Silicone in Dermatology: An Update - PMC
Silicone in Dermatology: An Update - PMC
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Silicones aka siloxanes are synthetic compounds, which contain siloxane bonds, i.e., the repeat unit Si-O with organic side groups such as methyl, ethyl, propyl, phenyl, fluoroalkyl, aminoalkyl, hydroxy, mercapto, hydrogen, and vinyl attached to the silicon atoms. They have ability to create short, long, or complex organosilicone oligomer and polymer particles. The siloxane bond in silicone is very strong and highly stable with nontoxic, noncarcinogenic, and hypoallergic properties. Silicone compounds have become one of the key ingredients in various skin care products namely moisturizers, sunscreen, color cosmetics, hair shampoos, etc. This review focuses on an update on various indications of silicone in dermatology. For this review, the literature search was conducted using keywords such as silicone and role of silicone.
Silicones have ability to create short, long, or complex organosilicone oligomer and polymer particles. The silicone structure may be linear, cyclic, branched, cross-linked first network and cross-linked second network.[ 2 ] The structure of most commonly used silicones, i.e., dimethicone, cyclopentasiloxane, and silsesquioxane, is depicted in , respectively.
Silicones aka siloxanes are synthetic compounds that were discovered in by British chemist F.S. Kipping.[ 1 ] Silicone is a long-chain inert polymer that contains siloxane bonds, i.e., the repeat unit Si-O with organic side groups such as methyl, ethyl, propyl, phenyl, fluoroalkyl, aminoalkyl, hydroxy, mercapto, hydrogen, and vinyl attached to the silicon atoms. Since they have a structure analogous to the ketones Si=O, they were called silicones. The basic structure is shown in . This review focuses on an update on various indications of silicone in dermatology. For this review, the literature search of PubMed-indexed journals was conducted using keywords such as silicone, role of silicone, uses of silicone in dermatology, and silicone in dermatology.
These are called polyhedral oligosilsesquioxanes (POSS) or cage silicones due to their 3D multiarmed structure.[ 3 ] The simplest form of POSS with hydrogen attached to the cage has low stability and solubility in formulations, but the attachment of organic groups to its core makes POSS more soluble and chemically stable.[ 3 ] In the chemical structure of silsequioxanes (RSiO 3/2 ) n , the R groups used as substituents in the corners of the POSS cage include quaternary nitrogen, zwitterionic compounds, and different functional organic groups.[ 3 ] Silsesquioxanes are environment-friendly, recyclable, biocompatible, odorless, nonvolatile, and nontoxic under normal conditions.
It is the oldest and most extensively used silicone. It has a highly flexible polymer backbone. The change in the length and molecular weight of dimethicone polymer imparts different physical properties to dimethicone.[ 1 ] They are used in combination with emollients and moisturizers.
S
ILICONE
USE IN
DERMATOLOGY
Moisturizers
Dimethicone is a key moisturizing ingredient in various formulations due to its ability to act as an occlusive, emollient, and artificial barrier.[4] It makes a thin layer on skin as it is a nongreasy occlusive agent. Dimethicone has the property of being insoluble in water but at the same time it is permeable to water vapor; thus, it will not reduce transepidermal water loss.[5] It has an aesthetic value for patients as it smoothens skin by filling in gaps where damaged corneocytes are missing from the stratum corneum.[4] There is an added advantage that dimethicone is hypoallergenic, noncomedogenic, colorless, and nonodorous.[5] Dimethicone is an ideal agent for incorporation into antiacne medications because of the moisturizing and barrier-enhancing benefits without creating a greasy shine undesirable in patients with acne.[4] Dimethicone and glycerin were the most common ingredients in a literature review of 52 online available moisturizers for acne.[6] The synergistic role of dimethicone in antiacne medications may increase compliance and tolerability to antiacne medications among patients with acne. So, facial moisturizers, which are silicone-based, are suitable for oily skin.[7]
Antiperspirants
Antiperspirants contain highly concentrated aqueous aluminum chlorohydrate emulsified in silicones. The silicone in the formulations facilitates application and easy spreadibility, reduces the tackiness of chlorohydrate, and evaporates without giving a chilling feeling.[8] Cyclomethicones in aerosol formulations are used in antiperspirants due to their dry feel and volatility, and the newer elastomer formulation has better aesthetic appeal. Silicones like cyclopentasiloxanes are used in antiperspirant stick formulations, where they provide the typical lubricating silicone feel.[1]
Color cosmetics
Silicones are used in color cosmetics as spreading agents for pigments as they have good spreadability, are nongreasy, and then evaporate, thus leaving a pigment film. The pigment/cyclomethicone combination is effective for producing wear-resistant cosmetics.[1]
Hair conditioners and shampoos
Hair conditioners are agents used to improve the feel and texture of hair and to decrease friction, hair tangling, and frizziness of hair. Silicones are the most active and used ingredient in hair conditioners.[9] Silicones by their film-forming action reduce interfiber friction and give shine, slip, and smoothness to hair that make them effective hair conditioning agents.[1] Silicones can be used for all hair types and in different hair care products like shampoos, rinse-off conditioners, hair masks, hair sprays, hair serums, hair oils, cuticle coats, hair styling products, and dye creams. Asian people have large hair diameters; therefore, a higher concentration of silicone is used as compared with that for Caucasian hair (35% vs. 0.5%).[10] Dimethicone, aminosilicones, and siloxysilicates are a few of the main ingredients in two-in-one shampoos.[9] Dimethicone has the effect of protecting the hair shaft from abrasive actions, whereas siloxysilicates increase hair body. Adding silicone to shampoos has its own challenges: (i) surfactants in shampoos remove silicone hair conditioning agents and (ii) water-insoluble silicones like dimethicone can reduce the amount of lather produced by the shampoo. These formulation challenges are addressed by the use of silicone polyethers that are water-soluble or water-dispersible in shampoos.[1] Another option is the use of amodimethicone, in which the amine groups become positively charged in aqueous solutions and can then deposit onto the hair due to the electrostatic force between amodimethicone and the negatively charged protein surface of the hair cuticle.[11] Silicones are also typically used in antidandruff shampoos as part of scalp care, where they have shown to increase compliance and also improved the feel and appearance of hair.[12]
Sunscreens
The challenge with an ideal sunscreen formulation is to provide the functional benefits of a sunscreen along with better acceptability so that sunscreens are applied in sufficient amounts to provide adequate protection. Silicones reduce the oiliness of sunscreen formulations and impart a light, nongreasy silky feel, which improves the consumers acceptance. Silicone emulsifiers have very low toxicity after topical application and have ability to impart a noticeable water resistance, which makes them quite beneficial.[13] Silicone elastomers, because of their cross-linked structure, swell in presence of certain solvents. This property enables them to take up adequate quantities of various oils, glycerides, sunscreens, and still remain dry to the touch, which makes them ideal therapeutic delivery agents for skin.[1] Alkyl-modified silicones such as stearyl dimethicone and cetyl dimethicone improve sunscreen performance by producing a thicker sunscreen film, thereby improving protection.[1] Phenyl silicones have shown good compatibility with organic sunscreens.[1] There are reports that adding 4% silicone elastomer can increase the sun protection factor value of a sunscreen formulation from ~5 to 18.[14] Silicones add more flexibility to a sunscreen formulation by increasing wash-off resistance and reducing oily and sticky feel of organic ultraviolet filters in sunscreens.[14]
Moisturizing body washes and cleansers
Moisturizing body washes are formulated to deposit skincare ingredients (moisturizers) onto the skin during and after the cleansing process. Dimethicone, silicone polyethers are added in body washes to improve the foam quality and create a creamier, more stable foam.[14] Similarly, nonrinsable makeup removers and cleansers also contain polydimethylcyclosiloxane and their derivatives since they act as good solvents for organic-based oils and, in addition, give a shiny, silken, and nongreasy feel on human skin.[14] Cyclomethicone and various properties of low molecular weight silicones such as low surface tension, good wetting properties, and the capacity to eliminate dirt or color cosmetic residues are utilized in makeup removal cleansers.[14]
Antiageing and age masking creams
While there are various topical pharmacological agents with antiageing properties in a dermatologists armamentarium, there is a need for products that mask the wrinkles and fine lines on skin and project the natural skin tone. In a young face, the reflection of light from the surface is largely diffused naturally giving a visual perception of softness and firmness, which is called natural soft focus. With increased age, this natural soft focus effect is lost, and the lines and furrows increase the skin contrast and negatively affect the perception of skin. The lines and wrinkles in an aging face trap light in crevices and cause the skin tone to look uneven. The pigments from makeup and foundation also tend to collect in skin crevices and accentuate fine lines and wrinkles. The silicone elastomer particles create a layer on the skin that scatters light, thereby obscuring the underlying shadow that the fine wrinkles create.[1] The soft focus effect created by silicon elastomeric particles makes the natural skin tone show through to give a natural glow and even out the skin by hiding imperfections.
Are you interested in learning more about Polydimethylsiloxane in Cosmetics? Contact us today to secure an expert consultation!
Additional reading:Cas: 96-31-1 White Powder vs. Other Chemical Compounds
Wound dressings
Vae Redispersible Powder: The Secret Weapon Against Wrinkles?
Silicone is an ideal material for wound contact layer dressingsdressings applied directly to a wound to protect it from direct contact with harmful substances and ensure an appropriately moist environment to promote healing without maceration. Silicone has a property to adhere to the periwound skin and not to the wound bed; thus, it is less likely to result in skin damage and pain on removing dressing.[15] The various silicone-based dressings include bistretch soft silicone, soft silicone mesh, soft silicone fixation tape, soft silicone foam, and soft silicone foam with superabsorber.[15] These have been used successfully in the treatment of pressure ulcers, burns, and blistering diseases, such as epidermolysis bullosa (EB), Bullous Pemphigoid, and Hailey-Hailey disease. In a randomized study of 366 patients in an intensive care unit, it was found that a soft silicone foam dressing applied over the sacrum lowered the incidence of pressure ulcers (0.7%) compared with the no-dressing control group (5.9%).[16] A systematic review done to evaluate the effectiveness of dressings in preventing pressure ulcers concluded that silicone dressings can reduce the incidence of pressure ulcers though the certainty of the evidence was low.[17] Silicone dressings have been recommended for wound care in patients with EB.[18,19]
The soft silicone dressings are used for dry to lightly exudative chronic wounds of EB. These are porous, semitransparent, and provide gentle adhesion. They have a wear time of 34 days. The disadvantages are that the adherence may be too strong on fragile skin, and a risk of overgranulation can be there.[17]
The soft silicone foam dressing is used on exudative wounds as it can absorb exudate and provide a degree of protection to wound. It is an absorbent dressing made from polyurethane foam, the outer surface of which is bonded to a vapor-permeable polyurethane membrane that acts as a barrier to fluid and microorganisms.[18] The inner surface of the foam is coated with a layer of soft silicone that helps to hold the dressing in place without sticking to the surface of the wound or causing trauma to delicate new tissue on removal. The wear time is 34 days. There is a risk of adherence if placed directly on wound bed so used over soft silicone mesh.[18]
Soft silicon tape and adhesives
The soft silicone tapes and adhesives should be used in place of normal adhesive tape in patients of blistering disorders, e.g., EB and toxic epidermal necrolysis. If intravenous access is necessary, the cannula should be secured using silicone-based tapes instead of adhesive tapes. In contrast to conventional adhesives, silicone adhesives have lower surface tension; therefore, they hold onto skins natural lines and curves and create a steady bond.[15] The adhesion with silicone is rapid and remains constant with time compared with traditional adhesives.[15] These properties help reduce discomfort on removal due to less peel force and less susceptibility for epidermal cell stripping.[15] Besides the advantages of silicone adhesives, they adhere poorly to other silicone products and plastics, so should be avoided there, and also due to lack of evidence, silicone adhesives should be avoided in primary securement of critical tubing.[15]
Silicone medical adhesive removers
Medical adhesive removers are used to abet removal of adhesive products, but these can strip layers of the stratum corneum, causing skin injury and discomfort to the patient. It is used to remove adhesive materials such as tapes (used for securing intravenous canulae, central lines, and nasogastric tubes), clothing and bedding adhered to wounds and erosions. The different types of medical adhesive removers include alcohol or organic solvent-based, oil-based, or silicone-based.[15] Of these, the silicone-based removers are the newest, which have benefited the management of EB and are strongly recommended.[19] The disadvantage of oil-based solvents is that it results in persistant stickiness, which can impede the adhesion of the next appliance to be placed on the peristomal skin.[20] The silicone-based removers have been shown to reduce peel force by as much as 81% and are devoid of stinging sensation and pain associated with other alcohol-based medical adhesive removers.[20] There is a newer formulation of silicone medical adhesive remover as spray and sterile sachets.[20]
Silicone barrier films
The most common peristomal skin complication is contact dermatitis, which occurs due to prolonged exposure of skin to potential irritants (urine, feces, and wound exudates) from stoma. This can manifest as irritation, redness, burning sensation, and pain. The barrier films are available as powder, paste, wipes, or sprays, and are applied directly to the peristomal skin before the appliance is fitted.[21] Barrier seals or rings made of silicone and hydrocolloid can be molded around the stoma and they fit in uneven skin contours around the stoma and on the peristomal skin.[21] Silicone-based barrier films are long-lasting and pain-free, and various formulations have been developed that protect the skin from chemical irritants like stomal effluent, urine, and feces, and soothen the damaged skin. The silicone-based barrier films have an advantage over alcohol-based peristomal products since it causes negligible pain on application. Dimethicone being permeable to water vapor allows evaporation of perspiration and minimizes the risk of miliaria, and it is easy to spread and feels less greasy on skin.[22]
Silicones in treatment of hypertrophic scars and keloids
Silicone gels (SGs) and SG sheeting are both used to help reduce scarring. It has been reported to produce 86% reduction in texture, 84% in color, and 68% in height of scars.[23] The international advisory panel for hypertrophic scar and keloid management recommend SG sheeting as a reasonable first-line treatment choice for hypertrophic scars and keloids.[23] The exact mechanism of action of SG is not known but numerous studies have cited improved occlusion and hydration to wound bed to play a key role.[24] SG acts as a flexible hydrophobic barrier, causes temperature regulation, and increases hydration at site of scar, which is responsible for reduced capillary activity, hyperemia, and collagen deposition.[24] According to Gilman et al., [25] silicone sheets decrease the water vapor evaporation rate causing a buildup of moisture on the skin surface. Tumor growth factor (TGF) encourages fibroblasts to produce fibronectin and collagen. Fibroblast growth factor (FGF) increases the number of collagenases, which breaks down the extra collagen, and normalizes the collagen synthesis in an aberrant scar. FGF and TGF expressions are both modulated by silicone. Eventually, the balance between fibrogenesis and fibrolysis is restored.[23] It protects the scarred tissue from bacterial invasion and prevents the excessive collagen production in the scar tissue induced by bacteria.[23]
Method of application
Silicone can be applied to the skin in the form of a topical SG applied twice a day or an SG sheet for 1220h/day with daily washing for a period ranging from 3 to 6 months.
Advantages
Topical SG is nonocclusive, waterproof, and gas permeable, and has ease of application. It can be applied on even sensitive skin, children, any irregular skin or scar surfaces, the face, moving parts (joints and flexures), and any size of scars.[23]
A new alternative to topical silicone is a combination of silicone oil with hypochlorous acid (HOCL); it is a gel or spray that can be applied twice daily. HOCL has an antimicrobial, antipruritic, and anti-inflammatory role by increasing oxygenation and disrupting biofilm formation. So for scar management and wound healing in immediate postoperative period, the combination hydrogel of HOCL and silicone can be useful.[26]
Treatment of pediculosis capitis
Dimethicone 4% lotion is a physically acting pediculicidal compound based on 4% high molecular weight dimeticone in a cyclomethicone base.[27] Burgess and Burgess[28] demonstrated a good ovicidal and pediculicidal action of dimethicone 4% gel after a single 15-min application. The limitation in its use is the excessive fluidity of the dimethicone lotion and dripping of the active agent away from hair root, thereby rendering it ineffective.[27] Another study found dimethicone product to be safe and more efficacious than permethrin.[29] Resistance to dimethicone is unlikely due to its physical mode of action.[30]
Silicone granulomas and liquid injectable silicone
Injected silicone is food and drug administration -approved only for intraocular injections in the treatment of retinal detachment.[31] Although it is not food and drug administration-approved for soft tissue augmentation, it is used off-label by some practitioners to correct human immunodeficiency virus-associated facial lipoatrophy.[31] In surveys done in transgender population in the United States, the prevalence of illicit silicone use has been reported to be 16.7% in a population-based sample of trans women in San Francisco.[31] Silicone injections are often administered on breast, hips, and buttock regions by male to female transsexuals to achieve a more feminized appearance. Illicit silicone, which is industrial grade as opposed to medical-grade silicone, is used in various cases. The dermatologist needs to be aware of the complications postsilicone injections, which might take days to years to manifest.[31]
The major drawback of silicone injection is a high rate of foreign body granuloma after both industrial-grade and medical-grade fluid silicones. and mention the various complications of injected silicone and treatment options for silicone granuloma, respectively.31,32,33,34
Table 1
Time gap from injectionComplicationsImmediate: Seconds to minutesArterial occlusionVenous occlusionDiscoloration of the skinPostinjection papules and painRednessEcchymosisSwellingHypersensitivity reactionEarly: Days to weeksPainEcchymosisPigmentationInflammatory nodulesPruritusLate: Months to yearsInflammatory nodulesSilicone granulomaOpen in a separate windowTable 2
Treatment optionsIndicationFirst-line therapyAntibiotics for 46 weeks These target delayed inflammatory nodules, granulomas, and sterile abscessesMinocycline: 100mg PO BIDTetracycline: 500mg PO BIDCombination of tetracycline with Clarithromycin 500mg PO BID for 2 weeksRefractory therapyNSAIDsAdded along with oral antibiotics to dampen granulomatous inflammatory reactionOral and intralesional steroids (recommended dose of 2.510mg/mL every 34 weeks)Used if refractory to oral antibiotics and NSAIDS for 46 weeksNovel therapyImiquimodAntiproliferative actionEtanercept: 2550mg subcutanceous twice a weekTNF-α inhibitionAdalimumab: 40mg subcutaneously every 2weeksTacrolimus: 0.81.0mg/kg PO BIDInhibit T-cell activation, interferon, and the release of preformed mediators from mast cells and basophilsAllopurinol: 300mg PO dailyInhibits granuloma formulation by targeting xanthine oxidaseIsotretinoin: 0.5mg/kg/day POAnti-inflammatory propertySurgical excisionIf nodules are well circumscribed, and clear margins exist to ensure feasible removalOpen in a separate windowSilicone toxicity and environmental concerns
The fast spread of silicone use in various fields raises concern about any toxic adverse effects of these compounds on environment. Studies on safety of cyclomethicones have shown the products tested to be safe as cosmetic ingredients.[1] The cyclic siloxanes in the atmosphere rapidly break down when exposed to oxygen and ultraviolet radiation from sunlight and produce silica and carbon dioxide.[1] There is concern about few silicones, which are nonbiodegradable and have potential to accumulate in food chain but studies have been inconclusive so far. The silicones added in wash-off personal care products are considered to have the highest environmental risk. Since a big share of our cosmeceutical products contains silicone, regular surveys and scientific research should be done to be mindful of the various environmental and ecological risks associated with unrestricted use of silicone.
Conventional Silicone Fluids
Conventional fluids are the well-known general purpose silicones described in chemical notation as polydimethylsiloxanes. They are commercially produced in viscosities ranging from 0.65 to 20,000,000 cSt. Conventional silicone fluids are composed of polymer chains with unique flexibility. Polydimethylsiloxane has virtually no energy barrier for rotation. This results in one of the lowest glass transition temperatures of any polymer. The liquid surface tension of polydimethylsiloxane is lower than the critical surface tension of wetting (24 dynes/cm). This causes polymers to spread over their own adsorbed films. An important consequence of the low intermolecular forces in polysiloxanes is the highest permeability coefficients of any polymer for oxygen and nitrogen. The fluids are thermally stable indefinitely at 150 °C in air. Fluids with viscosities 50 cSt have negligible vapor pressure.
At viscosities > 1,000 cSt (correlating to molecular weights > 30,000), polymer chain entanglement occurs which results in leveling of physical property change vs. viscosity. Refractive index, surface tension, density, and viscosity-temperature coefficients are strikingly flat.
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