Nanotechnology meets the expectations of professionals which before were in the realm of dreams - a desire for the penetration of active substances deep into the skin - exactly where they can work effectively. Nanotechnology offers new active ingredients with dimensions corresponding to the size of large molecules with unique properties that are characteristic only for this dimension. The advantage of using nano-sizes is the ability of transport of amino acids, mineral and organic components and vegetable extracts into the dermis. Nanoparticles with an increased amount of active surface ensure high endurance, bioavailability of active substances, as well as improve the sensory properties of the preparation. Products that contain nanoparticles are safe, penetrating only the outer layers of the dermis without reaching and accumulating in the organs essential to life and health.
Plant stem cells contain genetic material and have the potential for unlimited division - self-renewal. They are characterized by the ability to differentiate - they can give rise to at least one type of non-specialized cells. In the world of plants, stem cells allow plants to build new bodies for their entire life. Their use in cosmetology is a groundbreaking discovery, and without a doubt is one of the most important cosmetic innovations of recent years. Stem cells are obtained from carefully selected, unique plants with unique properties. Their application in NANO MEDIC cosmetics brings new possibilities to fight the signs of skin aging. They protect the human skin stem cells against damage and prolong their repair abilities. Through the protective functions of melanocytes, they counteract the formation of pigmentation spots caused by excessive exposure to UV radiation. They stimulate skin cells to multiply and produce fibroblasts.
The human skin is a kind of protective barrier against the external environment. The horny layer prevents the loss of water necessary for the skin, and also is a barrier for microorganisms, chemicals, and as well as cosmetics that we want to introduce into the deeper layers of skin, which is not designed to absorb substance, has a very low permeability, which causes that the effectiveness of cosmetics is usually quite low. Therefore, it is important to close the active ingredients in nanosomes, because that gives us an effectively working product.
Nanosomes are "smart" structures that carry the active ingredients deep into the skin in the most selective manner, thus acting at the source of the problem. Nanosomes pass through successive layers of the skin very quickly, and when they reach their destination - act therapeutically, achieving maximum efficiency approximately 5 hours after application of the product. The new structure of nanoparticles results in new physical properties allowing for an innovative, previously unknown use of the resulting materials. The microscopic format of particles makes it possible to reach places inaccessible for standard cosmetics and a gradual release of active ingredients while protecting against environmental factors.
Silver is a metal with antibacterial properties. It acts on microorganisms by oxidation, protein denaturation, DNA penetration and prevention of its development. The microorganisms do not become resistant to silver. Silver is effective against 99.9% of bacteria and fungi. In the old days water was stored in silver vessels to prolong its freshness, people used silverware to survive epidemics, and silver coins were thrown into milk so it would not turn sour. In ancient Egypt, water in which silver bars were previously placed was drank as a cure for stomach ulcers, and to accelerate wound healing Roman legionaries placed silver coins on them.
Dilute solutions of silver nitrate were also used for disinfection. In alternative medicine, colloidal silver is used to treat a variety of ailments, because it has natural antibiotic properties. Nanotechnology has restored interest in silver and its properties. Due to the high bactericidal efficiency nanosilver began to be used on a mass scale, the more that the product is safe for the environment. In the nano-scale, chipped silver possesses potent bactericidal properties. After the discovery of the possibilities of obtaining silver nanoparticles, there was a rash of all types of biocidal agents, liquids for cleaning surfaces, toothpastes, soaps, deodorants and creams.
Pool water and even drinking water are beginning to be sanitized using silver. Nanosilver in aqueous solutions currently is one of the most widely used biocides. In recent years, it has been found that silver ions are toxic to microorganisms, acting one individual cells. Nanosilver is used as a component in the manufacture of cosmetics, which naturally increases their qualities as well as bactericidal and fungicidal properties. It is also used in creams, mouthwash, antibacterial gels and tonics, antibacterial tonics, bath lotions and gels, after shave lotions, shampoos, Eau de Cologne and Eau de toilette, antibacterial wipes, make-up remover wipes and wipes for intimate hygiene, anti-acne cosmetics, in bactericidal and fungicide disinfectants for production halls and other premises, and disinfection.
Silver nanoparticles are the perfect solution for people with bacterial infections of the skin. Recent studies have confirmed their better efficiency compared to the commonly used silver compounds. Silver nanoparticles in cosmetics may be used as an antibacterial agent (e.g. safer than silver nitrate) as a negligible quantity of the silver reduces the risk of inducing side effects, in the form of skin discoloration.
Silver in the form of nanoparticles has a much larger active surface than in the traditional form. This increases its biocidal potential . The mechanism of therapeutic action of nanosilver is that silver ions gather on the cell membrane of microbes thus blocking their enzymes, necessary for the propagation of microorganisms. Nanosilver attracts microorganisms by having a positive charge, and then blocks enzymes and anaerobic bacteria and oxidizes viruses. As a result, these microorganisms and their polymorphic, or mutated, forms die in about six minutes after direct contact with nanocolloidal silver. In addition, pathogenic organisms cannot develop resistance to, for example, nanocolloidal silver (and this happens in the case of antibiotics), and their mutations are just as susceptible to its effects. None of the research documents emergence of bacterial strains resistant to nanocolloids.
This find a very effective application in: Fighting all kinds of acne. It is characterized by a potent antibacterial and anti-inflammatory effect, and at the same time does not dry the skin. It also soothes and calms the skin, has a soothing effect and in the fight against hyperhydrosis - causes the decomposition of sweat and thus eliminates odor.
Nanogold has a great ease of penetration into the cells of the body and acts on them, strongly stimulates and regenerates, while having a weaker biocidal effect.
Most importantly, it is not just another cosmetic with gold dust, which takes the form of sparkling particles, but a professional preparation with pure gold enclosed in nanosomes. Gold is resistant to weathering and almost all acids. The healing properties of gold were known in China from about the third century BC, and in Europe only after1890, after tests performed by Robert Koch.
It was then proved that gold cyanide inhibits the growth of tuberculosis bacteria. In the absence of toxicity and biological hazard, gold is ideal in many medical applications. Nanotechnology offers us a slightly different use of gold. Gold nanoparticles have amazing properties, quite different from gold in the macro scale. This precious metal, however, is useful only after dissolving.
Gold nanoparticles can be dissolved in water or other liquid by coating the surface of gold particles with various thiols. This modification allows for a smooth introduction of gold nanoparticles into the body. Such nanoparticles, i.e. particles with a size of billionths of a meter, are an ideal material, by means of which it becomes possible to introduce chemicals, including the modern medication, into the body. This method allows, for example, for introduction into the body along with the gold nanoparticles of antioxidants used in various types of cosmetic procedures.
The most important properties of the dissolved gold include the ability to transfer the ingredients into the body, bacteriostatic and bactericidal properties. Nanogold is also used in the manufacture of products for oral hygiene and cosmetics, where, similarly as in the case of medication, allows faster penetration of nutrients into the skin (cosmetics providing intense moisturizing and elimination of wrinkles). Already in ancient times, gold was considered as a mineral having miraculous properties for restoring health and youth. Currently, it is mainly used in cosmetics.
Gold nanocolloids added to cosmetics can stimulate the synthesis of collagen and contribute to the reconstruction of skin tissue. Nonionic gold nanocolloids can be used externally in order to prevent wrinkles and reduce existing ones, dermal cleansing, treating abscesses, lichens, chronic rashes and acne. Colloidal gold can also be used internally. In medicine, gold is used primarily for the treatment of extensive burns, because it acts as a natural dressing. Colloidal gold has anti-inflammatory properties, eliminates the symptoms of chronic allergic diseases and has beneficial effects on the circulatory system.
NANO MESO GOLD with nanogold is the carrier of active ingredients into the skin, causing maximum effect at the source of the problem.