GHK/Nad+. This blue serum is blue due to a high concentration of Copper Peptides that will help with skin remodeling, wound healing, and regeneration. It can reduce inflammation, smooth rough skin, and protect skin cells from UV radiation.

Research suggests that copper peptides can also reduce fine lines, wrinkles, and scar tissue by boosting collagen.

This serum also includes NAD+ Because NAD+ slows the aging process by promoting DNA repair at a cellular level, it helps maintain and improve skin elasticity, structure, and moisture levels.

Use with infusion devices, such as microneedling, micro channeling, nano infusion, electroporation and Sono/ultrasound. 

Active Ingredient: N/A
Other Ingredients: Aqua, Soluble Collagen, Cichorium Intybus (Chicory) Root Extract,
Tocopherol, Soluble Elastin, Glycerin, Sodium Hyaluronate, Propylene
Glycol, Saccharide Isomerate, PEG-40 Hydrogenated Castor Oil, Palmitoyl
Tetrapeptide-7, Ethyl-Hexyl Glycerin, Nicotinamide Adenine Dinucleotide, Hydroxyethyl
cellulose, Panthenol, Copper Tripeptide-1, Caprylhydroxamic Acid, Glyceryl Caprylate,
Sh-Oligopeptide-1, Collagen Peptide, Palmitoyl Tripeptide-1, Tetrasodium Glutamate

5 vials - each 5ml/0.17oz

Temperature sensitive product. additional shipping cost.  Keep Refrigerated.

Source: BioMed Research International

What is GHK-Cu?

Buy GHK-Cu is a copper-binding peptide that has been widely researched for its potential in skin repair, wound healing, and anti-aging. Composed of three amino acids, glycine-histidine-lysine, and a copper ion, GHK-Cu is naturally found in human plasma, saliva, and urine. This peptide has been studied for its ability to stimulate collagen production, reduce inflammation, and promote tissue regeneration. Its regenerative properties make GHK-Cu a popular subject of research in the fields of skincare, anti-aging, and tissue repair.

Introduction to GHK-Cu

The Origin of GHK-Cu

GHK-Cu was first identified in the 1970s, where researchers discovered its natural occurrence in the human body and its role in healing and tissue regeneration. Since then, synthetic versions of GHK-Cu have been developed and studied extensively for their potential therapeutic benefits, particularly in skin health, wound healing, and anti-aging treatments.

GHK-Cu and Its Unique Composition

GHK-Cu is a tripeptide that binds to copper ions, which are essential for a variety of biological processes. The copper ion in GHK-Cu plays a key role in activating enzymes involved in tissue repair, collagen synthesis, and skin remodeling. This small peptide has the unique ability to influence the expression of multiple genes involved in inflammation, healing, and cell regeneration.

How GHK-Cu Works

GHK-Cu’s Mechanism of Action

GHK-Cu works by binding to copper ions and promoting the activation of enzymes responsible for collagen production, wound healing, and skin regeneration. It also influences gene expression, promoting the repair and regeneration of damaged tissue, while reducing inflammation. This dual action allows GHK-Cu to support both the structural integrity of tissues and the healing process.

The Collagen and Healing Connection

Collagen is a vital protein for skin health and tissue structure. GHK-Cu stimulates the production of collagen, helping to maintain the elasticity and strength of the skin. This makes it particularly useful in research focused on skin repair, anti-aging treatments, and improving the appearance of wrinkles and fine lines.

Benefits of GHK-Cu

GHK-Cu for Skin Health and Anti-Aging

One of the most popular uses of GHK-Cu in research is its potential for improving skin health and reducing the signs of aging. By promoting collagen production and improving skin elasticity, GHK-Cu helps to reduce the appearance of wrinkles, fine lines, and sagging skin. It also plays a role in skin hydration, making it a focus of research in anti-aging and cosmetic applications.

How It Supports Wound Healing

GHK-Cu has been extensively studied for its role in wound healing. By promoting tissue regeneration and reducing inflammation, GHK-Cu accelerates the healing of cuts, burns, and other injuries. Its ability to stimulate the production of collagen and elastin also supports the repair of damaged skin and tissues.

GHK-Cu and Inflammation Reduction

In addition to its regenerative properties, GHK-Cu has shown potential in reducing inflammation, which is crucial in promoting faster healing and reducing scar formation. This makes it a valuable peptide for research into treatments for inflammatory skin conditions and tissue damage.

Why GHK-Cu is Different from Other Peptides

What sets GHK-Cu apart from other peptides is its combination of copper-binding properties and its ability to influence gene expression related to tissue repair and regeneration. While other peptides may focus on single processes, GHK-Cu provides a multifaceted approach to healing, skin regeneration, and anti-aging by targeting multiple pathways involved in cellular health and tissue repair.

Other Health Benefits

Improved Skin Elasticity and Hydration

In addition to promoting collagen synthesis, GHK-Cu helps improve skin elasticity and hydration, making it a popular subject of research for skin rejuvenation therapies. Studies have shown that it can improve the overall appearance and texture of aging or damaged skin.

GHK-Cu and Hair Growth

Research has also explored GHK-Cu’s potential to stimulate hair growth by promoting follicle health and reducing scalp inflammation. Its ability to repair and regenerate tissues extends to hair follicles, making it a promising option in studies aimed at addressing hair loss and promoting healthier hair growth. 

What is NAD+?

NAD+ (Nicotinamide Adenine Dinucleotide) is a vital coenzyme found in all living cells, playing a crucial role in energy metabolism and cellular function. This essential molecule is involved in numerous biochemical reactions, particularly those related to energy production, DNA repair, and cellular signaling. NAD+ has garnered significant attention in research for its potential anti-aging properties and its role in promoting overall cellular health.

Introduction to NAD+

The Origin of NAD+

NAD+ was first discovered in the early 20th century and has since been recognized as a fundamental component of cellular metabolism. It exists in two forms: NAD+ (the oxidized form) and NADH (the reduced form), which are interconverted during various metabolic processes. Its role in energy production and metabolic pathways has made it a key focus in studies related to aging, metabolic diseases, and overall health.

NAD+ and Its Unique Composition

NAD+ is a complex molecule composed of two nucleotides joined by their phosphate groups. It is synthesized in the body from precursors such as tryptophan and niacin (vitamin B3). NAD+ is essential for the activity of sirtuins and other enzymes involved in regulating metabolic processes, DNA repair, and cellular homeostasis.

How NAD+ Works

NAD+’s Mechanism of Action

NAD+ functions primarily as a cofactor for dehydrogenase enzymes, facilitating redox reactions in cellular metabolism. By accepting and donating electrons, NAD+ plays a critical role in the production of ATP (adenosine triphosphate), the primary energy currency of the cell. Additionally, NAD+ is involved in activating sirtuins, proteins that regulate various cellular processes, including aging and stress response.

Role in Energy Production and Metabolism

NAD+ is integral to cellular respiration, particularly in the conversion of glucose and fatty acids into energy. It is crucial for the functioning of the electron transport chain, where it aids in the production of ATP, supporting overall metabolic health and energy balance.

Anti-Aging Effects

Research suggests that NAD+ may have anti-aging properties by promoting cellular repair and maintenance. Its role in activating sirtuins has been linked to improved longevity and a reduced risk of age-related issues.