Below is every ingredient in Exfoliating Coffee Body Scrub - 75g 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.
Coffea Arabica Seed Powder is finely ground coffee seed used in cosmetics primarily as a physical exfoliant and as a source of antioxidant polyphenols and caffeine. It is found in scrubs, masks, and body care products to provide mechanical exfoliation and reputed antioxidant benefits.
Paullinia Cupana (guarana) fruit extract is derived from the seeds of the guarana plant and is rich in caffeine, tannins, and polyphenols. In cosmetics it is used for its antioxidant, vasoconstrictive, and skin-conditioning properties, often in eye, anti-cellulite, and energizing formulations.
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 stinging or tingling on application | Common | Transient, more likely on broken or sensitive skin or at higher concentrations |
| Skin irritation, redness, or dryness | Uncommon | Associated with higher concentrations, low pH, or frequent use |
| Increased photosensitivity | Uncommon | AHAs can heighten UV sensitivity; sunscreen use is advised |
| Allergic or irritant contact dermatitis | Rare | Reported in sensitized individuals |
| Chemical burn or blistering | Very rare | Linked to misuse of high-concentration or very low-pH preparations |
| Mechanical irritation or micro-abrasion | Common | Coarse particles can cause friction and skin irritation, especially on sensitive or thin skin. |
| Erythema (redness) | Uncommon | Transient redness following vigorous physical exfoliation. |
| Allergic contact dermatitis | Rare | Sensitization to coffee constituents or accompanying formulation components has been occasionally reported. |
| Folliculitis or comedone formation | Rare | Residue or occlusive bases combined with abrasion may aggravate follicular irritation in some users. |
| Mild skin irritation | Rare | Possible at higher concentrations, usually transient. |
| Enhanced penetration of other ingredients | Uncommon | By disrupting skin barrier it may slightly increase absorption of co-applied substances. |
| Skin dryness | Uncommon | Its absorbent properties may reduce surface oils with frequent use. |
| Mild irritation or abrasion | Rare | Possible with coarse particles or aggressive scrubbing. |
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. |
| 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. |
| Coffea Arabica Seed Powder Key active Exfoliant/Antioxidant | Coffea Arabica Seed Powder is finely ground coffee seed used in cosmetics primarily as a physical exfoliant and as a source of antioxidant polyphenols and caffeine. It is found in scrubs, masks, and body care products to provide mechanical exfoliation and reputed antioxidant benefits. |
| 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. |
| Hydrated Silica Abrasive/absorbent | Hydrated silica is a porous form of silicon dioxide used in skincare and toothpaste as a mild abrasive, absorbent, and viscosity-controlling agent. It helps with gentle exfoliation, oil absorption, and texture improvement in formulations. |
| Parfum Fragrance | Parfum (fragrance) is a blend of aromatic compounds added to cosmetic products to impart a pleasant scent or mask the base odor of other ingredients. It serves a sensory/formulation purpose rather than providing any skin benefit. |
| Paullinia Cupana Fruit Extract Key active Antioxidant / stimulating extract | Paullinia Cupana (guarana) fruit extract is derived from the seeds of the guarana plant and is rich in caffeine, tannins, and polyphenols. In cosmetics it is used for its antioxidant, vasoconstrictive, and skin-conditioning properties, often in eye, anti-cellulite, and energizing formulations. |
| Sodium Benzoate Preservative | Sodium benzoate is a salt of benzoic acid used as a preservative in cosmetic and skincare formulations to inhibit the growth of bacteria, yeast, and fungi, particularly in acidic products. It is most effective at a pH below 5. |
| Xanthan Gum Thickener/stabilizer | Xanthan gum is a polysaccharide produced by bacterial fermentation, used in skincare as a thickening, gelling, and emulsion-stabilizing agent. It improves product texture and suspension of ingredients without contributing active treatment effects. |
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.