as arthritis and its effects on reducing acute inflammation following injuries or surgeries.
    • Angiogenesis: role in promoting angiogenesis (the formation of new blood vessels), which is crucial for tissue regeneration and healing.
    • Cell Migration and Differentiation: effects on stem cell migration and differentiation, potentially aiding in regenerative medicine and tissue engineering and how it influences the proliferation and migration of various cell types involved in tissue repair.
    • Hair Growth: potential to stimulate hair growth and treat conditions like alopecia (hair loss).
    • Eye Health: effectiveness in promoting the healing of corneal injuries and treating dry eye syndrome.
    • Cardiovascular Health: potential cardioprotective effects, including the reduction of heart tissue damage and improvement of heart function following ischemic events.
    • Neurological Health: ability to support the repair of nervous tissue following injury or in neurodegenerative conditions.
    • Immune Modulation: impact on the immune system and its potential to modulate immune responses, which could be beneficial in autoimmune diseases or for enhancing immune function.
    Retatrutide

    Retatrutide, as a novel peptide drug and triple glucagon hormone receptor agonist that offers several potential research use cases, particularly in the fields of obesity, diabetes, and metabolic disorders.

    Some preclinical and future clinical research use cases include:

    • Weight Management and Obesity Treatment: efficacy in weight loss and how its action on GLP-1, GIP, and glucagon receptors influences appetite regulation, satiety, and energy expenditure.
    • Type 2 Diabetes Management: impact on blood glucose levels and HbA1c in patients with type 2 diabetes and how it affects insulin sensitivity and pancreatic function.
    • Metabolic Syndrome Research: various aspects of metabolic syndrome, including lipid profiles, blood pressure, and markers of inflammation.
    Tesamorelin

    Tesamorelin is a synthetic peptide that is a growth hormone-releasing hormone (GHRH) analogue. It is used in clinical settings primarily for managing HIV-associated lipodystrophy but has also been studied for various other conditions in both preclinical and clinical research.

    Some preclinical and future clinical research use cases include:

    • Metabolic and fat distribution disorders (e.g., HIV-associated lipodystrophy, metabolic syndrome)
    • Obesity and visceral fat reduction
    • Sarcopenia and muscle wasting conditions
    • Bone density and cardiovascular health
    • Cognitive function, particularly in aging and neurodegenerative diseases
    • Growth hormone deficiency treatment

    Product Specifications

    Please read our Terms and Conditions before purchasing any product from this website.
    Attribute NameAttribute Description
    1SemaglutideCAS #910463-68-2
    1RetatrutideCAS #2381089-83-2
    2SemaglutideVial SpecsClear glass medicine vial. May differ slightly from product image.
    2RetatrutideVial SpecsClear glass medicine vial. May differ slightly from product image.
    3SemaglutideProduct ColorWhite lyophilized powder
    3RetatrutideProduct ColorWhite lyophilized powder
    3TesamorelinProduct ColorWhite lyophilized powder
    4SemaglutidePubChem CID56843331
    4RetatrutidePubChem CID474492335
    4TesamorelinPubChem CID146681838
    5SemaglutideMolecular Weight4113.64 g/mol
    5RetatrutideMolecular Weight4731.34 g/mol
    5TesamorelinMolecular Weight5136 g/mol
    6SemaglutideMolecular FormulaC187H291N45059
    6RetatrutideMolecular FormulaC221H342N46O68
    6TesamorelinMolecular FormulaC221H366N72O67S
    7SemaglutideStorage (Shelf Life)For up to 2 years at 39 degrees fahrenheit and 3 years at -4 degree fahrenheit
    7RetatrutideStorage (Shelf Life)For up to 2 years at 39 degrees fahrenheit and 3 years at -4 degree fahrenheit
    9TesamorelinChemical Referencehttps://pubchem.ncbi.nlm.nih.gov/compound/146681838
    9SemaglutideChemical Referencehttps://pubchem.ncbi.nlm.nih.gov/compound/5684333
    9RetatrutideChemical Referencehttps://pubchem.ncbi.nlm.nih.gov/substance/474492335
    1GHK-Cu-RawCAS #49557-75-7
    1TesamorelinCAS #218949-48-5
    2GHK-Cu-RawVial SpecsClear glass medicine vial. May differ slightly from product image.
    2TesamorelinVial SpecsClear glass medicine vial. May differ slightly from product image.
    3GHK-Cu-RawProduct ColorWhite powder
    4GHK-Cu-RawPubChem CID73587
    5GHK-Cu-RawMolecular Weight340.38 g/mol
    6GHK-Cu-RawMolecular FormulaC14H24N6O4
    7GHK-Cu-RawStorageStore in a cool dark place. For best preservation, store at 4°C or colder.
    9GHK-Cu-RawChemical Referencehttps://pubchem.ncbi.nlm.nih.gov/compound/73587
    1Semaglutide-RawCAS #910463-68-2
    2Semaglutide-RawVial SpecsClear glass medicine vial. May differ slightly from product image.
    3Semaglutide-RawProduct ColorWhite powder
    4Semaglutide-RawPubChem CID56843331
    5Semaglutide-RawMolecular Weight4113.64 g/mol
    6Semaglutide-RawMolecular FormulaC187H291N45059
    7Semaglutide-RawStorageStore in a cool dark place. For best preservation, store at 4°C or colder.
    9Semaglutide-RawChemical Referencehttps://pubchem.ncbi.nlm.nih.gov/compound/5684333
    1BPC-157-RawCAS #137525-51-0
    2BPC-157-RawVial SpecsClear glass medicine vial. May differ slightly from product image.
    3BPC-157-RawProduct ColorWhite powder
    4BPC-157-RawPubChem CID9941957
    5BPC-157-RawMolecular Weight1419.5 g/mol
    6BPC-157-RawMolecular FormulaC62H98N16O22
    7BPC-157-RawStorageStore in a cool dark place. For best preservation, store at 4°C or colder.
    9BPC-157-RawChemical Referencehttps://pubchem.ncbi.nlm.nih.gov/compound/9941957
    1Tirzepatide-RawCAS #2023788-19-2
    2Tirzepatide-RawVial SpecsClear glass medicine vial. May differ slightly from product image.
    3Tirzepatide-RawProduct ColorWhite powder
    4Tirzepatide-RawPubChem CIDNot available because this is not a discrete structure.
    5Tirzepatide-RawMolecular WeightNot available
    6Tirzepatide-RawMolecular FormulaC187H291N45059
    7Tirzepatide-RawStorage (Shelf Life)Store in a cool dark place. For best preservation, store at 4°C or colder.
    9Tirzepatide-RawChemical Referencehttps://pubchem.ncbi.nlm.nih.gov/compound/Tirzepatide
    1BPC-157CAS #137525-51-0
    2BPC-157Vial SpecsClear glass medicine vial. May differ slightly from product image.
    3BPC-157Product ColorWhite lyophilized powder
    4BPC-157PubChem CID9941957
    5BPC-157Molecular Weight1419.5 g/mol
    6BPC-157Molecular FormulaC62H98N16O22
    7BPC-157Storage (Shelf Life)For up to 2 years at 39 degrees fahrenheit and 3 years at -4 degree fahrenheit
    9BPC-157Chemical Referencehttps://pubchem.ncbi.nlm.nih.gov/compound/9941957
    1CJC-1295-NDCAS #863288-34-0
    2CJC-1295-NDVial SpecsClear glass medicine vial. May differ slightly from product image.
    3CJC-1295-NDProduct ColorWhite lyophilized powder
    4CJC-1295-NDPubChem CID56841945
    5CJC-1295-NDMolecular Weight3367.9 g/mol
    6CJC-1295-NDMolecular FormulaC152H252N44O42
    7CJC-1295-NDStorageStore in a cool, dark place. For best preservation, store them under refrigeration at 4°C or colder.
    9CJC-1295-NDChemical Referencehttps://pubchem.ncbi.nlm.nih.gov/compound/56841945
    1EpithalonCAS #307297-39-8
    2EpithalonVial SpecsClear glass medicine vial. May differ slightly from product image.
    3EpithalonProduct ColorWhite lyophilized powder
    4EpithalonPubChem CID219042
    5EpithalonMolecular Weight390.35 g/mol
    6EpithalonMolecular FormulaC14H22N4O9
    7EpithalonStorage (Shelf Life)For up to 2 years at 39 degrees fahrenheit and 3 years at -4 degree fahrenheit
    9EpithalonChemical Referencehttps://pubchem.ncbi.nlm.nih.gov/compound/219042
    1GHK-CuCAS #49557-75-7
    2GHK-CuVial SpecsClear glass medicine vial. May differ slightly from product image.
    3GHK-CuProduct ColorBlue powder
    4GHK-CuPubChem CID73587
    5GHK-CuMolecular Weight340.38 g/mol
    6GHK-CuMolecular FormulaC14H24N6O4
    7GHK-CuStorage (Shelf Life)For up to 2 years at 39 degrees fahrenheit and 3 years at -4 degree fahrenheit
    9GHK-CuChemical Referencehttps://pubchem.ncbi.nlm.nih.gov/compound/73587
    1IpamorelinCAS #170851-70-4
    2IpamorelinVial SpecsClear glass medicine vial. May differ slightly from product image.
    3IpamorelinProduct ColorWhite lyophilized powder
    4IpamorelinPubChem CID9831659
    5IpamorelinMolecular Weight711.9 g/mol
    6IpamorelinMolecular FormulaC38H49N9O5
    7IpamorelinStorage (Shelf Life)For up to 2 years at 39 degrees fahrenheit and 3 years at -4 degree fahrenheit
    9IpamorelinChemical Referencehttps://pubchem.ncbi.nlm.nih.gov/compound/9831659
    1Mots-CCAS #1627580-64-6
    2Mots-CVial SpecsClear glass medicine vial. May differ slightly from product image.
    3Mots-CProduct ColorWhite lyophilized powder
    4Mots-CPubChem CID146675088
    5Mots-CMolecular Weight2174.6 g/mol
    6Mots-CMolecular FormulaC101H152N28O22S2
    7Mots-CStorage (Shelf Life)For up to 2 years at 39 degrees fahrenheit and 3 years at -4 degree fahrenheit
    9Mots-CChemical Referencehttps://pubchem.ncbi.nlm.nih.gov/compound/146675088
    1Melanotan-MT2CAS #121062-08-6
    2Melanotan-MT2Vial SpecsClear glass medicine vial. May differ slightly from product image.
    3Melanotan-MT2Product ColorWhite lyophilized powder
    4Melanotan-MT2PubChem CID92432
    5Melanotan-MT2Molecular Weight1024.2 g/mol
    6Melanotan-MT2Molecular FormulaC50H69N15O9
    7Melanotan-MT2Storage (Shelf Life)For up to 2 years at 39 degrees fahrenheit and 3 years at -4 degree fahrenheit
    9Melanotan-MT2Chemical Referencehttps://pubchem.ncbi.nlm.nih.gov/compound/92432
    1TB-500CAS #77591-33-4
    2TB-500Vial SpecsClear glass medicine vial. May differ slightly from product image.
    3TB-500Product ColorWhite lyophilized powder
    4TB-500PubChem CID16132341
    5TB-500Molecular Weight4963 g/mol
    6TB-500Molecular FormulaC212H350N56O78S
    7TB-500Storage (Shelf Life)For up to 2 years at 39 degrees fahrenheit and 3 years at -4 degree fahrenheit
    9TB-500Chemical Referencehttps://pubchem.ncbi.nlm.nih.gov/compound/16132341
    1Thymosin A1CAS #62304-98-7
    2Thymosin A1Vial SpecsClear glass medicine vial. May differ slightly from product image.
    3Thymosin A1Product ColorWhite lyophilized powder
    4Thymosin A1PubChem CID16130571
    5Thymosin A1Molecular Weight3108.3 g/mol
    6Thymosin A1Molecular FormulaC129H215N33O55
    7Thymosin A1Storage (Shelf Life)For up to 2 years at 39 degrees fahrenheit and 3 years at -4 degree fahrenheit
    9Thymosin A1Chemical Referencehttps://pubchem.ncbi.nlm.nih.gov/compound/Thymalfasin
    1TirzepatideCAS #2023788-19-2
    2TirzepatideVial SpecsClear glass medicine vial. May differ slightly from product image.
    3TirzepatideProduct ColorWhite lyophilized powder
    4TirzepatidePubChem CIDNot available because this is not a discrete structure.
    5TirzepatideMolecular WeightNot available
    6TirzepatideMolecular FormulaC187H291N45059
    7TirzepatideStorage (Shelf Life)For up to 2 years at 39 degrees fahrenheit and 3 years at -4 degree fahrenheit
    9TirzepatideChemical Referencehttps://pubchem.ncbi.nlm.nih.gov/compound/Tirzepatide
    PEP-SEMA-10MG-COA_000780-JANO

    Reference Articles

    *All information found here or in our Reference Library is for educational purposes only. Citations are not a source, study claim, or advertisement for products sold on this website.
    SourceSubjectReference TitleCitationMore Info
    Thymosin Alpha-1National Library of Medicine (NIH)CancerA Reappraisal of Thymosin Alpha1 in Cancer TherapyCostantini C, Bellet MM, Pariano M, Renga G, Stincardini C, Goldstein AL, Garaci E, Romani L. A Reappraisal of Thymosin Alpha1 in Cancer Therapy. Front Oncol. 2019 Sep 6;9:873. doi: 10.3389/fonc.2019.00873. PMID: 31555601; PMCID: PMC6742685.View
    Thymosin Alpha-1National Library of Medicine (NIH)Hepatitis BThymosin alpha-1 treatment in chronic hepatitis BWu X, Jia J, You H. Thymosin alpha-1 treatment in chronic hepatitis B. Expert Opin Biol Ther. 2015;15 Suppl 1:S129-32. doi: 10.1517/14712598.2015.1007948. Epub 2015 Feb 1. PMID: 25640173.View
    Thymosin Alpha-1National Library of Medicine (NIH)Cystic FibrosisThymosin alpha 1 exerts beneficial extrapulmonary effects in cystic fibrosisBellet MM, Borghi M, Pariano M, Renga G, Stincardini C, D’Onofrio F, Brancorsini S, Garaci E, Costantini C, Romani L. Thymosin alpha 1 exerts beneficial extrapulmonary effects in cystic fibrosis. Eur J Med Chem. 2021 Jan 1;209:112921. doi: 10.1016/j.ejmech.2020.112921. Epub 2020 Oct 9. PMID: 33071052.View
    Thymosin Alpha-1National Library of Medicine (NIH)Infectious DiseaseThymosin α1 and Its Role in Viral Infectious Diseases: The Mechanism and Clinical ApplicationTao N, Xu X, Ying Y, Hu S, Sun Q, Lv G, Gao J. Thymosin α1 and Its Role in Viral Infectious Diseases: The Mechanism and Clinical Application. Molecules. 2023 Apr 17;28(8):3539. doi: 10.3390/molecules28083539. PMID: 37110771; PMCID: PMC10144173.View
    Thymosin Alpha-1National Library of Medicine (NIH)Respiratory (COPD)Thymosin α1 plus routine treatment inhibit inflammatory reaction and improve the quality of life in AECOPD patientsJia Z, Feng Z, Tian R, Wang Q, Wang L. Thymosin α1 plus routine treatment inhibit inflammatory reaction and improve the quality of life in AECOPD patients. Immunopharmacol Immunotoxicol. 2015;37(4):388-92. doi: 10.3109/08923973.2015.1069837. PMID: 26250523.View
    Thymosin Alpha-1ACS OmegaCancer (Lung)Modified Thymosin Alpha 1 Distributes and Inhibits the Growth of Lung Cancer in VivoRenhao Peng, Caoying Xu, Heng Zheng, and Xingzhen Lao ACS Omega 2020 5 (18), 10374-10381 DOI: 10.1021/acsomega.0c00220View
    SemaglutideNational Library of Medicine (NIH)DiabetesSemaglutide, a glucagon like peptide-1 receptor agonist with cardiovascular benefits for management of type 2 diabetesMahapatra MK, Karuppasamy M, Sahoo BM. Semaglutide, a glucagon like peptide-1 receptor agonist with cardiovascular benefits for management of type 2 diabetes. Rev Endocr Metab Disord. 2022 Jun;23(3):521-539. doi: 10.1007/s11154-021-09699-1. Epub 2022 Jan 7. PMID: 34993760; PMCID: PMC8736331.View
    RetatrutideNational Library of Medicine (NIH)DiabetesRetatrutide, a GIP, GLP-1 and glucagon receptor agonist, for people with type 2 diabetes: a randomised, double-blind, placebo and active-controlled, parallel-group, phase 2 trial conducted in the USARosenstock J, Frias J, Jastreboff AM, Du Y, Lou J, Gurbuz S, Thomas MK, Hartman ML, Haupt A, Milicevic Z, Coskun T. Retatrutide, a GIP, GLP-1 and glucagon receptor agonist, for people with type 2 diabetes: a randomised, double-blind, placebo and active-controlled, parallel-group, phase 2 trial conducted in the USA. Lancet. 2023 Aug 12;402(10401):529-544. doi: 10.1016/S0140-6736(23)01053-X. Epub 2023 Jun 26. PMID: 37385280.View
    SemaglutideNational Library of Medicine (NIH)Weight LossWeight Loss Outcomes Associated With Semaglutide Treatment for Patients With Overweight or ObesityGhusn W, De la Rosa A, Sacoto D, Cifuentes L, Campos A, Feris F, Hurtado MD, Acosta A. Weight Loss Outcomes Associated With Semaglutide Treatment for Patients With Overweight or Obesity. JAMA Netw Open. 2022 Sep 1;5(9):e2231982. doi: 10.1001/jamanetworkopen.2022.31982. PMID: 36121652; PMCID: PMC9486455.View
    RetatrutideNational Library of Medicine (NIH)Weight LossUnleashing the power of retatrutide: A possible triumph over obesity and overweight: A correspondenceNaeem M, Imran L, Banatwala UESS. Unleashing the power of retatrutide: A possible triumph over obesity and overweight: A correspondence. Health Sci Rep. 2024 Feb 5;7(2):e1864. doi: 10.1002/hsr2.1864. PMID: 38323122; PMCID: PMC10844714.View
    SemaglutideNational Library of Medicine (NIH)Liver (NAFLD)Effect of semaglutide on liver enzymes and markers of inflammation in subjects with type 2 diabetes and/or obesityNewsome P, Francque S, Harrison S, Ratziu V, Van Gaal L, Calanna S, Hansen M, Linder M, Sanyal A. Effect of semaglutide on liver enzymes and markers of inflammation in subjects with type 2 diabetes and/or obesity. Aliment Pharmacol Ther. 2019 Jul;50(2):193-203. doi: 10.1111/apt.15316. Epub 2019 Jun 10. PMID: 31246368; PMCID: PMC6617813.View
    BPC-157National Library of Medicine (NIH)Healing (Tendon)The promoting effect of pentadecapeptide BPC 157 on tendon healing involves tendon outgrowth, cell survival, and cell migrationChang CH, Tsai WC, Lin MS, Hsu YH, Pang JH. The promoting effect of pentadecapeptide BPC 157 on tendon healing involves tendon outgrowth, cell survival, and cell migration. J Appl Physiol (1985). 2011 Mar;110(3):774-80. doi: 10.1152/japplphysiol.00945.2010. Epub 2010 Oct 28. PMID: 21030672.View
    BPC-157National Library of Medicine (NIH)Arthritis (Knee Pain)Intra-Articular Injection of BPC 157 for Multiple Types of Knee PainLee E, Padgett B. Intra-Articular Injection of BPC 157 for Multiple Types of Knee Pain. Altern Ther Health Med. 2021 Jul;27(4):8-13. PMID: 34324435.View
    BPC-157National Library of Medicine (NIH)Wound HealingStable Gastric Pentadecapeptide BPC 157 and Wound HealingSeiwerth S, Milavic M, Vukojevic J, Gojkovic S, Krezic I, Vuletic LB, Pavlov KH, Petrovic A, Sikiric S, Vranes H, Prtoric A, Zizek H, Durasin T, Dobric I, Staresinic M, Strbe S, Knezevic M, Sola M, Kokot A, Sever M, Lovric E, Skrtic A, Blagaic AB, Sikiric P. Stable Gastric Pentadecapeptide BPC 157 and Wound Healing. Front Pharmacol. 2021 Jun 29;12:627533. doi: 10.3389/fphar.2021.627533. PMID: 34267654; PMCID: PMC8275860.View
    GHK-CuNational Library of Medicine (NIH)Multiple (Anti-aging, Healing, Inflammation, Hair Growth)Regenerative and Protective Actions of the GHK-Cu Peptide in the Light of the New Gene DataPickart L, Margolina A. Regenerative and Protective Actions of the GHK-Cu Peptide in the Light of the New Gene Data. Int J Mol Sci. 2018 Jul 7;19(7):1987. doi: 10.3390/ijms19071987. PMID: 29986520; PMCID: PMC6073405.View
    GHK-CuNational Library of Medicine (NIH)Hair RegenerationThermodynamically stable ionic liquid microemulsions pioneer pathways for topical delivery and peptide applicationLiu T, Liu Y, Zhao X, Zhang L, Wang W, Bai D, Liao Y, Wang Z, Wang M, Zhang J. Thermodynamically stable ionic liquid microemulsions pioneer pathways for topical delivery and peptide application. Bioact Mater. 2023 Nov 1;32:502-513. doi: 10.1016/j.bioactmat.2023.10.002. PMID: 38026438; PMCID: PMC10643103.View
    CJC-1295-NDNational Library of Medicine (NIH)Bone Density (Osteoporosis)Growth hormone increases bone mineral content in postmenopausal osteoporosis: a randomized placebo-controlled trialLandin-Wilhelmsen K, Nilsson A, Bosaeus I, Bengtsson BA. Growth hormone increases bone mineral content in postmenopausal osteoporosis: a randomized placebo-controlled trial. J Bone Miner Res. 2003 Mar;18(3):393-405. doi: 10.1359/jbmr.2003.18.3.393. PMID: 12619921.View
    TB-500National Library of Medicine (NIH)Wound HealingThymosin beta4 accelerates wound healingMalinda KM, Sidhu GS, Mani H, Banaudha K, Maheshwari RK, Goldstein AL, Kleinman HK. Thymosin beta4 accelerates wound healing. J Invest Dermatol. 1999 Sep;113(3):364-8. doi: 10.1046/j.1523-1747.1999.00708.x. PMID: 10469335.View
    TB-500National Library of Medicine (NIH)Hair GrowthThymosin beta 4 induces hair growth via stem cell migration and differentiationPhilp D, St-Surin S, Cha HJ, Moon HS, Kleinman HK, Elkin M. Thymosin beta 4 induces hair growth via stem cell migration and differentiation. Ann N Y Acad Sci. 2007 Sep;1112:95-103. doi: 10.1196/annals.1415.009. PMID: 17947589.View
    TB-500National Library of Medicine (NIH)Anti-InflammatoryThymosin beta 4 sulfoxide is an anti-inflammatory agent generated by monocytes in the presence of glucocorticoidsYoung JD, Lawrence AJ, MacLean AG, Leung BP, McInnes IB, Canas B, Pappin DJ, Stevenson RD. Thymosin beta 4 sulfoxide is an anti-inflammatory agent generated by monocytes in the presence of glucocorticoids. Nat Med. 1999 Dec;5(12):1424-7. doi: 10.1038/71002. PMID: 10581087.View
    TesamorelinNational Library of Medicine (NIH)Visceral Fat, HIVVisceral Fat Reduction with Tesamorelin Is Associated with Improved Liver Enzymes in HIVFourman LT, Czerwonka N, Feldpausch MN, Weiss J, Mamputu JC, Falutz J, Morin J, Marsolais C, Stanley TL, Grinspoon SK. Visceral fat reduction with tesamorelin is associated with improved liver enzymes in HIV. AIDS. 2017 Oct 23;31(16):2253-2259. doi: 10.1097/QAD.0000000000001614. PMID: 28832410; PMCID: PMC5633509.View
    TesamorelinNational Library of Medicine (NIH)NAFLDEffects of Tesamorelin on Nonalcoholic Fatty Liver Disease in HIV: A Randomized, Double-Blind, Multicenter TrialStanley TL, Fourman LT, Feldpausch MN, Purdy J, Zheng I, Pan CS, Aepfelbacher J, Buckless C, Tsao A, Kellogg A, Branch K, Lee H, Liu CY, Corey KE, Chung RT, Torriani M, Kleiner DE, Hadigan CM, Grinspoon SK. Effects of tesamorelin on non-alcoholic fatty liver disease in HIV: a randomised, double-blind, multicentre trial. Lancet HIV. 2019 Dec;6(12):e821-e830. doi: 10.1016/S2352-3018(19)30338-8. Epub 2019 Oct 11. PMID: 31611038; PMCID: PMC6981288.View
    TesamorelinNational Library of Medicine (NIH)Scarpenia, HIVThe Growth Hormone Releasing Hormone Analogue, Tesamorelin, Decreases Muscle Fat and Increases Muscle Area in Adults with HIVAdrian S, Scherzinger A, Sanyal A, Lake JE, Falutz J, Dubé MP, Stanley T, Grinspoon S, Mamputu JC, Marsolais C, Brown TT, Erlandson KM. The Growth Hormone Releasing Hormone Analogue, Tesamorelin, Decreases Muscle Fat and Increases Muscle Area in Adults with HIV. J Frailty Aging. 2019;8(3):154-159. doi: 10.14283/jfa.2018.45. PMID: 31237318; PMCID: PMC6766405.View
    TB-500National Library of Medicine (NIH)Regenerative (Healing)The regenerative peptide thymosin ?4 accelerates the rate of dermal healing in preclinical animal models and in patientsTreadwell T, Kleinman HK, Crockford D, Hardy MA, Guarnera GT, Goldstein AL. The regenerative peptide thymosin ?4 accelerates the rate of dermal healing in preclinical animal models and in patients. Ann N Y Acad Sci. 2012 Oct;1270:37-44. doi: 10.1111/j.1749-6632.2012.06717.x. PMID: 23050815.View
    TB-500National Library of Medicine (NIH)Performance EnhancementThe potential use and abuse of thymosin ?-4 in sport and exercise scienceDavison G, Brown S. The potential use and abuse of thymosin ?-4 in sport and exercise science. J Sports Sci. 2013;31(9):917-8. doi: 10.1080/02640414.2013.771958. Epub 2013 Feb 20. PMID: 23421910.View
    TB-500National Library of Medicine (NIH)Traumatic Brain InjuryNeuroprotective and neurorestorative effects of Thymosin beta 4 treatment following experimental traumatic brain injuryXiong Y, Mahmood A, Meng Y, Zhang Y, Zhang ZG, Morris DC, Chopp M. Neuroprotective and neurorestorative effects of thymosin ?4 treatment following experimental traumatic brain injury. Ann N Y Acad Sci. 2012 Oct;1270:51-8. doi: 10.1111/j.1749-6632.2012.06683.x. PMID: 23050817; PMCID: PMC3547647.View
    TB-500National Library of Medicine (NIH)Regenerative (Cardiac)Thymosin beta4 and cardiac repairShrivastava S, Srivastava D, Olson EN, DiMaio JM, Bock-Marquette I. Thymosin beta4 and cardiac repair. Ann N Y Acad Sci. 2010 Apr;1194:87-96. doi: 10.1111/j.1749-6632.2010.05468.x. PMID: 20536454.View
    TB-500National Library of Medicine (NIH)Liver (NAFLD)Potential role of thymosin beta 4 in the treatment of nonalcoholic fatty liver diseaseJiang Y, Han T, Zhang ZG, Li M, Qi FX, Zhang Y, Ji YL. Potential role of thymosin beta 4 in the treatment of nonalcoholic fatty liver disease. Chronic Dis Transl Med. 2017 Jul 8;3(3):165-168. doi: 10.1016/j.cdtm.2017.06.003. PMID: 29063072; PMCID: PMC5643779.View
    EpithalonNational Library of Medicine (NIH)Anti-AgingEffect of Epitalon on biomarkers of aging, life span and spontaneous tumor incidence in female Swiss-derived SHR miceAnisimov VN, Khavinson VKh, Popovich IG, Zabezhinski MA, Alimova IN, Rosenfeld SV, Zavarzina NY, Semenchenko AV, Yashin AI. Effect of Epitalon on biomarkers of aging, life span and spontaneous tumor incidence in female Swiss-derived SHR mice. Biogerontology. 2003;4(4):193-202. doi: 10.1023/a:1025114230714. PMID: 14501183.View
    EpithalonNational Library of Medicine (NIH)Cancer (Tumors)Effect of the synthetic pineal peptide epitalon on spontaneous carcinogenesis in female C3H/He miceKossoy G, Anisimov VN, Ben-Hur H, Kossoy N, Zusman I. Effect of the synthetic pineal peptide epitalon on spontaneous carcinogenesis in female C3H/He mice. In Vivo. 2006 Mar-Apr;20(2):253-7. PMID: 16634527.View
    EpithalonAlzheimers Drug Discovery FoundationCognitive, Aging, CancerEpithalamin/EpithalonAlzheimer’s Drug Discovery Foundation. (n.d.). Cognitive vitality reports. https://www.alzdiscovery.org/uploads/cognitive_vitality_media/Epithalamin-and-Epithalon-Cognitive-Vitality-For-Researchers.pdfView
    EpithalonNational Library of Medicine (NIH)Neuroendocrine Regulation (Melatonin Synthesis – Improved Sleep)Synthetic tetrapeptide epitalon restores disturbed neuroendocrine regulation in senescent monkeysKhavinson V, Goncharova N, Lapin B. Synthetic tetrapeptide epitalon restores disturbed neuroendocrine regulation in senescent monkeys. Neuro Endocrinol Lett. 2001 Aug;22(4):251-4. PMID: 11524632.View
    IpamorelinNational Library of Medicine (NIH)Growth HormoneIpamorelin, a new growth-hormone-releasing peptide, induces longitudinal bone growth in ratsJohansen PB, Nowak J, Skjaerbaek C, Flyvbjerg A, Andreassen TT, Wilken M, Orskov H. Ipamorelin, a new growth-hormone-releasing peptide, induces longitudinal bone growth in rats. Growth Horm IGF Res. 1999 Apr;9(2):106-13. doi: 10.1054/ghir.1999.9998. PMID: 10373343.View
    IpamorelinNational Library of Medicine (NIH)Body Composition (Hypogonadal)Beyond the androgen receptor: the role of growth hormone secretagogues in the modern management of body composition in hypogonadal malesSinha DK, Balasubramanian A, Tatem AJ, Rivera-Mirabal J, Yu J, Kovac J, Pastuszak AW, Lipshultz LI. Beyond the androgen receptor: the role of growth hormone secretagogues in the modern management of body composition in hypogonadal males. Transl Androl Urol. 2020 Mar;9(Suppl 2):S149-S159. doi: 10.21037/tau.2019.11.30. PMID: 32257855; PMCID: PMC7108996.View
    IpamorelinNational Library of Medicine (NIH)Gastric Emptying (Dysmotility)Efficacy of ipamorelin, a ghrelin mimetic, on gastric dysmotility in a rodent model of postoperative ileusGreenwood-Van Meerveld B, Tyler K, Mohammadi E, Pietra C. Efficacy of ipamorelin, a ghrelin mimetic, on gastric dysmotility in a rodent model of postoperative ileus. J Exp Pharmacol. 2012 Oct 19;4:149-55. doi: 10.2147/JEP.S35396. PMID: 27186127; PMCID: PMC4863553.View
    BPC-157National Library of Medicine (NIH)Hormone RegulationPentadecapeptide BPC 157 enhances the growth hormone receptor expression in tendon fibroblastsChang CH, Tsai WC, Hsu YH, Pang JH. Pentadecapeptide BPC 157 enhances the growth hormone receptor expression in tendon fibroblasts. Molecules. 2014 Nov 19;19(11):19066-77. doi: 10.3390/molecules191119066. PMID: 25415472; PMCID: PMC6271067.View
    BPC-157National Library of Medicine (NIH)Anti-InflammtoryAntiinflammatory effect of BPC 157 on experimental periodontitis in ratsKeremi B, Lohinai Z, Komora P, Duhaj S, Borsi K, Jobbagy-Ovari G, Kallo K, Szekely AD, Fazekas A, Dobo-Nagy C, Sikiric P, Varga G. Antiinflammatory effect of BPC 157 on experimental periodontitis in rats. J Physiol Pharmacol. 2009 Dec;60 Suppl 7:115-22. PMID: 20388954.View
    BPC-157National Library of Medicine (NIH)Brain-Gut (GI – Gastrointestinal)Brain-gut Axis and Pentadecapeptide BPC 157: Theoretical and Practical ImplicationsSikiric P, Seiwerth S, Rucman R, Kolenc D, Vuletic LB, Drmic D, Grgic T, Strbe S, Zukanovic G, Crvenkovic D, Madzarac G, Rukavina I, Sucic M, Baric M, Starcevic N, Krstonijevic Z, Bencic ML, Filipcic I, Rokotov DS, Vlainic J. Brain-gut Axis and Pentadecapeptide BPC 157: Theoretical and Practical Implications. Curr Neuropharmacol. 2016;14(8):857-865. doi: 10.2174/1570159×13666160502153022. PMID: 27138887; PMCID: PMC5333585.View
    BPC-157National Library of Medicine (NIH)Central Nervous System (Brain-Gut Axis)Pentadecapeptide BPC 157 and the central nervous systemVukojevic J, Milavić M, Perović D, Ilić S, Čilić AZ, Đuran N, Štrbe S, Zoričić Z, Filipčić I, Brečić P, Seiverth S, Sikirić P. Pentadecapeptide BPC 157 and the central nervous system. Neural Regen Res. 2022 Mar;17(3):482-487. doi: 10.4103/1673-5374.320969. PMID: 34380875; PMCID: PMC8504390.View
    GHK-CuNational Library of Medicine (NIH)Skin Regeneration (Tissue Repair)GHK Peptide as a Natural Modulator of Multiple Cellular Pathways in Skin RegenerationPickart L, Vasquez-Soltero JM, Margolina A. GHK Peptide as a Natural Modulator of Multiple Cellular Pathways in Skin Regeneration. Biomed Res Int. 2015;2015:648108. doi: 10.1155/2015/648108. Epub 2015 Jul 7. PMID: 26236730; PMCID: PMC4508379.View
    GHK-CuNational Library of Medicine (NIH)Anti-AgingThe potential of GHK as an anti-aging peptideDou Y, Lee A, Zhu L, Morton J, Ladiges W. The potential of GHK as an anti-aging peptide. Aging Pathobiol Ther. 2020 Mar 27;2(1):58-61. doi: 10.31491/apt.2020.03.014. PMID: 35083444; PMCID: PMC8789089.View
    GHK-CuNational Library of Medicine (NIH)Hair GrowthThe effect of tripeptide-copper complex on human hair growth in vitroPyo HK, Yoo HG, Won CH, Lee SH, Kang YJ, Eun HC, Cho KH, Kim KH. The effect of tripeptide-copper complex on human hair growth in vitro. Arch Pharm Res. 2007 Jul;30(7):834-9. doi: 10.1007/BF02978833. PMID: 17703734.View
    CJC-1295-NDNational Library of Medicine (NIH)Growth HormoneAn immuno polymerase chain reaction screen for the detection of CJC-1295 and other growth-hormone-releasing hormone analogs in equine plasmaTimms M, Ganio K, Forbes G, Bailey S, Steel R. An immuno polymerase chain reaction screen for the detection of CJC-1295 and other growth-hormone-releasing hormone analogs in equine plasma. Drug Test Anal. 2019 Jun;11(6):804-812. doi: 10.1002/dta.2554. Epub 2018 Dec 25. PMID: 30489688.View
    CJC-1295-NDNational Library of Medicine (NIH)Enhanced Muscle, Fat Loss, Improved SleepNetnography of Female Use of the Synthetic Growth Hormone CJC-1295: Pulses and PotionsVan Hout MC, Hearne E. Netnography of Female Use of the Synthetic Growth Hormone CJC-1295: Pulses and Potions. Subst Use Misuse. 2016 Jan 2;51(1):73-84. doi: 10.3109/10826084.2015.1082595. Epub 2016 Jan 15. PMID: 26771670.View
    EpithalonNational Library of Medicine (NIH)Gene Expression (DNA Regulation)AEDG Peptide (Epitalon) Stimulates Gene Expression and Protein Synthesis during Neurogenesis: Possible Epigenetic MechanismKhavinson V, Diomede F, Mironova E, Linkova N, Trofimova S, Trubiani O, Caputi S, Sinjari B. AEDG Peptide (Epitalon) Stimulates Gene Expression and Protein Synthesis during Neurogenesis: Possible Epigenetic Mechanism. Molecules. 2020 Jan 30;25(3):609. doi: 10.3390/molecules25030609. PMID: 32019204; PMCID: PMC7037223.View
    EpithalonNational Library of Medicine (NIH)Cardiovascular, Endocrine, Immune & Nervous SystemsGeroprotective effect of thymalin and epithalaminKhavinson VKh, Morozov VG. Geroprotektornaia éffektivnost’ timalina i épitalamina [Geroprotective effect of thymalin and epithalamin]. Adv Gerontol. 2002;10:74-84. Russian. PMID: 12577695.View
    IpamorelinNational Library of Medicine (NIH)Bone Mineral Content (Bone Density)The GH secretagogues ipamorelin and GH-releasing peptide-6 increase bone mineral content in adult female ratsSvensson J, Lall S, Dickson SL, Bengtsson BA, Rømer J, Ahnfelt-Rønne I, Ohlsson C, Jansson JO. The GH secretagogues ipamorelin and GH-releasing peptide-6 increase bone mineral content in adult female rats. J Endocrinol. 2000 Jun;165(3):569-77. doi: 10.1677/joe.0.1650569. PMID: 10828840.View
    IpamorelinNational Library of Medicine (NIH)MetabolismMetabolism of growth hormone releasing peptidesThomas A, Delahaut P, Krug O, Schänzer W, Thevis M. Metabolism of growth hormone releasing peptides. Anal Chem. 2012 Dec 4;84(23):10252-9. doi: 10.1021/ac302034w. Epub 2012 Nov 13. PMID: 23101768.View
    Melanotan-MT2National Library of Medicine (NIH)MelaninEffect of MELANOTAN, [Nle(4), D-Phe(7)]-alpha-MSH, on melanin synthesis in humans with MC1R variant allelesFitzgerald LM, Fryer JL, Dwyer T, Humphrey SM. Effect of MELANOTAN, [Nle(4), D-Phe(7)]-alpha-MSH, on melanin synthesis in humans with MC1R variant alleles. Peptides. 2006 Feb;27(2):388-94. doi: 10.1016/j.peptides.2004.12.038. Epub 2005 Nov 15. PMID: 16293341.View
    Melanotan-MT2National Library of Medicine (NIH)Appetite and Body MassActivation of the central melanocortin system chronically reduces body mass without the necessity of long-term caloric restrictionActivation of the central melanocortin system chronically reduces body mass without the necessity of long-term caloric restrictionView
    Melanotan-MT2National Library of Medicine (NIH)AddictionMelatonin in drug addiction and addiction management: Exploring an evolving multidimensional relationshipOnaolapo OJ, Onaolapo AY. Melatonin in drug addiction and addiction management: Exploring an evolving multidimensional relationship. World J Psychiatry. 2018 Jun 28;8(2):64-74. doi: 10.5498/wjp.v8.i2.64. PMID: 29988891; PMCID: PMC6033744.View
    Melanotan-MT2National Library of Medicine (NIH)Erectile Dysfunction (ED)Melanocortin receptor agonists, penile erection, and sexual motivation: human studies with Melanotan IIWessells H, Levine N, Hadley ME, Dorr R, Hruby V. Melanocortin receptor agonists, penile erection, and sexual motivation: human studies with Melanotan II. Int J Impot Res. 2000 Oct;12 Suppl 4:S74-9. doi: 10.1038/sj.ijir.3900582. PMID: 11035391.View
    Melanotan-MT2National Library of Medicine (NIH)Binge Drinking (Addiction)The protective effects of the melanocortin receptor (MCR) agonist, melanotan-II (MTII), against binge-like ethanol drinking are facilitated by deletion of the MC3 receptor in miceOlney JJ, Sprow GM, Navarro M, Thiele TE. The protective effects of the melanocortin receptor (MCR) agonist, melanotan-II (MTII), against binge-like ethanol drinking are facilitated by deletion of the MC3 receptor in mice. Neuropeptides. 2014 Feb;48(1):47-51. doi: 10.1016/j.npep.2013.11.001. Epub 2013 Nov 15. PMID: 24290566; PMCID: PMC3946855.View
    Melanotan-MT2National Library of Medicine (NIH)AutismMelatonin: From Pharmacokinetics to Clinical Use in Autism Spectrum DisorderLalanne S, Fougerou-Leurent C, Anderson GM, Schroder CM, Nir T, Chokron S, Delorme R, Claustrat B, Bellissant E, Kermarrec S, Franco P, Denis L, Tordjman S. Melatonin: From Pharmacokinetics to Clinical Use in Autism Spectrum Disorder. Int J Mol Sci. 2021 Feb 2;22(3):1490. doi: 10.3390/ijms22031490. PMID: 33540815; PMCID: PMC7867370.View
    Melanotan-MT2National Library of Medicine (NIH)Sexual LibidoMelatonin enhances sexual behavior in the male ratBrotto LA, Gorzalka BB. Melatonin enhances sexual behavior in the male rat. Physiol Behav. 2000 Feb;68(4):483-6. doi: 10.1016/s0031-9384(99)00204-8. PMID: 10713287.View
    Melanotan-MT2National Library of Medicine (NIH)Childhood AutismMelatonin and Comorbidities in Children with Autism Spectrum DisorderGagnon K, Godbout R. Melatonin and Comorbidities in Children with Autism Spectrum Disorder. Curr Dev Disord Rep. 2018;5(3):197-206. doi: 10.1007/s40474-018-0147-0. Epub 2018 Aug 9. PMID: 30148039; PMCID: PMC6096870.View
    Mots-CNational Library of Medicine (NIH)Metabolic StressMitochondria-derived peptide MOTS-c: effects and mechanisms related to stress, metabolism and agingWan W, Zhang L, Lin Y, Rao X, Wang X, Hua F, Ying J. Mitochondria-derived peptide MOTS-c: effects and mechanisms related to stress, metabolism and aging. J Transl Med. 2023 Jan 20;21(1):36. doi: 10.1186/s12967-023-03885-2. PMID: 36670507; PMCID: PMC9854231.View
    Mots-CNational Library of Medicine (NIH)Diabetes (Insulin Resistance)Mitochondrial-Encoded Peptide MOTS-c, Diabetes, and Aging-Related DiseasesKong BS, Lee C, Cho YM. Mitochondrial-Encoded Peptide MOTS-c, Diabetes, and Aging-Related Diseases. Diabetes Metab J. 2023 May;47(3):315-324. doi: 10.4093/dmj.2022.0333. Epub 2023 Feb 24. PMID: 36824008; PMCID: PMC10244198.View
    Mots-CNational Library of Medicine (NIH)OsteoporisMOTS-c improves osteoporosis by promoting osteogenic differentiation of bone marrow mesenchymal stem cells via TGF-β/Smad pathwayHu BT, Chen WZ. MOTS-c improves osteoporosis by promoting osteogenic differentiation of bone marrow mesenchymal stem cells via TGF-β/Smad pathway. Eur Rev Med Pharmacol Sci. 2018 Nov;22(21):7156-7163. doi: 10.26355/eurrev_201811_16247. PMID: 30468456.View
    Mots-CNational Library of Medicine (NIH)Mitochondrial EnergyMOTS-c: A promising mitochondrial-derived peptide for therapeutic exploitationZheng Y, Wei Z, Wang T. MOTS-c: A promising mitochondrial-derived peptide for therapeutic exploitation. Front Endocrinol (Lausanne). 2023 Jan 25;14:1120533. doi: 10.3389/fendo.2023.1120533. PMID: 36761202; PMCID: PMC9905433.View
    Mots-CNational Library of Medicine (NIH)Metabolic Disorders, Obesity (Weight Loss)MOTS-c Functionally Prevents Metabolic DisordersGao Y, Wei X, Wei P, Lu H, Zhong L, Tan J, Liu H, Liu Z. MOTS-c Functionally Prevents Metabolic Disorders. Metabolites. 2023 Jan 13;13(1):125. doi: 10.3390/metabo13010125. PMID: 36677050; PMCID: PMC9866798.View
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    SemaglutideNational Library of Medicine (NIH)Insulin Secretion, DiabetesEffects of semaglutide on beta cell function and glycaemic control in participants with type 2 diabetes: a randomised, double-blind, placebo-controlled trialKapitza C, Dahl K, Jacobsen JB, Axelsen MB, Flint A. Effects of semaglutide on beta cell function and glycaemic control in participants with type 2 diabetes: a randomised, double-blind, placebo-controlled trial. Diabetologia. 2017 Aug;60(8):1390-1399. doi: 10.1007/s00125-017-4289-0. Epub 2017 May 19. PMID: 28526920; PMCID: PMC5491562.View
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    TirzepatideNational Library of Medicine (NIH)Weight LossWeight loss efficiency and safety of tirzepatide: A Systematic reviewLin F, Yu B, Ling B, Lv G, Shang H, Zhao X, Jie X, Chen J, Li Y. Weight loss efficiency and safety of tirzepatide: A Systematic review. PLoS One. 2023 May 4;18(5):e0285197. doi: 10.1371/journal.pone.0285197. PMID: 37141329; PMCID: PMC10159347.View
    TirzepatideNational Library of Medicine (NIH)DigestionTirzepatide as a novel effective and safe strategy for treating obesity: a systematic review and meta-analysis of randomized controlled trialsCai W, Zhang R, Yao Y, Wu Q, Zhang J. Tirzepatide as a novel effective and safe strategy for treating obesity: a systematic review and meta-analysis of randomized controlled trials. Front Public Health. 2024 Jan 31;12:1277113. doi: 10.3389/fpubh.2024.1277113. PMID: 38356942; PMCID: PMC10864442.View
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