¿Cuál es el uso del ácido hialurónico para la piel en Hindi?

Many skenscientists have shown a growing interest enÁcido hialurónico, as the Piel de pielis an important reservoir of hyaluronic Ácido ácido ácido ácido ácido ácido ácido ácido ácido ácido ácido ácido ácido ácidoyan essential component of the extracellular mesenchyme (ECM), which plays an important role in the maintenance of the skin's morphology, structure yfunction. There are at least three English names for hyaluronic Ácido ácido ácido ácido ácido ácido ácido ácido ácido ácido ácido ácido ácido ácido[1. 2]: Hyaluronan, Hyaluronan, Hyaluronan, yHyaluronan. 2]: hyaluronan, hyaluronicacid, hyaluronate. glucuronic acid, isolated from the vitreous body of the cow's Eye en 1934, fue el primer glucósido encontrado que contenía ácido hialurónico [2].

Hyaluronic acid has good moisturising properties in Hindi, where it is used as a carrier for medicines, and skin care is closely linked to the pharmacological action of drugs [3]. Hyaluronic acid also plays an important role in the pathogenesis of many dermatological diseases4], as it is a natural macromolecule with the ability to retain water and moisturise the skin, and is widely used in cosmetics.

1 Biology of hyaluronic acid (en inglés)

1.1 estructura biológica

Hyaluronic acid (HA) is an important class of aminoglycans, and its disaccharide does not contain sulfate groups, so it is also called non-sulfated aminoglycans. The disaccharide units of hyaluronic acid are glucuronic acid (GlcUA) and N-acetylglucosamine (GlcNAc), which are linked to GlcNAc by the β1,3 bond of GlcUA, and to the next GlcUA by the β1,4 bond of GlcNAc. UDP-glcA provides D-glycuronate for the Síntesis de ácido hialurónico through epimerisation at the C5 position, and hydrogen bonding between the 4-OH of GlcNAc and the O-acetyl group of GlcNAc is formed by bridging the water molecules, which is an important function in maintaining the natural activity of hyaluronic acid in the skin. At the same time, GlcUA has a strong acidic structure similar to that of AHA, but is completely neutral in the body. The bound form of hyaluronic acid exists as the hyaluronan Receptor receptorcomplex (HARV) [5].

1.2 biosíntesis

The main site of hyaluronic acid biosynthesis in the body is the plasma membrane of fibroblasts or other cells, but also keratinocytes in the epidermis. Hyaluronic acid is synthesised rapidly in the body and is rapidly excreted or broken down. Its synthesis is influenced by hormones in the body, age, environmental factors and other factors. Hyaluronic acid is degraded by the enzyme hyaluronidase, which is produced by a variety of cells and first degrades hyaluronic acid to a medium-sized molecule of 20 KD containing 50-60 disaccharide units, which is then further degraded by other enzymes to oligosaccharide molecules. The half-life of hyaluronic acid in plasma is 2.5 min to 5.5 min, and urinary excretion is less than 1% of total clearance [6].

2 piel y ácido hialurónico

2.1 distribución en la piel

Hyaluronic acid is synthesized by fibroblasts, keratinocytes or the plasma membrane of other cells. Hyaluronic acid exists in almost all tissues and fluids of the body, and the content of hyaluronic acid in the umbilical cord is 4100mg/L, and the content of hyaluronic acid in the bursal fluid is 1420mg/L~3600mg/L. However, the content of hyaluronic acid in the blood is only 0.01mg/L~0.1mg/L, and the content of hyaluronic acid in the urine is 0.1mg/L ~0.5mg/L. The amount in the urine is only 1% of the total amount excreted [6]. ~ However, blood contains at least 0.01mg/L to 0.1mg/L, and urine contains 0.1mg/L to 0.5mg/L. More than half of the body' ácido hialurónico s se encuentra en la piel. Se enriquece en la epidermis y la dermis, donde es más abundante en el centro del estrato espinoso y disminuye gradualmente hasta la capa basal; Sin embargo, el ácido hialurónico no existe en absoluto en el estrato granulosum y el estrato córneo. La tinción con ácido hialurónico revela que la intensidad de la tines en orden descendente: espacio intercelular epidérmico, dermis papilar, dermis reticular [1.2].

2.2 ácido hialurónico y cicatride heridas

Hyaluronic acid also plays an important role in the process of skin wound healing7], Hyaluronic Acid is one of the substances that reach the wound very early after injury, and the one that reaches the wound is the high molecular hyaluronic acid. When the body is in a metabolically stable state, HA binds to fibrinogen in the blood and forms a fibrous reticulum as a skeleton in combination with fibrin. hyaluronic acid is degraded under the action of hyaluronidase in 6-10 days, which stimulates the subsequent wound repair until the wound is completely repaired.

The time of inactivation of the enzyme of Hyaluronic Acid is in line with the change from the cell wandering and proliferation of the wound to the differentiation of the cells and maturation of the wound. Hyaluronic acid also enhances the action of thrombin at the site of injury, acting as a catalyst for fibrous clot formation. It also promotes pathological phagocytosis by monocytes. Due to its water-retaining and hydrating properties, HA facilitates cell movement by enlarging the intercellular space, creating a suitable environment for inflammatory cells to enter and maintain their activity. At the same time, hyaluronic acid promotes the entry and adhesion of epidermal cells, but also the proliferation and travelling of fibroblasts.

Se ha demostrado que cuando se aplica sobre úlceras cutáneas,El ácido hialurónico promueve la cicatride heridasIncluso más que los tratamientos convencionales [8]. Su efecto hidrattambién favorece un entorno hidrológico constante en la piel, que favorece la cicatride las heridas. También cabe destacar que el uso de preparados de ácido hialurónico en la superficie de la piel de las mujeres durante el embarazo puede reducir la aparición de estrías y facilitar su recuperación después del parto [1,13].

2.3 ácido hialurónico y envejecimiento cutáneo

Hyaluronic acid, as a major component of the extracellular interstitium, has a strong water-absorbent capacity that facilitates the flow of nutrients and plays an important role in maintaining the elasticity of the skin [1,13]. As the body continues to age, the skin's hyaluronic acid content becomes less and less, reducing the amount of water, leading to shrinkage of its contents and a decrease in viscosity. At the same time, the exchange of substances and energy between the skin's el fluido tisuly el torrente sanguíneo se reducen, la piel se priva de nutrientes adecuados, y las células envejecgradualmente y pierden su función.

Several in vivo estudioshave confirmed that Hyaluronic Acid levels decrease during the maturation process. In vitro experiments have shown that hyaluronic acid levels also decrease during cellular ageing [1,2,9]. Specifically, hyaluronic acid staining decreases in the middle stratum spinosum and basal layer of the epidermis during aging, and in the dermis around collagen fibres and between collagen and elastin fibres, while staining increases in the papillary layer of the dermis. The decrease in hyaluronic acid content of the dermis can cause the aging skin to lose its fullness and microvascular support, leading to the appearance of wrinkles and a decrease in skin elasticity. Pulsed EMF treatment, however, resulted in a sense of fullness, a reduction in wrinkles, and an increase in the content of amino-polysaccharides such as hyaluronic acid in the extracellular mesenchyme and between elastin fibres and collagen fibres. Other researchers have found that hyaluronic acid is reduced in the upper epidermis, and that hyaluronic acid is still present in the dermis of aged skin, but not in the epidermis. A decrease in free hyaluronan and an increase in bound hyaluronan were also found, suggesting that hyaluronan-binding proteins (HABPs) are also strongly associated with ageing, and that their levels are elevated during ageing, with fetal bound hyaluronan accounting for 7% of total hyaluronan compared with 23% in aged skin.

Fetal fibroblasts exhibit greater cell mobility than adults, which is related to the amount of Hyaluronic Acid produced by these cells [10]. Adult cells produce less Hyaluronic Acid, as hyaluronidase inhibits the movement of fetal fibroblasts, and a significant correlation was found between hyaluronic acid production and cell movement. A significant correlation was also found between hyaluronic acid production and cell wandering, while there is still no clear correlation between the decline in hyaluronic acid content and age.

3 aplicación de ácido hialurónico en cosmética

3.1 propiedades de retención hídrica e hidratante del ácido hialurónico

Masa molecular relativa de4 × 10⁶ of hyaluronic acid molecular chain length of 10μm, due to the straight chain axis of hydrogen bonding between monosaccharides, Hyaluronic Acid molecules in the space of a rigid helical column, radius of 200nm, the inner group of a large number of hydroxyl groups by the hydrophilicity of the hydrophilic group, the solution and the affinity for the water is about 1,000 times the mass of its own, but also because of the helix of the space of the outside has a hydrophobicity, so that the water in the spiral column immobilised, the water in the water. The hydrophobicity on the outside of the helical space makes the water immobile and not easy to be lost inside the helical column. At the same time, hyaluronic acid solution has unique hydrodynamic properties, with good viscoelasticity and strain, the low concentration of the solution is mainly viscous, while the high concentration of elasticity [1~3].

Despite the inconsistent results, it is clear that Hyaluronic Acid can act as a cellular barrier and lubricant to collagen, while at the same time facilitating the separation of tightly bound cells and allowing the cells to travel to the site of proliferation (e.g., site of injury, etc.). The synthesised Hyaluronic Acid forms directly into the extracellular matrix and is generally found as a periplasm on the surface of cell membranes. Hyaluronic acid is mainly found in rapidly proliferating, rebuilding and repairing tissues. Its biological role is mainly to maintain the extracellular space of tissue cells, to accelerate the flow of ions, solutes and nutrients and to maintain tissue hydration. This is due to the excellent water-absorbing and moisturising properties of Hyaluronic Acid.

Specifically, Hyaluronic Acid-rich ECM can draw a large amount of water from the dermis, and at the same time prevent evaporation and loss of water due to the epidermal lipid barrier, thus maintaining a constant hydrological environment in the skin []. Therefore, hyaluronic acid is widely used in cosmetics as the most ideal natural moisturising factor. Therefore, many cosmetic manufacturers at home and abroad make use of hyaluronic acid's tiene un efecto natural hidrhidrante e hidratante para añadir ácido hialurónico a los cosméticos, haciéndolos adecuados para su uso en diferentes tipos de piel, climas y entornos. No solo hace que los fabricantes obtengan ciertos beneficios, sino que también desempeña una cierta función para satisfacer las necesidades de los consumidores, y es especialmente adecuado para personas con piel seca y en ambientes fríos y secos.

3.2 efectos antienvejecimiento del ácido hialurónico

Hyaluronic acid has excellent functions in improving the physiological conditions of the skin, such as providing sufficient moisture to the stratum corneum, strengthening the skin barrier, providing an excellent external environment for the synthesis of dermal collagen fibres and elastin fibres, and enhancing the supply of a variety of nutrients, which is effective in skin care and skin maintenance. In addition, in vitro or animal studies have found that: ① hyaluronic acid bound on the cell surface can block the release of some cellular enzymes to the outside of the cell to reduce the production of free radicals, and hyaluronic acid bound on the cell surface can restrict several enzymes that produce free radicals and lipid peroxidation from approaching the cell membrane, and reduce the influx of hydroxyl radicals on the surface of the cell membrane.

Free radicals play an important role in destroying cell structure, generating lipid peroxidation and causing aging. ② Low molecular weight hyaluronic acid (LMW-HA) was also found to have anti-inflammatory and pathological inhibiting effects in rodents. Hyaluronic acid can provide a suitable matrix for cell proliferation and differentiation, and at the same time, the hyaluronic acid bound on the cell surface can directly transmit the external growth signals to the cells, which can directly promote the proliferation, reconstruction and repair of the tissues, and promote the recovery of the ECM function, so as to recover the elasticity and fullness of the skin. Its excellent matrix space structure and ability to maintain water balance play an important role in improving the internal environment of skin tissues and the supply of nutrients, thus showing a certain anti-aging effect. Therefore, people use hyaluronic acid to inhibit the pathological phagocytosis of animal cells, use it to inhibit inflammation, inhibit the production of free radicals, etc., and water retention and moisturisation combined with the application of cosmetic products, to achieve anti-wrinkle and anti-inflammatory, rejuvenation and anti-ageing effect [11,12].

Although the polymer Hyaluronic Acid was found to have the effect of delaying skin aging in animal studies, these so-called anti-aging cosmetics have been found to have the effect of delaying skin aging in animal studies. However, most of these so-called anti-aging cosmetic substances are based on their temporary hydration or moisturising effect, which reduces blemishes, imperfections and other undesirable symptoms from the skin's, pero no promueve la síntesis de mesénquima extracelular (ECM) tales como fibras de colágeno y fibras de elastpor los fibrobladérde la piel, que es particularmente importante para promover la síntesis de ácido hialurónico. Sólo penetrando en la dermis y estimulando la síntesis del ácido hialurónico se puede detener el proceso de envejecimiento de la piel. En ratones, la administración de estradiol en la piel promueve la síntesis del ácido hialurónico D1,2,12]. Estudios In vitro han demostrado que la adición de CaCl₂ al medio de cultivo inhila la síntesis de HA por los queratinocitos, mientras que el ácido microfórmico promueve la producción de ácido hialurónico. La adición de ascorbato y cortisona a los fibroblade la piel en cultivo redujo la síntesis de ácido hialurónico. Los experimentos de progenia de fibroblatambién confirmaron que la producción de ácido hialurónico por los fibrobladespués de 24 generaciones fue dos veces menor que la de los fibrobladespués de solo nueve generaciones, indicando que la síntesis de ácido hialurónico por los fibroblasenescentes está reducida, y que la adición de hialuronidasa al medio de cultivo estimulla resíntesis de ácido hialurónico y estimula la proliferación celular [13].

At the same time, there are few published studies on the evaluation of the effects of HA application on normal human skin. Overseas experimental studies are generally based on damaged skin, as it is generally considered to be unable to cross the normal skin barrier.4 Stem synthesised [12] that small molecular amounts of HA (LMW-HA) (150 KD) derived from bovine trachea hydrolysed by endopeptidases were used En humanosexperiments, and concluded that HA was beneficial for normal hydration. The authors also claimed that the slow response of intact skin to cosmetic and dermatological treatments is not conducive to a correct interpretation of their efficacy and that the limitations of their study are obvious. The results of in vitro or population studies on the effects of HA when added to cosmetic products are generally based on measurements of skin capacitance, water evaporation and keratinisation after application3 [14], and there is a lack of studies on the delay of skin hydration. 14], there is a lack of objective, comprehensive and scientific evaluation of skin ageing. Although domestic and foreign cosmetic manufacturers are using HA, the exact effect of HA on normal skin (moisturising and anti-aging) has not yetbeen scientifically proven in a complete and systematic way.

En conclusión, el ácido hialurónico tiene un cierto y claro efecto cuando se administra In vivo o por otros medios, con excelente absorción de agua y funciones hidratantes, promoviendo el aporte de nutrientes a la piel y manteniendo la constancia de la piel's ambiente hidrológico, y prevenir y aliviar el envejecimiento de la piel. Por lo tanto, ha sido ampliamente utilizado en productos cosméticos. En el pasado, el HA se derivaba de extractos de tejido animal (como corona de pollo, cordón umbilical, vaca#39;s eye or microbial fermentation, etc.), and due to the possibility of contamination and allergy, it has now been transferred to the production of genetically engineered strains.The research and development of the production of HA as well as the exact efficacy of HA on the normal skin of the human body deserves further study, so as to facilitate its wide application in cosmetics.

referencia

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[6] Stern Ret al.Hyaluronic  acid  and  Skin.Cos&Toil,1998,113:43~ 48

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[8] Hellstrom Set al.Hyaluronanand Healing of timpanic membrana perforación :anexperimental Estudio. Acta Acta Oto Laryagologica,1987, 442:54~61

[9] Campanile G et al.ácido hialurónico en el envejecimiento intrínseco cutáneo. J    Dermatol,1994,33(2):119~122

[10] Fleischmajer R et al.Human dermal glycosaminolycans and AG - ing. Biochim Biophys Acta,1972,279:265~275

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[13] Moczar M et al.estimulación de la proliferación celular mediante el envejecimiento in vitro de hialuronidasa en fibroblade piel humana. Exp Gerontol,1993,28: 59~68

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