Below is every ingredient in Tea Tree Anti-acne Body Wash with Plant Salicylic Acid 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.
Tea tree oil is an essential oil derived from the leaves of Melaleuca alternifolia, valued in skincare for its antibacterial, antifungal, and anti-inflammatory properties, commonly used to target acne and minor skin infections. Its primary active component is terpinen-4-ol.
Salicylic acid is a lipid-soluble beta-hydroxy acid that exfoliates the skin surface and penetrates sebaceous pores to loosen and dissolve keratin and debris. It is widely used to treat acne, blackheads, and conditions involving thickened or scaly skin.
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. |
| Skin dryness or tightness | Common | Soap-based surfactants derived from it can strip natural oils, especially with frequent use. |
| Skin irritation | Uncommon | May cause mild irritation in sensitive individuals or at higher concentrations. |
| Comedogenicity (pore clogging) | Uncommon | Considered moderately comedogenic; may contribute to breakouts in acne-prone skin. |
| Allergic contact dermatitis | Rare | Sensitization is infrequent but has been reported. |
| Sticky or tacky skin feel | Common | Cosmetic sensation at higher concentrations, not a health concern. |
| Mild transient stinging or irritation | Uncommon | More likely on broken or compromised skin or with high concentrations. |
| Skin dryness or moisture-wicking in very low humidity | Uncommon | Can theoretically draw water from skin in extremely dry environments if not paired with occlusives. |
| Dryness or tightness | Common | Can disrupt the skin barrier and strip natural oils with frequent use. |
| Chemical burns | Rare | Occurs primarily with concentrated raw material or improper formulation, not in finished consumer products. |
| Eye irritation or injury | Uncommon | Risk with accidental contact, particularly with cleansers near the eye area. |
| Comedogenicity (pore-clogging, potential acne aggravation) | Common | Rated highly comedogenic; may worsen acne in some individuals when used in leave-on products. |
| Skin irritation or dryness | Uncommon | Particularly in high-foaming cleanser formulations or on sensitive skin. |
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. |
| Myristic Acid Surfactant/cleansing agent | Myristic acid is a saturated fatty acid commonly used in skincare as a cleansing and emulsifying agent, often reacted with alkalis to form soap-based surfactants. It contributes to foaming and texture in cleansers and other formulations. |
| Glycerine Humectant | Glycerine (glycerol) is a humectant that draws water into the stratum corneum and helps maintain skin hydration and barrier function. It is widely used as a base/formulation ingredient in moisturizers, cleansers, and serums. |
| Potassium Hydroxide pH adjuster / saponifying agent | Potassium hydroxide is a strong alkaline compound used in cosmetics to adjust pH and to saponify fatty acids in the production of liquid soaps and cleansers. At regulated low concentrations in finished products it is considered safe, functioning as a formulation aid rather than an active treatment. |
| Lauric Acid Cleansing/surfactant & emollient fatty acid | Lauric acid is a medium-chain saturated fatty acid commonly derived from coconut or palm kernel oil, used in skincare as a cleansing agent, emulsifier, and emollient. It also has documented antimicrobial activity, particularly against Cutibacterium acnes. |
| Cocamide Surfactant/foam booster | Cocamide is a fatty acid amide derived from coconut oil, used in cleansers and shampoos as a surfactant, foam stabilizer, and viscosity-increasing agent. It helps create lather and improves the texture of rinse-off and wash products. |
| Diethanolamine pH adjuster / emulsifier | Diethanolamine (DEA) is an alkaline organic compound used in cosmetics primarily as a pH-balancing agent and emulsifier, and to form surfactant derivatives that improve foaming and texture. It is a formulation aid rather than a therapeutic active. |
| 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. |
| Lauramine Oxide Surfactant / cleansing agent | Lauramine oxide is an amphoteric surfactant used in cleansers and rinse-off products as a foam booster, cleansing agent, and viscosity modifier. It helps generate stable lather and improve mildness in surfactant blends. |
| Melaleuca Alternifolia (Tea Tree) Leaf Oil Key active Antimicrobial/antiseptic | Tea tree oil is an essential oil derived from the leaves of Melaleuca alternifolia, valued in skincare for its antibacterial, antifungal, and anti-inflammatory properties, commonly used to target acne and minor skin infections. Its primary active component is terpinen-4-ol. |
| Salicylic Acid Key active Beta-hydroxy acid (BHA) exfoliant / keratolytic | Salicylic acid is a lipid-soluble beta-hydroxy acid that exfoliates the skin surface and penetrates sebaceous pores to loosen and dissolve keratin and debris. It is widely used to treat acne, blackheads, and conditions involving thickened or scaly skin. |
| Tetrasodium EDTA Chelating agent | Tetrasodium EDTA is a chelating agent used in skincare formulations to bind metal ions, improving product stability, preserving efficacy, and enhancing the performance of preservatives and surfactants. It is a formulation aid rather than a therapeutic active. |
| Hydroxypropyl Methylcellulose Thickener/film-former | Hydroxypropyl Methylcellulose (HPMC) is a semi-synthetic cellulose derivative used in skincare and cosmetics as a thickening agent, emulsion stabilizer, film former, and binder. It is generally considered safe, non-toxic, and non-irritating in topical formulations. |
| Butylated Hydroxytoluene Antioxidant/preservative | Butylated Hydroxytoluene (BHT) is a synthetic antioxidant used in cosmetic formulations to prevent oxidation and rancidity of oils and fats, helping maintain product stability and shelf life. It functions as a stabilizer rather than a therapeutic active. |
| Sodium Chloride Thickener / viscosity adjuster | Sodium chloride (table salt) is commonly used in cosmetics as a thickening and viscosity-control agent, particularly in surfactant-based cleansers, and also acts as a mild abrasive in scrubs. It is generally well tolerated and considered a formulation ingredient rather than a treatment active. |
| Imidazolidinyl Urea Preservative | Imidazolidinyl urea is a synthetic antimicrobial preservative used in cosmetics and personal care products to prevent bacterial and fungal growth. It functions as a formaldehyde-releasing agent, gradually liberating small amounts of formaldehyde to provide preservation. |
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.