Clinique Foaming Face Cleanser - Gentle Hydration with Hyaluronic Acid & Glycerin - 5 fl. oz.
Potassium Hydroxide
High RiskPotassium hydroxide is a caustic inorganic base commonly used in various products for its ability to adjust pH levels and act as a cleaning agent. It is highly soluble in water and can produce heat upon dissolution, making it effective in certain formulations.
Sustai Insights
Potassium hydroxide serves as a strong pH adjuster and cleaning agent, but it poses significant health risks due to its caustic nature, which can cause irritation to skin and eyes. Environmental concerns include its potential to contribute to water pollution. Regulatory bodies have imposed strict usage restrictions due to these hazards, leading to a high-risk overall assessment. Safe handling practices are essential, and alternatives such as citric acid may provide safer pH adjustment without the associated risks.
Phenoxyethanol
Medium RiskPhenoxyethanol is a preservative used in cosmetics and personal care products to prevent microbial growth and extend shelf life. It is commonly found in formulations such as lotions, creams, and serums.
Sustai Insights
Phenoxyethanol serves effectively as a preservative, ensuring product stability and safety by inhibiting microbial growth. It is considered to have low health risks regarding carcinogenicity, allergies, and reproductive toxicity. However, moderate use restrictions exist, and regulatory bodies have advised caution in specific applications. Environmental concerns include its potential as a pollutant, although it is not highly bioaccumulative. Overall, the ingredient presents a medium risk level, with safe usage practices recommended and alternative preservatives available for those seeking greener options.
Urea
Medium RiskUrea is a naturally occurring compound and a key component of the skin's natural moisturizing factor. It is commonly used in cosmetic and skincare products for its hydrating properties, helping to improve skin moisture content and texture.
Sustai Insights
Urea offers functional benefits as a humectant, enhancing skin hydration and improving product efficacy. It is considered biodegradable and may be sustainably sourced. However, potential health risks include skin irritation and moderate use restrictions due to enhanced skin absorption. Environmental risks are low, with no significant pollutant or bioaccumulation concerns identified. Regulatory bodies do advise caution in usage. Overall, the ingredient presents a medium risk level, highlighting the need for safe usage practices while considering alternatives such as glycerin or hyaluronic acid for hydration.
Glycerin
Medium RiskGlycerin (also called glycerol) is a naturally occurring compound commonly used in personal care and cosmetic products. It functions as a humectant, attracting moisture to the skin, and is also utilized as a solvent and emollient to enhance product texture and stability.
Sustai Insights
Glycerin is valued for its effective moisturizing properties and biodegradability, making it a widely accepted ingredient in formulations. It poses low health risks, including low concerns for carcinogenicity and allergies. However, moderate use restrictions exist due to regulatory guidelines. While glycerin does not significantly contribute to environmental pollution, its production process should be ethically sourced. Overall, glycerin holds a medium risk level, emphasizing the importance of safe usage practices and considering sustainable alternatives.
Stearic Acid
Low RiskStearic acid is a naturally occurring fatty acid commonly found in animal and vegetable fats. It functions primarily as an emulsifier, thickener, and stabilizer in cosmetic and personal care products, providing texture and consistency.
Sustai Insights
Stearic acid offers functional benefits such as effective emulsification and stabilization of formulations. It is derived from renewable sources and is biodegradable, contributing to its sustainability profile. Health risks are low, with minimal concerns regarding carcinogenicity, allergies, or reproductive toxicity. Environmental risks are also low, with no significant pollutants or bioaccumulation concerns noted. Regulatory bodies, including the FDA, do not impose restrictions on its use. Overall, stearic acid is assessed as low risk, and its safe usage practices are well-established, with no significant alternatives needed.
Sodium Methyl Cocoyl Taurate
Low RiskSodium methyl cocoyl taurate is a sodium salt derived from coconut fatty acids, primarily used as a mild surfactant and foaming agent in personal care products. It helps to cleanse and stabilize formulations, contributing to improved texture and performance.
Sustai Insights
Sodium methyl cocoyl taurate is recognized for its effective surfactant properties, providing gentle cleansing and foam production in formulations. It is considered low risk for health concerns such as carcinogenicity and allergenic potential, with minimal irritation noted. Environmentally, it poses low hazards with no significant bioaccumulation or pollution risks. Regulatory bodies, including ECHA, indicate no current restrictions. Overall, it presents a low risk profile, making it a viable choice in personal care applications. Safe usage practices are recommended, and alternatives may include other mild surfactants.
Lauric Acid
Low RiskLauric acid is a naturally occurring fatty acid commonly found in coconut oil and palm kernel oil. It is primarily used as an emollient, surfactant, and antimicrobial agent in various personal care and cosmetic products due to its potential to enhance product texture and stability.
Sustai Insights
Lauric acid offers functional benefits as an effective emollient and antimicrobial agent, contributing to skin hydration and product preservation. It is biodegradable and derived from renewable sources. Health risks are minimal, with low concerns for carcinogenicity, allergenicity, and reproductive toxicity. Environmental impacts are also low, with no significant pollutant or bioaccumulation potential. Regulatory assessments, including those from the FDA and cosmetic safety reviews, indicate its safe use in products. Overall, lauric acid is considered low risk, making it a viable ingredient in formulations.
Myristic Acid
Low RiskMyristic acid is an organic acid commonly used in cosmetic and personal care products as an emollient and surfactant. It helps to enhance texture and stability while providing moisturizing properties. Myristic acid is derived from natural sources, including coconut and palm oil.
Sustai Insights
Myristic acid serves as an effective emollient, enhancing product texture and moisture retention. It is generally regarded as safe with low concerns for carcinogenicity, allergies, and reproductive toxicity. However, environmental risks are minimal, and it is not considered bioaccumulative. Regulatory bodies, including the FDA, have not imposed significant restrictions on its use. Overall, the risk associated with myristic acid is low, making it a suitable ingredient for cosmetic formulations.
Sodium Pca
Low RiskSodium PCA is a derivative of naturally occurring amino acids and is primarily used in cosmetics for its moisturizing properties. It acts as a humectant, attracting and retaining moisture in the skin, thereby enhancing hydration and improving skin texture.
Sustai Insights
Sodium PCA offers functional benefits as an effective humectant, enhancing skin moisture levels. It is derived from natural sources, supporting sustainable practices. Health risks are low, with minimal concerns regarding carcinogenicity, allergies, or reproductive toxicity. Environmental risks are also low, as it is not known to be bioaccumulative or a significant pollutant. Regulatory bodies have not placed significant restrictions on its use. Overall, it presents a low risk profile, making it a suitable ingredient in cosmetic formulations. Alternatives may include other humectants like glycerin or hyaluronic acid.
Butylene Glycol
Low RiskButylene glycol (1,3-butanediol) is a small organic compound commonly used as a solvent, humectant, and skin-conditioning agent in cosmetic and personal care products. It facilitates the absorption of other ingredients and enhances the texture of formulations, contributing to product stability and efficacy.
Sustai Insights
Butylene glycol is valued for its role as a humectant and solvent, improving product texture and moisture retention. It has low concerns for carcinogenicity, allergenic potential, and developmental toxicity. However, moderate irritation risks to skin, eyes, or lungs exist. Environmentally, it is not considered bioaccumulative, and regulatory bodies, including the FDA, do not impose significant restrictions. Overall, the ingredient presents a low risk, with recommended safe usage practices and no widely recognized sustainable alternatives.
Trehalose
Low RiskTrehalose is a disaccharide composed of two glucose molecules. It occurs naturally in various organisms and is utilized in cosmetic formulations primarily for its moisturizing properties and ability to stabilize proteins and cellular structures.
Sustai Insights
Trehalose offers functional benefits as a humectant and stabilizer, promoting hydration and preserving product integrity. It is considered low risk concerning health impacts, with minimal concerns regarding carcinogenicity, allergies, or reproductive toxicity. Environmentally, it shows low pollutant potential and is biodegradable. Regulatory assessments indicate no significant restrictions. Safe usage practices should be followed, but alternatives are limited. Overall, trehalose presents a low risk profile.
Polyquaternium 51
Low RiskPolyquaternium-51 is a polymeric quaternary ammonium compound used primarily as a conditioning agent in cosmetic and personal care products. It enhances the texture and feel of formulations, providing moisturizing benefits and improving hair manageability.
Sustai Insights
Polyquaternium-51 offers functional benefits as a conditioning agent, promoting hair smoothness and moisture retention. It is considered low risk for health concerns such as carcinogenicity, allergies, and reproductive toxicity. Environmentally, it poses minimal risks, with no significant pollutant or bioaccumulation concerns. Regulatory status is favorable with no major restrictions. Safe usage practices include adhering to recommended concentrations in formulations. Overall, the ingredient is assessed as low risk, making it a viable option in cosmetic products.
Disodium Edta
Low RiskDisodium EDTA (ethylenediaminetetraacetic acid) is a chelating agent commonly used in cosmetics and personal care products to bind metal ions and enhance product stability. It helps prevent the deterioration of formulations by minimizing the effects of trace metals, thus improving the overall efficacy and shelf life of the product.
Sustai Insights
Disodium EDTA serves as an effective stabilizer and preservative in various formulations, aiding in the prevention of product degradation. It is considered to have low health risks, with minimal concerns regarding carcinogenicity, allergies, or reproductive toxicity. Environmentally, it is not classified as a significant pollutant or bioaccumulative substance. Regulatory bodies, including the FDA, have noted its safe use in specified concentrations. Overall, the ingredient is assessed to have a low risk profile, with no major health or environmental concerns, making it a reliable choice for product formulation.
Trisodium Edta
Low RiskTrisodium EDTA (ethylenediaminetetraacetic acid) is a chelating agent commonly used in cosmetic formulations to bind metal ions, preventing them from adversely affecting the stability and efficacy of products. It is often included in formulations to enhance product performance and shelf life.
Sustai Insights
Trisodium EDTA effectively stabilizes cosmetic products by preventing metal-induced degradation, contributing to their longevity. It is considered low-risk for health concerns such as cancer, allergies, and reproductive toxicity. Environmentally, it poses minimal risk, as it is not classified as a significant pollutant or bioaccumulative. Regulatory bodies have not imposed severe restrictions on its use. Overall, the ingredient is assessed as low risk, with safe usage practices recommended, and alternatives include natural chelating agents like citric acid.
Peg 3 Distearate
Low RiskPEG-3 distearate is a polyethylene glycol diester used primarily as an emulsifier and surfactant in cosmetic and personal care products. It aids in stabilizing formulations and improving texture by facilitating the blending of oil and water components.
Sustai Insights
PEG-3 distearate offers functional benefits as an effective emulsifier, enhancing product stability and texture. It poses low health risks, with negligible concerns regarding carcinogenicity, allergies, or reproductive toxicity. However, contamination during production is a noted concern. Environmentally, it is not significantly bioaccumulative or a pollutant. Regulatory status indicates no major restrictions, reflecting a low overall risk level. Safe usage practices should be followed, and alternatives include other emulsifiers like glyceryl stearate, which may offer similar benefits with potentially improved safety profiles.
Behenic Acid
Low RiskBehenic acid is a fatty acid primarily used in cosmetic formulations for its emollient and thickening properties. It is derived from natural sources, such as the seeds of the Moringa tree, and is commonly found in creams, lotions, and hair products.
Sustai Insights
Behenic acid offers functional benefits as an effective emollient that enhances product texture and moisture retention. It is considered low risk for health concerns, including carcinogenicity and allergens, with minimal reported irritation. Environmentally, it is not known to be a pollutant or bioaccumulative. Regulatory agencies, including Environment Canada, impose low restrictions on its use. Overall, it presents a low-risk profile, making it a suitable ingredient in personal care products. Alternatives such as other fatty acids or plant-based emollients may also be explored.
Caffeine
Low RiskCaffeine is a heterocyclic organic compound commonly found in coffee, tea, and various other plants. It acts as a central nervous system stimulant, temporarily warding off drowsiness and restoring alertness. In cosmetic applications, it is often included for its purported benefits in enhancing skin absorption and reducing the appearance of puffiness.
Sustai Insights
Caffeine offers functional benefits such as enhancing skin absorption and providing a stimulating effect. It is generally regarded as safe with low concerns regarding carcinogenicity, allergies, or developmental toxicity. Environmental risks include potential bioaccumulation, though overall it poses low risk based on current scientific consensus. Regulatory bodies have minimal restrictions, but care should be taken regarding enhanced skin absorption. Alternatives may include other stimulants or natural extracts with similar properties. Overall, caffeine is assessed as low risk.
Sodium Hyaluronate
Low RiskSodium hyaluronate is the sodium salt of hyaluronic acid, a naturally occurring polysaccharide in the body. It functions primarily as a humectant in cosmetic formulations, retaining moisture and enhancing skin hydration, contributing to the overall texture and appearance of products.
Sustai Insights
Sodium hyaluronate offers several functional benefits, including effective moisture retention and skin hydration. It is considered safe with low concerns regarding carcinogenicity, allergies, or reproductive toxicity. Environmentally, it is not classified as a pollutant or bioaccumulative. Regulatory bodies do not impose significant restrictions on its use. Overall, it is assessed as low risk, making it a favorable ingredient in cosmetic formulations.
Sucrose
Low RiskSucrose is a naturally occurring disaccharide, commonly known as table sugar. It is derived from various plants, primarily sugar cane and sugar beet, and serves as a sweetening agent in a variety of food and cosmetic products.
Sustai Insights
Sucrose is effective as a sweetener and humectant, providing moisture retention in formulations. It is biodegradable and generally recognized as safe, with low concerns regarding carcinogenicity, allergies, and reproductive toxicity. However, excessive consumption can lead to health issues like obesity and diabetes. Environmentally, sucrose poses minimal pollution risk and is not bioaccumulative. Regulatory bodies do not impose significant restrictions on its use. Overall, sucrose presents a low risk when utilized appropriately.
Palmitic Acid
Low RiskPalmitic acid is a naturally occurring fatty acid found in animals and plants. It is commonly used in cosmetic and food products as an emulsifier, thickener, and stabilizer, contributing to texture and consistency.
Sustai Insights
Palmitic acid effectively acts as an emulsifier and thickener, enhancing product texture. It is biodegradable and derived from renewable sources, supporting sustainability. Health risks are low, with no significant concerns regarding carcinogenicity, allergies, or reproductive toxicity. Environmentally, it poses minimal risks, with no known pollutant or bioaccumulative effects. Regulatory bodies, including the FDA, have not issued significant restrictions. Overall, the ingredient is assessed as low risk, making it a safe choice in formulations.
Stearic Acid
Low RiskStearic acid is a naturally occurring fatty acid commonly found in animal and vegetable fats. It functions primarily as an emulsifier, thickener, and stabilizer in cosmetic and personal care products, providing texture and consistency.
Sustai Insights
Stearic acid offers functional benefits such as effective emulsification and stabilization of formulations. It is derived from renewable sources and is biodegradable, contributing to its sustainability profile. Health risks are low, with minimal concerns regarding carcinogenicity, allergies, or reproductive toxicity. Environmental risks are also low, with no significant pollutants or bioaccumulation concerns noted. Regulatory bodies, including the FDA, do not impose restrictions on its use. Overall, stearic acid is assessed as low risk, and its safe usage practices are well-established, with no significant alternatives needed.
Sodium Methyl Cocoyl Taurate
Low RiskSodium methyl cocoyl taurate is a sodium salt derived from coconut fatty acids, primarily used as a mild surfactant and foaming agent in personal care products. It helps to cleanse and stabilize formulations, contributing to improved texture and performance.
Sustai Insights
Sodium methyl cocoyl taurate is recognized for its effective surfactant properties, providing gentle cleansing and foam production in formulations. It is considered low risk for health concerns such as carcinogenicity and allergenic potential, with minimal irritation noted. Environmentally, it poses low hazards with no significant bioaccumulation or pollution risks. Regulatory bodies, including ECHA, indicate no current restrictions. Overall, it presents a low risk profile, making it a viable choice in personal care applications. Safe usage practices are recommended, and alternatives may include other mild surfactants.
Lauric Acid
Low RiskLauric acid is a naturally occurring fatty acid commonly found in coconut oil and palm kernel oil. It is primarily used as an emollient, surfactant, and antimicrobial agent in various personal care and cosmetic products due to its potential to enhance product texture and stability.
Sustai Insights
Lauric acid offers functional benefits as an effective emollient and antimicrobial agent, contributing to skin hydration and product preservation. It is biodegradable and derived from renewable sources. Health risks are minimal, with low concerns for carcinogenicity, allergenicity, and reproductive toxicity. Environmental impacts are also low, with no significant pollutant or bioaccumulation potential. Regulatory assessments, including those from the FDA and cosmetic safety reviews, indicate its safe use in products. Overall, lauric acid is considered low risk, making it a viable ingredient in formulations.
Phenoxyethanol
Medium RiskPhenoxyethanol is a preservative used in cosmetics and personal care products to prevent microbial growth and extend shelf life. It is commonly found in formulations such as lotions, creams, and serums.
Sustai Insights
Phenoxyethanol serves effectively as a preservative, ensuring product stability and safety by inhibiting microbial growth. It is considered to have low health risks regarding carcinogenicity, allergies, and reproductive toxicity. However, moderate use restrictions exist, and regulatory bodies have advised caution in specific applications. Environmental concerns include its potential as a pollutant, although it is not highly bioaccumulative. Overall, the ingredient presents a medium risk level, with safe usage practices recommended and alternative preservatives available for those seeking greener options.
Myristic Acid
Low RiskMyristic acid is an organic acid commonly used in cosmetic and personal care products as an emollient and surfactant. It helps to enhance texture and stability while providing moisturizing properties. Myristic acid is derived from natural sources, including coconut and palm oil.
Sustai Insights
Myristic acid serves as an effective emollient, enhancing product texture and moisture retention. It is generally regarded as safe with low concerns for carcinogenicity, allergies, and reproductive toxicity. However, environmental risks are minimal, and it is not considered bioaccumulative. Regulatory bodies, including the FDA, have not imposed significant restrictions on its use. Overall, the risk associated with myristic acid is low, making it a suitable ingredient for cosmetic formulations.
Sodium Pca
Low RiskSodium PCA is a derivative of naturally occurring amino acids and is primarily used in cosmetics for its moisturizing properties. It acts as a humectant, attracting and retaining moisture in the skin, thereby enhancing hydration and improving skin texture.
Sustai Insights
Sodium PCA offers functional benefits as an effective humectant, enhancing skin moisture levels. It is derived from natural sources, supporting sustainable practices. Health risks are low, with minimal concerns regarding carcinogenicity, allergies, or reproductive toxicity. Environmental risks are also low, as it is not known to be bioaccumulative or a significant pollutant. Regulatory bodies have not placed significant restrictions on its use. Overall, it presents a low risk profile, making it a suitable ingredient in cosmetic formulations. Alternatives may include other humectants like glycerin or hyaluronic acid.
Potassium Hydroxide
High RiskPotassium hydroxide is a caustic inorganic base commonly used in various products for its ability to adjust pH levels and act as a cleaning agent. It is highly soluble in water and can produce heat upon dissolution, making it effective in certain formulations.
Sustai Insights
Potassium hydroxide serves as a strong pH adjuster and cleaning agent, but it poses significant health risks due to its caustic nature, which can cause irritation to skin and eyes. Environmental concerns include its potential to contribute to water pollution. Regulatory bodies have imposed strict usage restrictions due to these hazards, leading to a high-risk overall assessment. Safe handling practices are essential, and alternatives such as citric acid may provide safer pH adjustment without the associated risks.
Butylene Glycol
Low RiskButylene glycol (1,3-butanediol) is a small organic compound commonly used as a solvent, humectant, and skin-conditioning agent in cosmetic and personal care products. It facilitates the absorption of other ingredients and enhances the texture of formulations, contributing to product stability and efficacy.
Sustai Insights
Butylene glycol is valued for its role as a humectant and solvent, improving product texture and moisture retention. It has low concerns for carcinogenicity, allergenic potential, and developmental toxicity. However, moderate irritation risks to skin, eyes, or lungs exist. Environmentally, it is not considered bioaccumulative, and regulatory bodies, including the FDA, do not impose significant restrictions. Overall, the ingredient presents a low risk, with recommended safe usage practices and no widely recognized sustainable alternatives.
Trehalose
Low RiskTrehalose is a disaccharide composed of two glucose molecules. It occurs naturally in various organisms and is utilized in cosmetic formulations primarily for its moisturizing properties and ability to stabilize proteins and cellular structures.
Sustai Insights
Trehalose offers functional benefits as a humectant and stabilizer, promoting hydration and preserving product integrity. It is considered low risk concerning health impacts, with minimal concerns regarding carcinogenicity, allergies, or reproductive toxicity. Environmentally, it shows low pollutant potential and is biodegradable. Regulatory assessments indicate no significant restrictions. Safe usage practices should be followed, but alternatives are limited. Overall, trehalose presents a low risk profile.
Polyquaternium 51
Low RiskPolyquaternium-51 is a polymeric quaternary ammonium compound used primarily as a conditioning agent in cosmetic and personal care products. It enhances the texture and feel of formulations, providing moisturizing benefits and improving hair manageability.
Sustai Insights
Polyquaternium-51 offers functional benefits as a conditioning agent, promoting hair smoothness and moisture retention. It is considered low risk for health concerns such as carcinogenicity, allergies, and reproductive toxicity. Environmentally, it poses minimal risks, with no significant pollutant or bioaccumulation concerns. Regulatory status is favorable with no major restrictions. Safe usage practices include adhering to recommended concentrations in formulations. Overall, the ingredient is assessed as low risk, making it a viable option in cosmetic products.
Disodium Edta
Low RiskDisodium EDTA (ethylenediaminetetraacetic acid) is a chelating agent commonly used in cosmetics and personal care products to bind metal ions and enhance product stability. It helps prevent the deterioration of formulations by minimizing the effects of trace metals, thus improving the overall efficacy and shelf life of the product.
Sustai Insights
Disodium EDTA serves as an effective stabilizer and preservative in various formulations, aiding in the prevention of product degradation. It is considered to have low health risks, with minimal concerns regarding carcinogenicity, allergies, or reproductive toxicity. Environmentally, it is not classified as a significant pollutant or bioaccumulative substance. Regulatory bodies, including the FDA, have noted its safe use in specified concentrations. Overall, the ingredient is assessed to have a low risk profile, with no major health or environmental concerns, making it a reliable choice for product formulation.
Trisodium Edta
Low RiskTrisodium EDTA (ethylenediaminetetraacetic acid) is a chelating agent commonly used in cosmetic formulations to bind metal ions, preventing them from adversely affecting the stability and efficacy of products. It is often included in formulations to enhance product performance and shelf life.
Sustai Insights
Trisodium EDTA effectively stabilizes cosmetic products by preventing metal-induced degradation, contributing to their longevity. It is considered low-risk for health concerns such as cancer, allergies, and reproductive toxicity. Environmentally, it poses minimal risk, as it is not classified as a significant pollutant or bioaccumulative. Regulatory bodies have not imposed severe restrictions on its use. Overall, the ingredient is assessed as low risk, with safe usage practices recommended, and alternatives include natural chelating agents like citric acid.
Peg 3 Distearate
Low RiskPEG-3 distearate is a polyethylene glycol diester used primarily as an emulsifier and surfactant in cosmetic and personal care products. It aids in stabilizing formulations and improving texture by facilitating the blending of oil and water components.
Sustai Insights
PEG-3 distearate offers functional benefits as an effective emulsifier, enhancing product stability and texture. It poses low health risks, with negligible concerns regarding carcinogenicity, allergies, or reproductive toxicity. However, contamination during production is a noted concern. Environmentally, it is not significantly bioaccumulative or a pollutant. Regulatory status indicates no major restrictions, reflecting a low overall risk level. Safe usage practices should be followed, and alternatives include other emulsifiers like glyceryl stearate, which may offer similar benefits with potentially improved safety profiles.
Urea
Medium RiskUrea is a naturally occurring compound and a key component of the skin's natural moisturizing factor. It is commonly used in cosmetic and skincare products for its hydrating properties, helping to improve skin moisture content and texture.
Sustai Insights
Urea offers functional benefits as a humectant, enhancing skin hydration and improving product efficacy. It is considered biodegradable and may be sustainably sourced. However, potential health risks include skin irritation and moderate use restrictions due to enhanced skin absorption. Environmental risks are low, with no significant pollutant or bioaccumulation concerns identified. Regulatory bodies do advise caution in usage. Overall, the ingredient presents a medium risk level, highlighting the need for safe usage practices while considering alternatives such as glycerin or hyaluronic acid for hydration.
Behenic Acid
Low RiskBehenic acid is a fatty acid primarily used in cosmetic formulations for its emollient and thickening properties. It is derived from natural sources, such as the seeds of the Moringa tree, and is commonly found in creams, lotions, and hair products.
Sustai Insights
Behenic acid offers functional benefits as an effective emollient that enhances product texture and moisture retention. It is considered low risk for health concerns, including carcinogenicity and allergens, with minimal reported irritation. Environmentally, it is not known to be a pollutant or bioaccumulative. Regulatory agencies, including Environment Canada, impose low restrictions on its use. Overall, it presents a low-risk profile, making it a suitable ingredient in personal care products. Alternatives such as other fatty acids or plant-based emollients may also be explored.
Glycerin
Medium RiskGlycerin (also called glycerol) is a naturally occurring compound commonly used in personal care and cosmetic products. It functions as a humectant, attracting moisture to the skin, and is also utilized as a solvent and emollient to enhance product texture and stability.
Sustai Insights
Glycerin is valued for its effective moisturizing properties and biodegradability, making it a widely accepted ingredient in formulations. It poses low health risks, including low concerns for carcinogenicity and allergies. However, moderate use restrictions exist due to regulatory guidelines. While glycerin does not significantly contribute to environmental pollution, its production process should be ethically sourced. Overall, glycerin holds a medium risk level, emphasizing the importance of safe usage practices and considering sustainable alternatives.
Caffeine
Low RiskCaffeine is a heterocyclic organic compound commonly found in coffee, tea, and various other plants. It acts as a central nervous system stimulant, temporarily warding off drowsiness and restoring alertness. In cosmetic applications, it is often included for its purported benefits in enhancing skin absorption and reducing the appearance of puffiness.
Sustai Insights
Caffeine offers functional benefits such as enhancing skin absorption and providing a stimulating effect. It is generally regarded as safe with low concerns regarding carcinogenicity, allergies, or developmental toxicity. Environmental risks include potential bioaccumulation, though overall it poses low risk based on current scientific consensus. Regulatory bodies have minimal restrictions, but care should be taken regarding enhanced skin absorption. Alternatives may include other stimulants or natural extracts with similar properties. Overall, caffeine is assessed as low risk.
Sodium Hyaluronate
Low RiskSodium hyaluronate is the sodium salt of hyaluronic acid, a naturally occurring polysaccharide in the body. It functions primarily as a humectant in cosmetic formulations, retaining moisture and enhancing skin hydration, contributing to the overall texture and appearance of products.
Sustai Insights
Sodium hyaluronate offers several functional benefits, including effective moisture retention and skin hydration. It is considered safe with low concerns regarding carcinogenicity, allergies, or reproductive toxicity. Environmentally, it is not classified as a pollutant or bioaccumulative. Regulatory bodies do not impose significant restrictions on its use. Overall, it is assessed as low risk, making it a favorable ingredient in cosmetic formulations.
Sucrose
Low RiskSucrose is a naturally occurring disaccharide, commonly known as table sugar. It is derived from various plants, primarily sugar cane and sugar beet, and serves as a sweetening agent in a variety of food and cosmetic products.
Sustai Insights
Sucrose is effective as a sweetener and humectant, providing moisture retention in formulations. It is biodegradable and generally recognized as safe, with low concerns regarding carcinogenicity, allergies, and reproductive toxicity. However, excessive consumption can lead to health issues like obesity and diabetes. Environmentally, sucrose poses minimal pollution risk and is not bioaccumulative. Regulatory bodies do not impose significant restrictions on its use. Overall, sucrose presents a low risk when utilized appropriately.
Palmitic Acid
Low RiskPalmitic acid is a naturally occurring fatty acid found in animals and plants. It is commonly used in cosmetic and food products as an emulsifier, thickener, and stabilizer, contributing to texture and consistency.
Sustai Insights
Palmitic acid effectively acts as an emulsifier and thickener, enhancing product texture. It is biodegradable and derived from renewable sources, supporting sustainability. Health risks are low, with no significant concerns regarding carcinogenicity, allergies, or reproductive toxicity. Environmentally, it poses minimal risks, with no known pollutant or bioaccumulative effects. Regulatory bodies, including the FDA, have not issued significant restrictions. Overall, the ingredient is assessed as low risk, making it a safe choice in formulations.
Discover the Clinique All About Clean Foaming Face Soap, specially designed for very dry to dry combination skin. This creamy foaming cleanser effortlessly removes dirt, excess oil, and makeup while preserving your skin's natural moisture balance, thanks to its unique blend of hyaluronic acid and glycerin. Elevate your skincare routine with a product that combines dermatological expertise with gentle, effective cleansing.
- [Gentle Cleansing]: The soft, foaming formula cleanses without stripping, leaving skin feeling refreshed and soft.
- [Moisture Retention]: Infused with hyaluronic acid and glycerin, it conditions while cleansing, ensuring hydration.
- [Allergy Tested]: Clinique’s commitment to safety means this product is 100% fragrance-free and allergy tested, suitable for all skin types.
- [Dermatological Science]: Backed by clinical expertise, it’s designed for all skin tones and concerns, ensuring a safe and effective cleanse.
- [Eco-conscious Choice]: Clinique emphasizes sustainability, striving for products that respect both skin health and the environment.
Subscribe & Save with Sustai
- Best Price Guarantee: Always enjoy the lowest prices on sustainable home essentials.
- No Surprises: We’ll notify you before shipping. No hidden fees, ever.
- You’re in Charge: Change, pause, or cancel your subscription anytime with ease.
- Eco-Friendly Deliveries: Our grouped shipments mean less packaging and lower emissions.
Join us on a sustainable journey. Special offers for a limited time! Prices and promotions may change.
Recommended Products
Discover the Clinique All About Clean Foaming Face Soap, specially designed for very dry to dry combination skin. This creamy foaming cleanser effortlessly removes dirt, excess oil, and makeup while preserving your skin's natural moisture balance, thanks to its unique blend of hyaluronic acid and glycerin. Elevate your skincare routine with a product that combines dermatological expertise with gentle, effective cleansing.
- [Gentle Cleansing]: The soft, foaming formula cleanses without stripping, leaving skin feeling refreshed and soft.
- [Moisture Retention]: Infused with hyaluronic acid and glycerin, it conditions while cleansing, ensuring hydration.
- [Allergy Tested]: Clinique’s commitment to safety means this product is 100% fragrance-free and allergy tested, suitable for all skin types.
- [Dermatological Science]: Backed by clinical expertise, it’s designed for all skin tones and concerns, ensuring a safe and effective cleanse.
- [Eco-conscious Choice]: Clinique emphasizes sustainability, striving for products that respect both skin health and the environment.
You can have at most 2 Sustainable Steals products in your cart
Customer Reviews
Customers’ View
Customers generally appreciate the effectiveness and gentle nature of Clinique's All About Clean Foaming Face Soap. Many highlight its quality, noting that it cleans deeply without drying the skin, making it suitable for very dry and sensitive skin types. One user shared that it cleanses beautifully while leaving the skin feeling fresh and soft. Customers also value the product's creamy, foamy texture, which enhances the cleansing experience. Additionally, users find it cost-efficient, as a small amount produces a rich lather. While some have mixed feelings about the scent, the majority commend its ability to remove makeup effectively without irritation. Overall, this face cleanser aligns well with the preferences of environmentally and health-conscious consumers, providing a reliable skincare option for daily use.
AI-generated from the text of customer reviewsThis product has no reviews yet.