Below is every ingredient in 72HR Hydrating Gel Moisturizer + Probiotics explained, its standout actives, and the side effects reported in research for those actives — analysed for Indian skin.
Flags derived from the ingredient list using dermatology reference data (fungal-acne substrate, comedogenicity, EU allergens). General guidance, not a diagnosis.
Answers are derived from the printed ingredient list and dermatology reference data — general guidance, not a diagnosis or a therapeutic claim.
Dimethylsilanol Hyaluronate is a silanol-modified form of hyaluronic acid that combines moisture-binding properties of hyaluronic acid with organic silicon, used to hydrate skin and support a smoother, more supple appearance. It is reported to penetrate more readily than standard high-molecular-weight hyaluronic acid.
Silanetriol is an organic silicon compound used in skincare as a humectant and skin-conditioning agent, often included to support hydration and as a carrier for silicon delivery in anti-aging formulations. It is generally considered well tolerated at typical cosmetic concentrations.
Hyaluronic acid is a glycosaminoglycan that attracts and binds water to the skin, helping to maintain hydration and improve the appearance of plumpness and smoothness. It is widely used in moisturizers and serums and is generally well tolerated across skin types.
Methylsilanol Mannuronate is an organosilicon compound combining silanol with mannuronic acid (derived from algae), used in skincare for its humectant and skin-conditioning properties. It is marketed to support hydration and skin firmness, though robust clinical evidence is limited.
Urea is a naturally occurring component of the skin's natural moisturizing factor that hydrates by attracting and retaining water; at higher concentrations it also softens and exfoliates thickened or scaly skin. It is widely used to treat dry skin conditions such as xerosis, ichthyosis, and hyperkeratosis.
Aggregated from the active ingredients in this product.
| Reported effect | How often | Notes |
|---|---|---|
| Irritation or sensitivity | Very rare | Purified water itself is essentially inert; rare reactions are attributable to contaminants or accompanying ingredients rather than water. |
| Transepidermal water loss aggravation in compromised skin | Rare | Evaporation of water from products may transiently increase dryness in very compromised skin barriers if occlusives are absent. |
| Mild skin irritation | Rare | Generally considered non-irritating; occasional mild reactions reported. |
| Contact allergy/sensitization | Very rare | Silicones are low-allergenicity; documented allergic reactions are exceptional. |
| Eye irritation | Rare | Possible transient stinging if product enters the eyes. |
| Mild irritation or sensitivity | Rare | Generally considered non-irritating; occasional reactions in highly sensitive individuals. |
| Acneiform breakouts/clogged pores | Rare | Silicones are largely non-comedogenic, but rare clogging reports exist, often linked to overall formulation or inadequate cleansing. |
| Allergic contact dermatitis | Very rare | True allergy to silicone polymers is exceptionally uncommon. |
| Mild transient stinging or irritation | Uncommon | More likely at high concentrations or on compromised/broken skin. |
| Tacky or sticky skin feel | Common | A cosmetic sensation rather than an adverse reaction, more noticeable at higher concentrations. |
| Contact dermatitis or allergic reaction | Rare | True allergy to glycerin is uncommon; patch-test positivity is infrequent. |
| Skin dehydration in very low humidity | Rare | In very dry environments humectants may draw water from deeper skin layers if not paired with an occlusive. |
| Mild transient irritation or stinging | Rare | Occasional on sensitive or compromised skin |
| Contact allergy / sensitization | Very rare | Allergic responses are uncommon for sugar-derived humectants; isolated cases possible in sensitive individuals. |
Frequencies reflect typical cosmetic use reported in the literature, not a guarantee for your skin.
| Ingredient | What it does |
|---|---|
| Aqua Solvent / vehicle | Aqua (water) is the most common base ingredient in skincare formulations, serving as a solvent that dissolves water-soluble components and forms the medium for emulsions. It has no direct treatment activity and primarily contributes to texture, spreadability, and product delivery. |
| Cyclopentasiloxane Emollient/silicone | Cyclopentasiloxane is a volatile cyclic silicone widely used in skincare and cosmetics to impart a smooth, silky feel and spreadability before evaporating, leaving no greasy residue. It also serves as a carrier and helps reduce tackiness in formulations. |
| Cyclopentasiloxane Emollient/silicone | Cyclopentasiloxane is a volatile cyclic silicone widely used in skincare and cosmetics to impart a smooth, silky feel and spreadability before evaporating, leaving no greasy residue. It also serves as a carrier and helps reduce tackiness in formulations. |
| Dimethicone Crosspolymer Silicone-based texture enhancer/film former | Dimethicone Crosspolymer is a crosslinked silicone polymer used in skincare and cosmetics to provide a smooth, silky feel, absorb excess oil, blur the appearance of pores and fine lines, and improve product spreadability. It functions as a formulation ingredient rather than a therapeutic active. |
| Glycerin Humectant | Glycerin is a widely used humectant that attracts and retains water in the skin, helping to hydrate the stratum corneum and support barrier function. It is considered safe and well-tolerated across most skin types and concentrations. |
| Xylitylglucoside Humectant / moisturizer | Xylitylglucoside is a sugar-derived humectant, typically used in combination with anhydroxylitol and xylitol, that helps attract and retain water in the skin and supports the skin barrier. It is valued for its skin-hydrating and moisturizing properties in cosmetic formulations. |
| Anhydroxylitol Humectant / moisturizing agent | Anhydroxylitol is a sugar-derived (xylitol) humectant used in skincare to attract and retain water, helping to maintain skin hydration and barrier function. It is often combined with xylitol and xylitylglucoside to enhance the skin's natural moisturizing factors. |
| Xylitol Humectant / moisturizer | Xylitol is a sugar alcohol used in topical formulations as a humectant that helps attract and retain moisture in the skin, and it may support the skin's microbiome and barrier function. It is generally well tolerated and considered safe for topical use. |
| Divinyldimethicone/Dimethicone Copolymer Silicone-based film former / emollient | Divinyldimethicone/Dimethicone Copolymer is a crosslinked silicone polymer used in skincare and cosmetics to form a smooth, flexible film on the skin, improving texture, spreadability, and providing a soft, conditioned feel. It functions primarily as a formulation aid rather than a biologically active treatment ingredient. |
| C12-13 Pareth-23 Surfactant/Emulsifier | C12-13 Pareth-23 is a polyethylene glycol ether of synthetic C12-C13 fatty alcohols used as a nonionic surfactant, emulsifier, and solubilizer in cosmetic formulations. It helps disperse oils and stabilize emulsions rather than providing a direct therapeutic effect. |
| C12-13 Pareth-3 Surfactant/emulsifier | C12-13 Pareth-3 is an ethoxylated fatty alcohol (a polyethylene glycol ether derived from C12-13 alcohols) used in cosmetic formulations as a nonionic surfactant, emulsifier, and solubilizer. It helps blend oil and water phases and disperse poorly soluble ingredients. |
| Polyacrylamide Thickener/film-former | Polyacrylamide is a synthetic polymer used in cosmetics primarily as a thickening agent, film former, and stabilizer that improves texture and viscosity of formulations. It is considered a base/formulation ingredient rather than a treatment active. |
| C13-14 Isoparaffin Emollient/thickener | C13-14 Isoparaffin is a synthetic hydrocarbon used in skincare primarily as an emollient and as a thickening or gelling agent, often paired with polyacrylamide-based systems to stabilize emulsions. It helps improve spreadability and texture but provides no active treatment benefit. |
| Laureth-7 Emulsifier/surfactant | Laureth-7 is a polyethylene glycol ether of lauryl alcohol used in cosmetics as a nonionic surfactant, emulsifier, and solubilizer to stabilize formulations and disperse oils. It functions as a formulation aid rather than a therapeutic active. |
| Sodium Polyacryloyldimethyl Taurate Emulsifier / thickener | Sodium Polyacryloyldimethyl Taurate is a synthetic acrylate-based polymer used as a thickening, stabilizing, and emulsifying agent in cosmetic formulations. It helps create smooth, gel-like textures and stabilizes oil-in-water emulsions. |
| Hydrogenated Polydecene Emollient / skin-conditioning agent | Hydrogenated Polydecene is a synthetic hydrocarbon emollient derived from hydrogenated polydecene oligomers, used to provide a lightweight, non-greasy occlusive film that softens skin and improves spreadability in cosmetic formulations. It serves as a base or texture-enhancing ingredient rather than a biologically active treatment. |
| Trideceth-10 Surfactant/emulsifier | Trideceth-10 is a polyethylene glycol ether of tridecyl alcohol used as a nonionic surfactant, emulsifier, and solubilizer in cosmetic formulations. It helps blend oil and water phases and stabilize emulsions rather than providing a direct skin treatment effect. |
| Dimethylsilanol Hyaluronate Key active Humectant / hydrating active | Dimethylsilanol Hyaluronate is a silanol-modified form of hyaluronic acid that combines moisture-binding properties of hyaluronic acid with organic silicon, used to hydrate skin and support a smoother, more supple appearance. It is reported to penetrate more readily than standard high-molecular-weight hyaluronic acid. |
| Silanetriol Key active Silicon-based hydration/conditioning agent | Silanetriol is an organic silicon compound used in skincare as a humectant and skin-conditioning agent, often included to support hydration and as a carrier for silicon delivery in anti-aging formulations. It is generally considered well tolerated at typical cosmetic concentrations. |
| Hyaluronic Acid Key active Humectant / hydrating agent | Hyaluronic acid is a glycosaminoglycan that attracts and binds water to the skin, helping to maintain hydration and improve the appearance of plumpness and smoothness. It is widely used in moisturizers and serums and is generally well tolerated across skin types. |
| Caprylyl Methicone Emollient / spreading agent | Caprylyl Methicone is a volatile silicone fluid used in cosmetic formulations to provide a light, non-greasy, smooth skin feel and to enhance the spreadability of products. It also acts as a solvent and carrier for other ingredients, particularly in sunscreens and color cosmetics. |
| PEG-12 Dimethicone/PPG-20 Crosspolymer Silicone emulsifier/conditioning agent | PEG-12 Dimethicone/PPG-20 Crosspolymer is a silicone-based crosspolymer used in cosmetic formulations primarily as an emulsifier, emollient, and skin-conditioning agent. It helps stabilize emulsions and impart a smooth, silky feel to products. |
| Methylsilanol Mannuronate Key active Hydrating/conditioning agent | Methylsilanol Mannuronate is an organosilicon compound combining silanol with mannuronic acid (derived from algae), used in skincare for its humectant and skin-conditioning properties. It is marketed to support hydration and skin firmness, though robust clinical evidence is limited. |
| Acrylates/C10-30 Alkyl Acrylate Crosspolymer Rheology modifier / emulsion stabilizer | Acrylates/C10-30 Alkyl Acrylate Crosspolymer is a synthetic crosslinked acrylic polymer used to thicken, gel, and stabilize emulsions in skincare and cosmetic formulations. It helps suspend ingredients and provides a smooth, consistent texture without acting as a treatment active. |
| Saccharide Isomerate Humectant / moisturizer | Saccharide Isomerate is a plant-derived carbohydrate complex that binds to the skin's keratin to provide long-lasting hydration and improve moisture retention. It is structurally similar to carbohydrates naturally found in the skin's upper layers. |
| Citric Acid pH adjuster / AHA exfoliant | Citric acid is an alpha-hydroxy acid derived from citrus fruits, used primarily to adjust and buffer formulation pH and as a chelating agent, and at higher concentrations as a mild chemical exfoliant. It can promote surface cell turnover and is sometimes included in antioxidant or brightening products. |
| Sodium Citrate pH adjuster / chelating agent | Sodium citrate is the sodium salt of citric acid used in skincare primarily as a buffering agent to stabilize formulation pH and as a chelator that binds metal ions to improve product stability. It is a base/formulation ingredient rather than a therapeutic active. |
| Laminaria Digitata Extract Conditioning/antioxidant | Laminaria Digitata Extract is derived from brown seaweed and is used in skincare for its mineral, polysaccharide, and antioxidant content, providing skin-conditioning, hydrating, and soothing benefits. It is commonly included for its purported moisturizing and protective properties. |
| Hydrogenated Lecithin Emollient / Emulsifier | Hydrogenated lecithin is a phospholipid derived from lecithin through hydrogenation, used in skincare as an emulsifier, emollient, and skin-conditioning agent. It also helps stabilize formulations and form liposomes that can aid delivery of other ingredients. |
| Cetyl-PG Hydroxyethyl Palmitamide Skin-conditioning emollient / pseudo-ceramide | Cetyl-PG Hydroxyethyl Palmitamide is a synthetic pseudo-ceramide used to mimic natural skin ceramides, helping to support the skin barrier and reduce transepidermal water loss. It functions as an emollient and moisturizing agent commonly found in barrier-repair and dry-skin formulations. |
| Ceramide 1 Skin barrier lipid / moisturizer | Ceramide 1 (Ceramide EOP) is a naturally occurring epidermal lipid used in skincare to help restore and reinforce the skin's barrier and reduce transepidermal water loss. It is commonly combined with other ceramides, cholesterol, and fatty acids to mimic the skin's natural lipid matrix. |
| Ceramide 2 Skin-barrier lipid / moisturizer | Ceramide 2 (Ceramide NS) is a naturally occurring sphingolipid used in skincare to help restore and reinforce the skin's lipid barrier, reducing transepidermal water loss and improving hydration. It is generally well tolerated and biocompatible with the skin's own ceramides. |
| Ceramide 3 Skin barrier replenisher / emollient | Ceramide 3 (also called Ceramide NP) is a lipid naturally found in the skin's stratum corneum that helps restore and maintain the skin barrier and reduce transepidermal water loss. It is widely used in moisturizers and barrier-repair formulations to improve hydration and skin integrity. |
| Ceramide 4 Skin-barrier lipid / emollient | Ceramide 4 (Ceramide AP) is a naturally occurring skin lipid used in formulations to help restore and reinforce the skin barrier and reduce transepidermal water loss. It supports the stratum corneum's lipid matrix, improving hydration and skin resilience. |
| Ceramide 6 II Skin-barrier lipid / emollient | Ceramide 6 II (a phytosphingosine-based ceramide, also known as ceramide AP) is a naturally occurring skin lipid used in skincare to help restore and reinforce the stratum corneum barrier and reduce transepidermal water loss. It is typically incorporated as part of physiological lipid blends to support hydration and skin barrier function. |
| Cholesterol Skin barrier lipid / emollient | Cholesterol is a naturally occurring lipid found in the skin's stratum corneum that, alongside ceramides and fatty acids, helps maintain the skin barrier and prevent transepidermal water loss. In skincare formulations it functions as an emollient and barrier-repair agent that improves hydration and skin resilience. |
| 1,2-Hexanediol Humectant / preservative booster | 1,2-Hexanediol is a synthetic diol used in skincare as a humectant and solvent that also enhances the antimicrobial efficacy of formulations, often allowing reduced or preservative-free systems. It helps maintain product stability while contributing mild moisturizing properties. |
| Disodium EDTA Chelating agent | Disodium EDTA is a chelating agent used in cosmetics to bind metal ions, improving product stability, preventing rancidity, and enhancing the efficacy of preservatives. It is a formulation/base ingredient rather than a treatment active. |
| Trehalose Humectant / moisturizer | Trehalose is a naturally occurring disaccharide used in skincare as a humectant and protective agent, helping retain moisture and stabilize cell membranes and proteins against dehydration and oxidative stress. It is well tolerated and commonly used to support skin barrier hydration. |
| Urea Key active Humectant / keratolytic | Urea is a naturally occurring component of the skin's natural moisturizing factor that hydrates by attracting and retaining water; at higher concentrations it also softens and exfoliates thickened or scaly skin. It is widely used to treat dry skin conditions such as xerosis, ichthyosis, and hyperkeratosis. |
| Serine Humectant / amino acid | Serine is a naturally occurring amino acid and component of the skin's natural moisturizing factor (NMF), used in skincare to support hydration and help maintain the skin barrier. It is typically incorporated as a conditioning and water-binding agent rather than a clinical treatment active. |
| Pentylene Glycol Humectant / solvent / preservative-booster | Pentylene glycol is a glycol used in cosmetics as a humectant and solvent that also enhances the antimicrobial efficacy of formulations, helping reduce reliance on traditional preservatives. It improves skin hydration and aids the delivery and stability of other ingredients. |
| Glyceryl Polyacrylate Hydrating film-former / thickener | Glyceryl Polyacrylate is a cross-linked polymer of acrylic acid and glycerin used in skincare to form a moisturizing film on the skin and to thicken or stabilize gel-based formulations. It functions primarily as a humectant and texture enhancer rather than as a treatment active. |
Key active = does the main work. Ingredient explanations are drawn from public databases & literature.
Peer-reviewed papers on the active ingredients in this product, via PubMed.