Below is every ingredient in Barrier Repair Hydrating Shower Gel for Dry Skin 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.
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.
Oryza Sativa (rice) Extract is derived from rice and used in skincare for its antioxidant, soothing, and brightening properties, often attributed to ferulic acid, vitamin E, and gamma-oryzanol content. It is commonly included to support skin hydration and protect against environmental oxidative stress.
Lactobacillus refers to a genus of lactic acid bacteria used in skincare as live cultures, ferment filtrates, or lysates to support the skin microbiome, barrier function, and provide soothing or antimicrobial effects. It is often included for its purported balancing and conditioning properties.
Octenidine HCl is a cationic surfactant antiseptic effective against bacteria, fungi, and some viruses, used in skin and wound disinfection and as a preservative in topical formulations. It binds to negatively charged microbial cell membranes, disrupting their integrity.
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 | Uncommon | Transient stinging or redness, more likely with high concentrations or compromised skin barrier. |
| Dryness or tightness | Uncommon | Possible with rinse-off cleansers due to surfactant action stripping surface lipids. |
| Eye irritation | Uncommon | Stinging on accidental eye contact, typical of surfactants. |
| Allergic contact dermatitis | Rare | Sensitization is infrequently reported; patch testing can confirm. |
| Mild transient skin dryness or tightness | Uncommon | More likely with high concentrations or frequent use in those with already dry or compromised skin. |
| Skin or eye irritation | Rare | Generally considered low-irritation; mild stinging possible on contact with eyes during cleansing. |
| Skin irritation | Common | Can cause dryness, tightness, or mild irritation, especially with frequent use or in higher concentrations. |
| Disruption of skin barrier | Uncommon | Repeated exposure can strip natural lipids and impair the skin's protective barrier in sensitive individuals. |
| Cross-reactivity with related surfactants | Rare | Patch-test reactions may overlap with chemically related amphoteric or amine-containing surfactants. |
| Contact allergy/sensitization | Very rare | Allergic contact dermatitis is uncommon for acrylate polymers, though residual monomers can theoretically sensitize. |
| Dryness or transient redness | Rare | More likely in compromised or very sensitive skin with frequent use. |
| Skin irritation (irritant contact dermatitis) | Common | Redness, stinging, or burning, especially on sensitive or compromised skin. |
| Contact sensitization | Uncommon | Repeated exposure can lead to development of new allergies over time. |
| Photosensitivity/photoallergic reaction | Rare | Certain fragrance components (e.g., some citrus oils) may cause reactions when skin is exposed to sunlight. |
| Pigmentation changes | Rare | Post-inflammatory hyperpigmentation may follow reactions, particularly in darker skin tones. |
| Systemic allergic or respiratory reactions | Very rare | Rarely, sensitive individuals may report headaches or respiratory symptoms from volatile components. |
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. |
| Potassium Laureth Phosphate Surfactant/Emulsifier | Potassium Laureth Phosphate is an anionic surfactant and emulsifier used in cleansers and emulsions to help blend oil and water and provide mild cleansing. It functions as a formulation/base ingredient rather than a treatment active. |
| Sodium Cocoyl Glycinate Mild surfactant/cleansing agent | Sodium Cocoyl Glycinate is a gentle amino acid-derived (glycine and coconut fatty acid) anionic surfactant used in cleansers and shampoos to produce foam and remove dirt and oil. It is valued for its mildness and skin-friendly, near-neutral pH compared to harsher sulfate surfactants. |
| Sodium C14-16 Olefin Sulfonate Anionic surfactant/cleansing agent | Sodium C14-16 Olefin Sulfonate is a synthetic anionic surfactant used as a cleansing and foaming agent in shampoos, body washes, and facial cleansers. It produces a rich lather and helps remove oil and dirt by lowering surface tension. |
| Cocamidopropyl Betaine Surfactant / foaming cleanser | Cocamidopropyl Betaine is an amphoteric surfactant derived from coconut oil and dimethylaminopropylamine, used in cleansers, shampoos, and body washes to provide gentle foaming, viscosity, and to reduce the harshness of stronger anionic surfactants. It is widely regarded as mild but is a recognized contact allergen. |
| Polyacrylate-33 Film former/rheology modifier | Polyacrylate-33 is a synthetic acrylate-based polymer used in cosmetic formulations as a thickener, stabilizer, and film-forming agent. It helps adjust viscosity and improve texture and stability of emulsions and gels. |
| Disodium Cocoamphodiacetate Mild amphoteric surfactant / cleansing agent | Disodium Cocoamphodiacetate is a coconut-derived amphoteric surfactant used in cleansers, shampoos, and body washes to provide gentle cleansing, foam, and to reduce the irritation potential of harsher anionic surfactants. It is valued for mildness in baby and sensitive-skin formulations. |
| Fragrance Fragrance/masking agent | Fragrance refers to a blend of natural or synthetic aromatic compounds added to skincare products to impart a pleasant scent or mask the odor of other ingredients. It serves a sensory and formulation purpose rather than a therapeutic one. |
| 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. |
| 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. |
| 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 Skin barrier repair / moisturizing lipid | Ceramide 6 (Ceramide AP) is a naturally occurring lipid that helps restore and maintain the skin's barrier function and reduce transepidermal water loss. It is commonly included in moisturizers and barrier-repair formulations to improve hydration and skin integrity. |
| Oryza Sativa Extract Key active Antioxidant / skin conditioning | Oryza Sativa (rice) Extract is derived from rice and used in skincare for its antioxidant, soothing, and brightening properties, often attributed to ferulic acid, vitamin E, and gamma-oryzanol content. It is commonly included to support skin hydration and protect against environmental oxidative stress. |
| Lactobacillus Key active Probiotic/skin-conditioning | Lactobacillus refers to a genus of lactic acid bacteria used in skincare as live cultures, ferment filtrates, or lysates to support the skin microbiome, barrier function, and provide soothing or antimicrobial effects. It is often included for its purported balancing and conditioning properties. |
| Maltodextrin Carrier/film-forming agent | Maltodextrin is a polysaccharide derived from starch hydrolysis, used in skincare primarily as a carrier, bulking agent, film former, and stabilizer for active ingredients and powders. It also helps improve texture and can act as a mild thickening or emulsion-stabilizing aid. |
| Guar Hydroxypropyltrimonium Chloride Conditioning agent / cationic polymer | Guar Hydroxypropyltrimonium Chloride is a quaternized, cationic derivative of guar gum used in skincare and haircare as a conditioning, antistatic, and viscosity-modifying agent. It deposits on negatively charged skin and hair surfaces to improve softness, manageability, and texture. |
| PEG-7 Glyceryl Cocoate Emollient/surfactant | PEG-7 Glyceryl Cocoate is a polyethylene glycol derivative of glyceryl cocoate used as a mild nonionic surfactant, emollient, and emulsifier in cleansers and skincare formulations. It improves spreadability and helps solubilize oils while providing a gentle skin-conditioning effect. |
| 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. |
| Phenoxyethanol Preservative | Phenoxyethanol is a widely used broad-spectrum preservative that protects cosmetic and skincare formulations from bacterial and fungal contamination. It is typically used at concentrations up to 1% and serves as a formulation/base ingredient rather than an active treatment. |
| Ethylhexylglycerin Preservative booster / skin-conditioning agent | Ethylhexylglycerin is a multifunctional glyceryl ether used in cosmetics primarily as a preservative-enhancing agent and emollient, often paired with phenoxyethanol to broaden antimicrobial efficacy. It also acts as a deodorizing agent and humectant in skincare formulations. |
| Octenidine HCl Key active Antiseptic/antimicrobial | Octenidine HCl is a cationic surfactant antiseptic effective against bacteria, fungi, and some viruses, used in skin and wound disinfection and as a preservative in topical formulations. It binds to negatively charged microbial cell membranes, disrupting their integrity. |
| 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. |
| 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. |
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.