CONALT® TanNorm

Описание товара

L-аргинин

• L-Arginine is a non-essential amino acid that plays a critical role in maintaining various biological functions within the body. It is a fundamental precursor for the production of nitric oxide (NO), a gaseous signaling molecule with numerous physiological effects. The biological function of L-Arginine is especially significant in promoting vasodilation (the widening of blood vessels) and enhancing energy production pathways. Furthermore, L-Arginine stimulates the secretion of growth hormones, thereby supporting muscle development, overall vitality, and general health.
• Due to its vasodilatory properties, it facilitates the delivery of increased oxygen and essential nutrients to muscle tissues. This mechanism enhances the efficiency of energy production within the muscles and contributes to the reduction of fatigue. Additionally, the upregulation of nitric oxide (NO) synthesis promotes stronger and more efficient muscle contractions, thereby preserving muscle function and accelerating post-exercise recovery.
• It is a key component in stimulating collagen synthesis, which is vital for maintaining the structural integrity and flexibility of bones. By promoting the production of these structural proteins, L-Arginine strengthens bones and contributes to bone health. Moreover, the improved blood flow enhances oxygen and nutrient delivery to bone tissue, supporting bone fortification and regeneration.
• L-Arginine plays an important role in enhancing mitochondrial function and supporting cellular energy production. Mitochondria serve as the powerhouses of cells, and L-Arginine positively influences their function, leading to increased ATP generation. This results in greater energy availability in muscles and organs, boosting overall performance. Furthermore, L-Arginine-induced nitric oxide production helps regulate energy metabolism and elevate overall energy levels.
• By dilating blood vessels and improving oxygen delivery to muscle tissue, L-Arginine contributes to a reduction in fatigue. The accumulation of toxic byproducts in muscles during exercise is one of the primary causes of fatigue. L-Arginine helps eliminate these substances more efficiently, promoting faster post-exercise recovery. In addition, nitric oxide improves oxygen utilization in muscles, thereby reducing sensations of exhaustion and weakness.
• L-Arginine supports growth hormone production, which in turn helps regulate testosterone levels. Growth hormone is a key regulator that triggers testosterone synthesis, and L-Arginine accelerates this pathway, contributing to the maintenance of optimal hormone levels. Moreover, the enhancement of blood flow allows for improved delivery of oxygen and nutrients to the testes, further supporting endogenous testosterone production and hormonal balance.
• It facilitates the transport of nitrogen required for protein synthesis, which is essential for the generation of new proteins and muscle repair. L-Arginine helps regulate cellular nitrogen balance, ensuring efficient protein construction. Additionally, by enhancing the production of growth hormone and insulin, it positively affects muscle growth and repair mechanisms. These combined actions support increased muscle mass and accelerated muscle recovery.
• L-Arginine stimulates the synthesis of DNA and RNA necessary for cellular division, which is vital for healthy cell renewal and tissue repair. Cell division plays a foundational role in maintaining and regenerating bodily structures. By regulating cellular functions, L-Arginine enhances the efficiency of these division processes. Furthermore, it plays a crucial role in supporting immune cell production and defending the body against infections.
• By promoting vasodilation and enhancing blood flow, it facilitates more effective clotting responses. Blood clotting is a vital function that prevents excessive blood loss following injuries. L-Arginine enhances this process by making blood vessels more elastic and optimizing the coagulation cascade, allowing for proper blood circulation within vessels. This mechanism is especially beneficial in accelerating wound healing following tissue injury.

L-Ornithine

• L-Ornithine is a semi-essential amino acid that plays a key role in essential biological processes such as ammonia elimination, protein metabolism, and muscle development. It is derived from L-Arginine in the body and participates in the urea cycle—a fundamental mechanism for the detoxification and excretion of harmful ammonia. The HCl form of L-Ornithine enhances its bioavailability, making each of its functional effects more efficient.
• L-Ornithine provides ammonia detoxification essential for muscle health and helps reduce acidosis (acid accumulation) within muscle tissues. Excessive ammonia buildup following intense physical activity impairs muscle performance and contributes to fatigue. By accelerating the urea cycle, L-Ornithine aids in eliminating these toxic substances, promoting more effective muscle function. In addition, L-Ornithine supports cellular energy generation processes, thereby maintaining sustained energy supply to muscles and other tissues.
• It contributes to collagen synthesis, a fundamental protein necessary for the structural integrity of bones. The preservation of healthy bone architecture depends on strong collagen fibers. L-Ornithine also stimulates osteoblast (bone-forming cell) activity and assists in bone mineralization. Furthermore, it exerts indirect effects on calcium metabolism, thus contributing to the long-term maintenance of bone health.
• L-Ornithine participates in metabolic processes such as carboxylation and gluconeogenesis, which are crucial for cellular energy production. It has a particularly supportive effect on aerobic energy systems during physical activity. Since muscles and organs become highly energy-dependent during exercise, L-Ornithine’s active involvement in these pathways supports performance. It also positively influences oxygen-transporting molecules and mitochondrial function, helping to reduce fatigue and enhance energy levels.
• By accelerating the urea cycle, L-Ornithine prevents excessive accumulation of ammonia, thereby helping to reduce fatigue. Ammonia builds up in the body under conditions of intense physical exertion or prolonged stress and contributes to feelings of tiredness and exhaustion. L-Ornithine’s ability to rapidly eliminate this toxic compound makes it especially beneficial for athletes and physically active individuals. The acceleration of these detoxification processes contributes to improved vitality and more effective physical performance.
• Testosterone plays a critical role in muscle development, sexual health, and energy regulation. L-Ornithine stimulates the secretion of human growth hormone (HGH), which directly influences testosterone production. Additionally, L-Ornithine enhances insulin sensitivity, allowing testosterone to be utilized more efficiently. These actions collectively help support the maintenance of optimal testosterone levels.
• L-Ornithine assists in the transport of nitrogen necessary for protein synthesis and cellular growth. It helps maintain the structural integrity of proteins, making it crucial for muscle development, tissue repair, and cellular regeneration. It also contributes to regulating the nitrogen balance within cells, facilitating faster muscle recovery and supporting muscle hypertrophy.
• L-Ornithine is a key component in the synthesis of DNA and RNA involved in cell division. This is particularly important in situations requiring rapid tissue regeneration and cellular proliferation. It is also essential for collagen production and stabilization of cell membranes—processes that are vital for healthy cell renewal. Additionally, it plays a role in ensuring proper immune function and defending the body against pathogens.
• Through its influence on collagen synthesis and fibroblast activity, L-Ornithine contributes to the strengthening of blood vessels, thereby supporting clot formation during bleeding. Its positive effects on the circulatory system aid in vasodilation, which plays a role in hemostasis. This mechanism contributes to faster wound healing following trauma or injury.

L-лизин

• L-Lysine is an essential amino acid that cannot be synthesized by the human body and therefore must be obtained through dietary sources. It plays a critical role in protein synthesis, muscle repair, bone health, and energy metabolism. Additionally, L-Lysine supports immune system functions and contributes to skin health. In the body, L-Lysine plays a particularly important role in collagen production, which is a vital structural protein for connective tissues, skin, and bones.
• L-Lysine is one of the fundamental building blocks required for protein synthesis, a process that is vital for proper muscle function. Protein synthesis is crucial for the healing, growth, and strengthening of muscle tissues. L-Lysine helps preserve and repair muscle tissue, and by supporting nitrogen balance in the muscles, it enhances muscle performance. This mechanism not only improves post-exercise recovery but also contributes to overall muscle efficiency and resilience.
• It is an essential component in the synthesis of collagen, a protein that plays a pivotal role in strengthening bones and maintaining their flexibility. Collagen provides structural integrity and elasticity to bones, which helps reduce the risk of fractures. Additionally, L-Lysine enhances calcium absorption, thus further supporting bone mineralization and overall skeletal strength. L-Lysine aids in maintaining healthy bone tissues and contributes to increasing bone density and durability.
• L-Lysine is involved in carbohydrate metabolism, which plays a vital role in energy production. It contributes to mitochondrial energy processes, leading to increased ATP production and enhanced energy availability for the body. Moreover, its positive effects on immune system function support sustained energy levels and improve overall health. By regulating metabolic processes, the body becomes more efficient in energy generation, resulting in improved daily performance and reduced fatigue.
• L-Lysine plays a significant role in alleviating feelings of fatigue and exhaustion. By supporting muscle repair and enhancing energy production, it accelerates recovery processes. L-Lysine promotes protein synthesis, which helps maintain and build muscle mass, thus aiding in quicker post-exercise recovery. The regulation of metabolism also helps stabilize energy levels and reduce sensations of fatigue, allowing for better physical endurance.
• It stimulates the production of growth hormone in the body, which is an essential factor in testosterone production. L-Lysine contributes to maintaining testosterone levels by enhancing the secretion of growth hormone. Furthermore, it has positive effects on nitric oxide production, which supports the mechanisms involved in increasing testosterone synthesis. This entire process plays a role in maintaining overall hormonal balance and supporting healthy testosterone levels.
• As a key amino acid in protein synthesis, L-Lysine initiates processes vital for the construction and repair of muscle tissues. It helps regulate nitrogen balance, increases protein production in muscles, and accelerates tissue recovery. L-Lysine also plays a significant role in tissue repair and immune function, thus contributing to overall health and recovery, especially after physical exertion.
• L-Lysine is required for the synthesis of DNA and RNA, which are essential molecules for cell division. It supports cellular regeneration and replication, which is especially important in rapidly renewing tissues such as the skin, connective tissues, and muscles. In addition, L-Lysine’s impact on the immune system aids the body in combating infections and enhances the efficiency of cellular proliferation and regeneration.
• L-Lysine plays a role in improving blood vessel elasticity and contributes to blood clotting mechanisms. By increasing collagen synthesis, it strengthens the structural integrity and elasticity of vascular walls. This helps regulate blood clotting processes and reduces blood loss in cases of injury. Furthermore, by supporting collagen production, L-Lysine reinforces blood vessels, contributing to healthier circulation and vascular function.

Magnesium (as Bisglycinate Form)

• Magnesium Bisglycinate is recognized as one of the most bioavailable forms of magnesium, making it highly efficient and easily absorbed in the body. Magnesium is a fundamental mineral involved in over 300 biochemical reactions, playing vital roles across numerous physiological systems. The bisglycinate form significantly enhances magnesium absorption and bioavailability compared to other forms, thereby offering an optimal and gentle option for effective supplementation.
• Magnesium is critical for muscle contraction and relaxation. It is required for proper electrical transmission within muscle fibers, ensuring that muscles contract and relax efficiently. Additionally, magnesium regulates calcium distribution in muscle cells, which supports normal muscle function. The Bisglycinate form allows for superior absorption, thereby maintaining optimal muscle performance and preventing cramping or fatigue, which is particularly beneficial for athletes and active individuals.
• Magnesium plays a central role in bone health. Although bones are primarily composed of calcium and phosphorus, magnesium contributes to maintaining structural integrity and mineral balance within bone tissue. It supports bone density and helps prevent bone-related conditions such as osteoporosis. Magnesium Bisglycinate ensures that magnesium is effectively utilized in the body to strengthen bone matrix and enhance skeletal resilience.
• Magnesium is essential in the production of ATP (adenosine triphosphate), the primary molecule responsible for storing and delivering energy at the cellular level. Magnesium activates the enzymatic processes required for ATP production. Through its high bioavailability, Magnesium Bisglycinate optimizes these energy-yielding processes and supports sustained physical energy and performance. This mechanism contributes to improved vitality and reduced sensations of fatigue.
• Magnesium helps combat fatigue and tiredness. A deficiency in magnesium often results in reduced energy production, leading to chronic tiredness. The Bisglycinate form effectively restores magnesium levels, enhancing ATP synthesis and mitochondrial efficiency. This reduces overall body fatigue and allows individuals to feel more energetic and alert throughout the day.
• Magnesium is crucial for brain function and mental health. It supports the production and regulation of neurotransmitters such as serotonin, which are involved in mood regulation and emotional balance. Magnesium Bisglycinate, through its superior absorption, aids in maintaining optimal magnesium levels in the brain, helping to alleviate symptoms of anxiety, stress, and depression, and promoting better mental stability and cognitive clarity.
• Magnesium has a direct impact on the nervous system. It is required for electrical signal transmission between nerve cells, supporting proper neural communication. The Bisglycinate form ensures optimal uptake of magnesium, promoting efficient signal conduction and reducing nerve excitability. This results in a healthier and more balanced nervous system function.
• Magnesium is necessary for protein synthesis, as it influences ribosomal activity and the binding of amino acids. This supports the building, repair, and regeneration of tissues and muscles. Magnesium Bisglycinate enhances this process by ensuring that magnesium is adequately available, thereby aiding muscle recovery, tissue integrity, and protein metabolism.
• Magnesium plays a vital role in maintaining electrolyte balance. It helps regulate levels of sodium, potassium, and calcium in the body, all of which are essential for hydration, muscle function, and nerve signaling. The Bisglycinate form ensures consistent magnesium availability, supporting fluid and electrolyte homeostasis and promoting optimal physiological function.

Zinc (Gluconate Form)

• Zinc is a mineral involved in numerous biological processes in the body and is critically important for maintaining healthy functions. Zinc Gluconate is a form that enhances the bioavailability of zinc, making it more easily absorbed by the body. This form allows zinc to be utilized more effectively within the body. Zinc Gluconate provides significant benefits particularly in areas such as immune system support, skin health, and cell division.
• Zinc is a crucial mineral for the proper functioning of the immune system. It supports the function of immune cells such as T-cells and macrophages, which help the body combat infections. Moreover, zinc exhibits antiviral properties on the immune system, potentially shortening the duration of infections like the common cold. Zinc Gluconate enables the body to efficiently utilize this mineral, thereby strengthening immune function and enhancing resistance to illnesses.
• Zinc is essential for DNA synthesis and is a component of many enzymes involved in this process. DNA is a fundamental molecule for cell division and regeneration, and maintaining a healthy DNA structure is vital for proper cellular function. Zinc Gluconate contributes to the preservation of DNA structure by optimizing zinc absorption. This effect ensures proper cell division and renewal, safeguarding the integrity of genetic material.
• Zinc plays a fundamental role in cell division, as it is required for the accurate replication of DNA and the proper division of cells. A deficiency in zinc can impair cell division, hinder cellular proliferation, and slow tissue regeneration. Zinc Gluconate supports healthy cell division and the formation of new cells, thereby enhancing tissue healing and cell renewal processes.
• Zinc is an important mineral for supporting skin health. It plays a critical role in processes such as skin regeneration, wound healing, and reduction of inflammation. Zinc is also required for collagen production, which increases the elasticity and resilience of the skin. Zinc Gluconate helps reduce inflammation in the skin, aiding in the prevention of skin issues like acne and pimples, while promoting a healthier skin appearance. Additionally, it contributes to the strengthening of the skin barrier and faster healing.
• Zinc is a mineral necessary for protein synthesis. Proteins are the building blocks of cells and are essential for the construction of tissues such as muscles, skin, and organs. Zinc facilitates the assembly of amino acids via ribosomes. This process plays a critical role in the repair and growth of muscle tissue and the overall maintenance of body structure. Zinc Gluconate enhances protein synthesis in the body, supporting the strengthening of muscle structure and aiding in tissue repair.
• Zinc plays a role in the body’s energy production and is involved in processes such as oxygen transport and carbohydrate metabolism. Zinc deficiency is often associated with symptoms like fatigue and tiredness. Zinc Gluconate supports the body’s energy production by increasing the bioavailability of zinc, thus helping to reduce feelings of fatigue and exhaustion. This contributes to individuals feeling more energetic and vibrant.
• Zinc has strong antioxidant effects and helps the body neutralize free radicals. Free radicals can damage cells and contribute to the development of conditions such as cancer, aging, and other diseases. Zinc Gluconate helps reduce oxidative stress, thereby protecting cells. This creates a positive effect on overall health and strengthens the body’s resilience against external factors.
• Zinc is a mineral that helps maintain the body’s acid-base balance. Maintaining the pH balance in bodily fluids is essential for healthy cellular function. Zinc helps regulate this acid-base balance in the kidneys and other organs. Zinc Gluconate supports this balance, allowing the body to function within a healthier internal environment.

Витамин D3 (холекальциферол)

• Vitamin D3 enhances the intestinal absorption of calcium and phosphorus, thereby supporting the strengthening of bones and teeth. Calcium serves as the main structural component of bones, while phosphorus is essential for bone rigidity. By optimizing the absorption of these minerals, Vitamin D3 helps maintain strong and healthy bones. Inadequate levels of Vitamin D3 lead to reduced calcium and phosphorus absorption, potentially resulting in health issues such as bone demineralization, osteoporosis, and rickets in children.
• Vitamin D is a fat-soluble vitamin that plays a critical role in numerous bodily functions. Vitamin D3, also known as cholecalciferol, is the most active and bioavailable form of vitamin D in the body. It can be naturally synthesized through skin exposure to sunlight; however, deficiency remains a common health issue worldwide. Vitamin D3 significantly impacts the absorption of minerals such as calcium and phosphorus, bone health, and muscle function.
• Vitamin D3 plays a crucial role in maintaining bone health. The proper balance of calcium and phosphorus in bones ensures their strength and structural integrity. It supports the function of osteoblasts, the bone-forming cells, facilitating bone development and regeneration. Deficiency in Vitamin D3 weakens bones, making them brittle and more prone to fractures, which can lead to conditions like osteoporosis.
• Vitamin D3 is essential for proper muscle function. It is involved in the activity of various enzymes that regulate muscle contraction and relaxation. Furthermore, it helps manage the movement of calcium ions within muscle cells, promoting stronger muscle contractions. A deficiency in Vitamin D3 can cause muscle weakness and pain. Adequate intake supports muscle strength and optimal functionality.
• Vitamin D3 plays a vital role in the proper functioning of the immune system. It modulates immune cell functions, particularly by supporting T cells in their defense against infections. Through its immunomodulatory effects, Vitamin D3 enhances the body’s resistance to pathogens. Sufficient Vitamin D3 intake contributes to a stronger immune response and helps reduce the risk of autoimmune diseases.
• Vitamin D3 participates in various cellular processes that regulate cell growth and proliferation. It modulates apoptosis (programmed cell death), thereby maintaining the proper lifecycle of healthy cells. Additionally, it promotes the activity of enzymes that help protect genetic material, ensuring optimal cellular function. These regulatory mechanisms are essential for maintaining overall health at the cellular level.
• Vitamin D3 influences the synthesis and balance of several hormones. It is particularly known for its role in insulin production, thereby helping regulate blood glucose levels. Moreover, it supports the production of neurotransmitters such as serotonin, which contributes to mood enhancement. By optimizing hormonal balance, Vitamin D3 supports overall physical and emotional well-being.
• Various studies have shown that adequate Vitamin D3 intake has a positive impact on cardiovascular health. It activates mechanisms that regulate blood pressure and protect heart function. Moreover, Vitamin D3 deficiency has been associated with obesity and insulin resistance. By modulating fat metabolism, Vitamin D3 may aid in weight management and help lower the risk of cardiovascular diseases.
• Vitamin D3 enhances the mineralization of teeth, ensuring their structural integrity. Proper deposition of calcium and phosphorus in teeth helps protect against dental decay. By boosting the absorption of these minerals, Vitamin D3 supports dental health. Maintaining adequate Vitamin D3 levels is essential for preventing tooth decay and ensuring strong, healthy teeth.
• Vitamin D3 may also improve mental health by influencing the production of neurotransmitters in the brain. Growing research suggests a role for Vitamin D3 in managing depression, anxiety, and other psychological conditions. Low levels of Vitamin D3 have been linked to increased risk of depression and mood disorders. Adequate intake may contribute to enhanced mental well-being and stabilization of mood.

Vitamin K2

• Vitamin K2 is a member of the vitamin K family and is particularly associated with bone health, cardiovascular health, and blood clotting. The human body typically produces Vitamin K2 through gut bacteria, but it is also found in some fermented foods. Unlike Vitamin K1, Vitamin K2 remains active in the body for a longer period and plays a more effective role in specific biological processes. The biological functions of Vitamin K2 are focused on helping various enzymes in the body become active and ensuring these enzymes work effectively.
• Vitamin K2 plays an indirect role in the regulation of muscle functions. It is involved in the activation of a protein called osteocalcin. Osteocalcin, while playing a significant role in bone health, is also linked to muscle functions. Vitamin K2 enables the activation of osteocalcin, which supports the functioning of muscle cells. Muscles utilize calcium to function, but Vitamin K2 is effective in directing calcium to the bones, ensuring that muscles benefit optimally from calcium. A deficiency in Vitamin K2 can lead to muscle weakness.
• Vitamin K2 plays a critical role in maintaining bone health. It activates osteocalcin, allowing calcium to bind to bones. This facilitates the storage of calcium in bones and helps increase bone density. Additionally, Vitamin K2 affects matrix Gla-protein (MGP), another protein that helps mineralize bones. MGP prevents calcium from accumulating in the walls of blood vessels, thus preventing arterial calcification. While maintaining strong bones, Vitamin K2 reduces the risk of bone fractures and diseases like osteoporosis.
• Vitamin K2 is directly related to energy production in the body. It activates certain proteins in mitochondria, optimizing cellular energy production. Furthermore, Vitamin K2 supports the activation of enzymes involved in energy production. Energy metabolism is affected at the cellular level, and Vitamin K2 plays an effective role in this process. It activates the necessary biochemical pathways to ensure energy is used correctly and produced efficiently.
• Vitamin K2 may help reduce fatigue and exhaustion indirectly. By increasing energy production and optimizing muscle functions, Vitamin K2 can alleviate feelings of tiredness. It also exhibits anti-inflammatory effects, which can reduce the symptoms of fatigue and exhaustion. Since inflammation can contribute to these complaints, maintaining sufficient Vitamin K2 levels may help increase overall energy levels and reduce fatigue.
• Vitamin K2 plays a role in several biological pathways required for protein synthesis. It particularly supports the synthesis of proteins like osteocalcin. It also enhances the synthesis of various proteins that regulate cell growth and repair, contributing to the proper functioning of the body’s cellular processes. Vitamin K2 supports the synthesis of crucial proteins in tissues like muscles and bones.
• Vitamin K2 is essential for normal blood clotting. It helps activate enzymes that work on clotting factors. The function of Vitamin K2 in this regard ensures that blood clots when necessary, thereby halting bleeding. A deficiency in Vitamin K2 can result in difficulties with blood clotting, leading to excessive bleeding. Therefore, adequate intake of Vitamin K2 supports the proper functioning of the blood clotting process.