Category Archives: Skin Care

Everything you need to know about Aurist GHI

In the world of skincare, the search for effective and innovative ingredients is never-ending. One such ingredient that has gained significant attention in recent years is Aurist GHI. This powerful component has revolutionised skincare formulations, providing numerous benefits for the skin. In this blog post, we will delve into everything that you need to know about Aurist GHI, and explore why it has become a go-to ingredient for skincare products.

What is Aurist GHI?

INCI : Cyamopsis Tetragonoloba (Guar) Gum

AURIST GHI is a versatile and natural rheology modifier that offers exceptional sensory characteristics suitable for various applications. This innovative product is derived from the endosperm of the guar bean, a legume cultivated in India and Pakistan. Notably, the guar bean is renowned for its ability to withstand drought conditions, making it an environmentally-friendly choice.

During periods of drought stress, the outer layers of the guar bean’s endosperm experience water loss. However, the galactomannan cell walls, known for their thick nature, create a protective barrier that retains moisture in the inner regions. This unique property suggests that the guar bean’s mannans may also act as a hygroscopic buffer.

AURIST GHI’s distinctive thickening capabilities make it an ideal choice for a wide range of industries. When combined with xanthan gum, it forms strong associations, optimising viscosity and enhancing overall performance. Whether used in personal care, food, or other applications, AURIST GHI serves as a sustainable thickener, meeting the demands of formulations with eco-friendly claims.

Origin of Aurist GHI

AURIST GHI is a highly versatile thickener derived from the endosperm of the guar bean, a legume that possesses remarkable drought resistance characteristics. The guar bean’s ability to withstand arid conditions is crucial in regions where water scarcity poses a significant agricultural challenge. During periods of drought stress, the guar bean undergoes a fascinating physiological response.

As the drought intensifies, water loss occurs primarily in the outer layers of the guar bean’s endosperm. However, the galactomannan cell walls within the endosperm exhibit a unique structural property. They are thick and dense, acting as a barrier that prevents rapid water evaporation and maintains a relatively higher moisture level in the interior.

One intriguing consequence of this phenomenon is the creation of a microenvironment within the endosperm that remains comparatively moist for a certain period of time. This can be attributed to the hygroscopic nature of the galactomannan polysaccharides, known as mannans, present in the guar bean. Mannans have the ability to absorb and retain moisture, acting as a natural hygroscopic buffer.

The hygroscopic properties of AURIST GHI, derived from the guar bean’s endosperm, make it a truly unique thickener with a wide range of applications in various industries. Its ability to attract and hold moisture is highly valuable, especially in food and cosmetic formulations where maintaining moisture levels is critical for product stability and quality.

The effectiveness of AURIST GHI as a thickener lies in its capacity to absorb and retain water molecules. When incorporated into a product, it helps to enhance viscosity, improve texture, and stabilize emulsions. Furthermore, the hygroscopic nature of AURIST GHI allows it to act as a moisture regulator, preventing moisture loss or absorption from the surrounding environment. This characteristic makes it particularly useful in formulations where moisture control is essential, such as in personal care products, pharmaceuticals, and food applications.

Overall, the unique thickening properties of AURIST GHI, derived from the hygroscopic galactomannan cell walls of the guar bean, contribute to its widespread use across various industries. Its ability to serve as a hygroscopic buffer sets it apart from other conventional thickeners and establishes it as a valuable ingredient that helps maintain product integrity and performance in challenging conditions.

What are the typical characteristics of Aurist GHI?

  • Appearance: Aurist GHI is a fine powder with a color that can range from off-white to yellow. The powder has a smooth texture and is composed of small particles that are easily dispersible.
  • Viscosity: At a temperature of 25°C and a concentration of 1% in demineralized water, the viscosity of Aurist GHI is measured to be between 3000 and 4500 mPa*sec. This indicates that Aurist GHI has a moderate to high viscosity, meaning it has a relatively thick consistency and exhibits resistance to flow. The measurement is determined using a Brookfield RVT viscometer with a spindle speed of 20 rpm and Spindle 3.
  • Moisture: Aurist GHI contains a moisture content ranging from 4% to 15%. The moisture content refers to the amount of water present in the powder. This range indicates that Aurist GHI can contain a moderate level of moisture, which may affect its stability and shelf life. It is important to store and handle the powder in a controlled environment to prevent excessive moisture absorption or loss.
  • Bulk density: The bulk density of Aurist GHI is approximately 0.7 g/ml. Bulk density refers to the mass of a substance per unit volume when it is in a loose, powdered form. This measurement indicates that Aurist GHI is relatively light and can occupy a larger volume due to its low density. It should be noted that bulk density can vary depending on factors such as compaction, particle size, and handling methods.
  • pH: When Aurist GHI is dissolved in a 1% solution, the resulting pH falls within the range of 5.5 to 7.0. This indicates that the solution formed by Aurist GHI is slightly acidic to neutral. The pH range suggests that Aurist GHI is compatible with a wide range of pH environments and can be used in formulations with different acidity or alkalinity levels.
  • Total Viable Count: The maximum allowable total viable count in Aurist GHI is 100 colony-forming units (CFU) per gram. This measurement refers to the number of viable microorganisms, such as bacteria, that can be present in a given sample. The specified maximum count of 100 CFU/g indicates that Aurist GHI has undergone microbial testing to ensure its quality and safety. The low count signifies that Aurist GHI has a minimal level of microbial contamination, making it suitable for various applications where microbiological control is important.

These characteristics provide valuable information about the physical, chemical, and microbial properties of Aurist GHI, enabling users to understand its behaviour, handle it appropriately, and assess its suitability for specific applications.

What are the benefits of Aurist GHI?

  • Formulation at low pH: Aurist GHI is a versatile ingredient that offers a significant benefit in skincare formulations by being applicable for use in a wide range of pH levels, including low pH environments. This characteristic makes it particularly valuable in skincare leave-on formulas that contain acids such as Alpha Hydroxy Acids (AHA) serums.
  • Improved sensory: When Aurist GHI is combined with xanthan gum in skin care formulations, it further amplifies the sensory benefits. Xanthan gum is a natural ingredient commonly used as a thickening agent and stabilizer in cosmetic products. It helps improve the texture, consistency, and overall performance of the formulation.By combining Aurist GHI with xanthan gum, the resulting blend provides a synergistic effect. The low coefficient of friction from Aurist GHI and the thickening properties of xanthan gum create a formulation that not only feels smooth and luxurious on the skin but also improves the spreadability and ease of application. This can be particularly advantageous for leave-on products, such as moisturizers or serums, where the texture and sensory experience play a significant role.
  • Formulation with cationic components: Aurist GHI is a neutral charged gum, which means it lacks any positive or negative charge on its surface. This unique characteristic makes it highly advantageous in formulations that involve cationic components.Moreover, Aurist GHI is particularly well-suited for use in hair conditioner formulations. Hair conditioners often include cationic surfactants or conditioning agents that have an affinity for negatively charged hair strands. The neutral charge of Aurist GHI allows it to seamlessly blend with cationic conditioning agents, ensuring that they can effectively bind to the hair surface and provide the desired conditioning and moisturizing effects. Additionally, the neutral charge of Aurist GHI helps maintain the stability and consistency of the hair conditioner formulation.
  • Cold process rinse off: The benefit of Aurist GHI’s cold water solubility lies in its suitability for creating translucent conditioners through a cold mixing process. This feature offers advantages such as energy efficiency, process efficiency, visually appealing products, customization options, enhanced consumer experience, and marketing benefits.

Shelf life of Aurist GHI

Let’s break it down in detail the expected shelf life of Aurist GHI when stored under specific conditions:

  • Goods in the original packages: This refers to the Aurist GHI products that are still sealed in their original packaging. It implies that once the packaging is opened, the shelf life may be affected.
  • Temperature below 25°C: The recommended storage temperature for Aurist GHI is below 25 degrees Celsius. This means that the product should be stored in a cool environment, avoiding exposure to high temperatures that could potentially degrade the product.
  • Relative humidity less than 65%: The specified relative humidity level indicates that the product should be stored in an environment with relatively low moisture content. High humidity can lead to moisture absorption, which may affect the stability and quality of the product.
  • Retain stability for at least 12 months: The statement suggests that if the Aurist GHI products are stored in their original packaging at temperatures below 25°C and relative humidity below 65%, they are expected to remain stable and maintain their desired properties for a minimum of 12 months. This means that the product should remain effective, safe, and meet the quality standards during this period.

Disclaimer: It’s important to note that the provided information is specific to the Aurist GHI product and may not apply universally to other products or medications. Always refer to the product’s packaging or consult the manufacturer’s instructions for accurate storage guidelines and shelf life information.

Storage conditions for Aurist GHI

Aurist GHI is a product that is acceptably stable to air and heat, which means it can withstand certain levels of exposure to air and heat without significant degradation. However, it is still important to follow proper storage conditions to maintain its quality and effectiveness over time. Here are some detailed guidelines for storing Aurist GHI:

  • Temperature: Store Aurist GHI at room temperature, typically between 20°C to 25°C (68°F to 77°F). Avoid exposing it to extreme temperatures, such as direct sunlight, high heat sources, or freezing temperatures. Fluctuations in temperature can affect the stability and potency of the product.
  • Air Exposure: While Aurist GHI is relatively stable to air, it is advisable to minimise prolonged exposure to air to prevent any potential oxidation or moisture absorption. Close the container tightly after each use to maintain its integrity. If the product comes in a jar or bottle, ensure the lid is sealed properly to prevent unnecessary air exposure.
  • Moisture: Keep Aurist GHI away from excessive moisture or humidity. Moisture can cause the product to deteriorate, affect its consistency, or promote the growth of microorganisms. Avoid storing it in the bathroom or any area prone to high humidity levels.
  • Light: Protect Aurist GHI from direct sunlight or prolonged exposure to artificial light sources. Ultraviolet (UV) radiation can degrade the ingredients in the product and reduce its effectiveness. Keep it in a dark or opaque container, or store it in a drawer or cabinet away from light sources.
  • Packaging: If the product comes in its original packaging, it is generally recommended to store it in that packaging. The packaging is designed to provide adequate protection and maintain the stability of the product. However, if the original packaging is damaged or compromised, transfer the product to a suitable airtight container that provides proper protection.
  • Shelf Life: While Aurist GHI is stable under the recommended storage conditions, it is important to note its shelf life (read above). The product may have an expiration date or a recommended period of use after opening (PAO). Follow the manufacturer’s instructions regarding the shelf life and discard the product if it has passed the expiration date or PAO.

Please note: It is crucial to read and follow the specific storage instructions provided by the manufacturer or consult the product packaging for any additional recommendations or precautions. Proper storage conditions will help maintain the quality, efficacy, and longevity of Aurist GHI.

Suggested applications of Aurist GHI

Aurist GHI is a versatile ingredient with various applications in the categories of skin care, hair care, leave-on products, and rinse-off products.

Skin Care: Moisturizers, serums, creams, lotions, and anti-aging products.
Hair Care: Conditioners and hair masks.
Leave-On Products: Facial masks, sunscreens, and body lotions.
Rinse-Off Products: Cleansers, shampoos, and body washes.

The recommended use level of Aurist GHI ranges from 0.2% to 1%. It is important to note that the pH range of use for Aurist GHI is between 3 and 10, meaning it can be incorporated into formulations within this pH range for optimal effectiveness.

Please note: It is always advisable to consult the specific guidelines provided by the manufacturer (United Descaler) of Aurist GHI and conduct appropriate compatibility and stability tests when formulating products.

What are the compatibilties of Aurist GHI?

Aurist GHI is compatible with various water-soluble ingredients, such as polyols and alcohols, water-soluble polymers, surfactants (to be determined on a case-by-case basis), electrolytes, and ethanol up to a maximum of 10% solution. Let’s go into detail about the compatibility of Aurist GHI with each of these components:

Water-Soluble Ingredients (Polyols and Alcohols) are:

  1. Glycerin: Aurist GHI is compatible with glycerin, which is a commonly used humectant in skincare and cosmetic formulations. Glycerin helps to attract and retain moisture in the skin.
  2. Propylene glycol: Aurist GHI is compatible with propylene glycol, another widely used humectant with moisturizing properties. It helps to prevent products from drying out and enhances their texture.
  3. 13BG (Butylene Glycol): Aurist GHI is compatible with 13BG, which is a versatile ingredient that functions as a humectant, solvent, and viscosity enhancer. It improves the texture and spreadability of cosmetic formulations.
  4. 13PDO (Propanediol): Aurist GHI is compatible with 13PDO, which is a multifunctional ingredient that can act as a humectant, solvent, and antimicrobial agent. It helps to maintain the moisture balance in the skin.
  5. Pentylene glycol: Aurist GHI is compatible with pentylene glycol, which is a moisturizing and antimicrobial ingredient. It helps to improve the effectiveness and stability of cosmetic formulations.
  6. Ethoxydiglycol: Aurist GHI is compatible with ethoxydiglycol, a solvent that enhances the solubility of other ingredients in cosmetic formulations. It can also function as a humectant.

Water-Soluble Polymers:

  1. Carbomers: Aurist GHI is compatible with carbomers, which are high molecular weight polymers used as thickening agents in cosmetic formulations. Carbomers help to create gels and improve the consistency and stability of products.
  2. Acrylates/Alkylacrylate Crosspolymer: Aurist GHI is compatible with this type of crosslinked polymer, which is commonly used as a thickening agent and stabilizer in cosmetic formulations.
  3. Polyacrylamide: Aurist GHI is compatible with polyacrylamide, a polymer used for its thickening and film-forming properties in cosmetic products.
  4. Sodium Acrylate/Sodium Acryloyldimethyl Taurate Copolymer: Aurist GHI is compatible with this copolymer, which is used as a stabilizer, emulsion enhancer, and thickening agent in cosmetic formulations.
  5. Ammonium Acryloyldimethyltaurate/VP Copolymer: Aurist GHI is compatible with this copolymer, which functions as a thickening agent, emulsion stabilizer, and film-forming agent in cosmetic products.
  6. Sodium Polyacrylate: Aurist GHI is compatible with sodium polyacrylate, a high molecular weight polymer used as a thickener, emulsion stabilizer, and sequestering agent in cosmetic formulations.
  7. Surfactants: The compatibility of surfactants with Aurist GHI needs to be evaluated on a case-by-case basis. Surfactants can have complex interactions with other ingredients, and compatibility may depend on the specific formulation and desired product attributes. Testing and experimentation may be necessary to determine compatibility.
  8. Electrolytes: Aurist GHI is stable in the presence of electrolytes. Electrolytes are substances that dissociate into ions in water and can affect the stability and performance of cosmetic formulations. Aurist GHI is formulated to maintain stability even when electrolytes are present in the formulation.
  9. Ethanol: Aurist GHI can accommodate a maximum of 10% ethanol in solution. Ethanol is a common alcohol used as a solvent, preservative, and penetration enhancer in cosmetic and skincare products. However, it is important to note that exceeding the recommended concentration of ethanol can impact the stability and performance of the formulation.

In short, Aurist GHI exhibits compatibility with water-soluble ingredients such as polyols and alcohols, water-soluble polymers, and electrolytes. The compatibility with surfactants needs to be assessed on a case-by-case basis, while the maximum concentration of ethanol allowed is 10%. It’s important to consider specific formulation requirements, conduct compatibility tests, and ensure that the final product meets the desired stability, performance, and safety criteria.

In a quick glance…

Aurist GHI is a revolutionary skincare ingredient derived from the guar bean. Its unique properties make it an effective thickener and moisturizer in various applications. It can be used in low pH formulations, enhances sensory experience when combined with xanthan gum, and is compatible with cationic components. Aurist GHI also has a long shelf life when stored properly. It is suitable for skincare, hair care, leave-on, and rinse-off products. The ingredient is compatible with water-soluble ingredients and polymers. Its versatility and effectiveness make it a popular choice in the skincare industry.

The Ultimate Guide to Choosing the Safest Sunscreen for Pregnant Women, Lactating Mothers, and Kids

Sunscreen is an essential tool for protecting our skin from the damaging effects of the sun’s ultraviolet (UV) radiation. It acts as a barrier between our skin and the harmful rays, shielding us from sunburn, premature ageing, and even the risk of skin cancer. However, not all sunscreens are created equal, and certain groups, such as kids, pregnant women, and lactating mothers, require extra care when choosing a sunscreen that is safe and effective for their unique needs.

In this blog, we will explore the concept of sunscreen, its importance in safeguarding our skin, and why it is crucial for kids, pregnant women, and lactating mothers to be cautious when selecting the right sunscreen. We will delve into the characteristics of UVA and UVB rays, the different types of sunscreens available, and the key factors to consider when making a safe sunscreen choice.

We will also address the concerns surrounding chemical sunscreens and highlight the safer alternative of physical sunscreens, with a focus on zinc oxide. We will explore the reasons why zinc oxide is considered a safe alternative, including its photostability, skin compatibility, and minimal environmental impact.

Ultraviolet rays and its types:

Ultraviolet or UV radiation from the sun consists of two main types:

UVA (Ultraviolet A)

UVA rays have longer wavelengths and can penetrate deeper into the skin compared to UVB rays. They account for the majority of UV radiation that reaches the Earth’s surface.

Here are some key features of UVA rays:

1. DNA damage:

UVA radiation can directly damage the DNA in skin cells by causing alterations to the DNA structure. Specifically, it can induce the formation of DNA photoproducts, such as cyclobutane pyrimidine dimers (CPDs) and pyrimidine pyrimidone photoproducts. These DNA lesions can interfere with normal DNA replication and transcription processes and may lead to mutations or other genetic abnormalities.

2. Ageing effects:

UVA rays are the primary contributors to premature skin ageing. They can break down collagen and elastin fibres, leading to the development of wrinkles, fine lines, and sagging skin.

3. Skin damage:

UVA rays can cause long-term damage, such as the formation of dark spots, uneven skin tone, and the appearance of photoaging.

4. Skin cancer risk:

Although UVA rays majorly cause skin burning and tanning, it also causes cancer when being exposed for a longer period of time.

UVB (Ultraviolet B)

UVB rays have shorter wavelengths and primarily affect the outermost layer of the skin, known as the epidermis.

Here are some characteristics of UVB rays:

1. Intensity: UVB rays are more intense than UVA rays. They are the primary cause of sunburns and play a vital role in the development of skin cancer.

2. Seasonal variation: UVB rays are more prevalent during the summer months and in regions closer to the equator. They are less intense in winter and at higher latitudes.

3. Skin damage: UVB rays can directly damage the DNA in skin cells, leading to the development of sunburns, redness, and the potential for long-term skin damage.

4. Vitamin D synthesis: While excessive UVB exposure can be harmful, these rays also play a vital role in the production of vitamin D in the skin.

It’s important to note that both UVA and UVB rays contribute to skin damage, premature ageing, and skin cancer. Therefore, using broad-spectrum sunscreen that protects against both types of UV radiation is crucial for comprehensive sun protection.

Why do you need sunscreen?

1. Protection against sunburn: UVB rays are primarily responsible for causing sunburn. Sunscreen with a high sun protection factor (SPF) helps to block UVB rays and prevent sunburn.

2. Prevention of skin damage: UVA rays penetrate deeper into the skin and can cause long-term damage. Sunscreen with broad-spectrum protection shields your skin from both UVA and UVB rays, reducing the risk of premature ageing, wrinkles, dark spots, and other signs of sun damage.

3. Lower risk of skin cancer: Prolonged and unprotected exposure to UV radiation increases the risk of developing skin cancer, including melanoma, the most dangerous type. Regularly applying sunscreen helps minimise this risk by reducing UV radiation absorption.

Why do kids, pregnant women, and lactating mothers need to be extra careful when choosing a sunscreen?

For certain groups, such as kids, pregnant women, and lactating mothers, finding a safe and effective sunscreen can be a daunting task. With concerns about chemical ingredients and potential risks, it’s crucial to choose a sunscreen that provides optimal protection without compromising the well-being of these vulnerable individuals.

In this blog post, we will explore the key factors to consider when selecting the safest sunscreen for kids, pregnant women, and lactating mothers, and highlight some top product recommendations.

Importance of Sunscreen for Kids, Pregnant Women, and Lactating Mothers

A. Kids:
Children’s skin is more sensitive and delicate compared to adult skin, making it more susceptible to sunburn and long-term damage caused by UV radiation.

Here’s why sunscreen is important for kids:

  • Sunburn prevention: Sunscreens like Zinclear help prevent sunburn in children, which can be painful and increase the risk of skin damage later in life.
  • Reduced risk of skin cancer: Childhood sunburns can significantly increase the risk of skin cancer in adulthood. Regular sunscreen use can help minimise this risk.
  • Protection during outdoor activities: Kids often spend more time outdoors, participating in activities such as sports and play. Applying sunscreen helps shield their skin from harmful UV rays during these activities.
  • Establishing good sun protection habits: Encouraging kids to use sunscreen from an early age helps instill good sun protection habits that they can carry into adulthood.

B. Pregnant Women:
During pregnancy, a woman’s body undergoes hormonal changes that can make her skin more susceptible to the effects of UV radiation. Additionally, certain conditions, such as melasma (darkening of the skin) or increased skin sensitivity, may arise during pregnancy.

Here’s why sunscreen is important for pregnant women:

  • Protection against melasma: Melasma, also known as “pregnancy mask,” can cause dark patches on the face. Sunscreen helps prevent or minimise the exacerbation of melasma by shielding the skin from UV rays.
  • Sunburn prevention: Pregnancy can make the skin more sensitive, increasing the risk of sunburn. Sunscreen helps protect against sunburn, reducing discomfort and potential skin damage.
  • Minimising skin changes: Sunscreen can help minimise the impact of hormonal changes on the skin, such as increased pigmentation or skin sensitivity, by providing a protective barrier against UV rays.

C. Lactating Mothers:
Sun exposure can exacerbate skin sensitivity and aggravate conditions like melasma and chloasma that are common during postpartum. Usage of sunscreens like Zinclear is crucial to maintain skin health during this phase.

It is important for lactating mothers for the following reasons:

  • Preventing sunburn: Lactating mothers spend time outdoors, and sunburn can cause discomfort and affect their ability to care for their baby. Sunscreen helps prevent sunburn and allows mothers to stay protected while enjoying outdoor activities.
  • Protection against UV radiation: Exposure to UV radiation can lead to long-term skin damage, including premature ageing and an increased risk of skin cancer. By using sunscreen, lactating mothers can protect their skin from these harmful effects.
  • Setting a good example: Lactating mothers who use sunscreen like Zinclear set a good example for their children and promote sun protection as a healthy habit.

Key Considerations for Choosing Safe Sunscreen

1. Broad-Spectrum Protection: Look for sunscreens that provide broad-spectrum protection, meaning they shield against both UVA and UVB rays. UVA rays penetrate deep into the skin, causing premature ageing and increasing the risk of skin cancer. UVB rays are responsible for sunburns. The label should state “broad-spectrum” to ensure adequate protection.

2. SPF Rating: Sun Protection Factor (SPF) indicates the level of protection against UVB rays. For kids, pregnant women, and lactating mothers, a minimum SPF of 30 is recommended. However, higher SPF ratings offer increased protection.

3. Physical vs. Chemical Sunscreens: Physical sunscreens like Zinclear contain mineral ingredient zinc oxide, which form a protective barrier on the skin’s surface and reflect UV rays. Chemical sunscreens, on the other hand, absorb UV rays and convert them into heat. Physical sunscreens are generally considered safer as they don’t penetrate the skin.

4. Avoid Harmful Chemicals: Some chemical sunscreen ingredients, such as oxybenzone and octinoxate, have raised concerns about their potential hormone-disrupting effects. Look for sunscreens that are free from these chemicals, as well as parabens, phthalates, and artificial fragrances.

Zinc Oxide - A Safe Alternative to Chemical Sunscreens

Sun protection is of utmost importance for the well-being of young children, infants, pregnant women, and lactating mothers. Exposure to the sun without adequate protection can lead to increased risks of skin cancer later in life. Currently, the majority of sunscreens available in the market are chemical sunscreens that contain chemical UV filters.

However, recent studies have raised concerns about the absorption of these chemical UV filters into the skin and their subsequent circulation throughout the body. It has been found that these chemicals can be detected in urine, breast milk, and plasma up to 7 days after sunscreen use. What’s even more alarming is that the concentration of these chemicals in the plasma exceeds the safety threshold set by the U.S. Food and Drug Administration for toxicology testing by a staggering 40 times.

Numerous research studies have linked chemical UV filters to hormonal dysregulation and developmental impairments. This is especially concerning for children under 6 months of age, as their skin barrier function is still developing, and they have a larger surface area in proportion to their body weight, resulting in increased absorption of these chemicals. Additionally, children are more prone to contact dermatitis, allergies, and inflammation when exposed to chemical UV filters.

On the other hand, physical UV filters such as Zinc Oxide and Titanium Dioxide offer a safer alternative. Unlike chemical filters, physical filters do not penetrate the skin and are considered non-irritating, even for infant skin. While both Zinc Oxide and Titanium Dioxide provide broad-spectrum protection, Zinc Oxide offers superior UVA protection. UVA rays are known to penetrate deeply into the dermis and are associated with the initiation of skin cancer.

Furthermore, when Titanium Dioxide absorbs UV light, it generates more free radicals compared to Zinc Oxide, resulting in oxidative damage to the skin. These free radicals have been found to induce apoptosis in various types of cells, further emphasising the potential risks associated with using Titanium Dioxide-based sunscreens.

In short, it is crucial to choose sunscreens like Zinclear with physical UV filters, particularly Zinc Oxide, for young children, infants, pregnant women, and lactating mothers. By opting for these safer alternatives, you can provide effective sun protection without exposing your loved ones to the potential systemic concerns and skin irritations associated with chemical UV filters.

Why is zinc-oxide considered a safe alternative?

1. Broad-spectrum protection: Zinc oxide is effective at providing protection against both UVA and UVB rays. UVA rays penetrate deep into the skin, contributing to skin ageing and increasing the risk of skin cancer. UVB rays primarily affect the outer layer of the skin, causing sunburn and also contributing to the risk of skin cancer. Sunscreens like Zinclear, which is rich in Zinc oxide forms a physical barrier on the skin that reflects and scatters both UVA and UVB rays, preventing them from penetrating and damaging the skin.

2. Photostability: Zinc oxide is a photostable ingredient, meaning it does not break down or degrade when exposed to sunlight. This ensures that it remains effective over time and provides consistent protection throughout sun exposure. Some chemical sunscreens, on the other hand, can degrade under sunlight and become less effective over time.

3. Gentle on the skin: Zinc oxide is generally well-tolerated by most skin types, including sensitive skin. It is considered non-irritating and non-sensitizing, meaning it is less likely to cause allergic reactions or skin irritations. This makes it a suitable option for individuals with sensitive or reactive skin who may experience adverse reactions to certain chemical sunscreen ingredients.

4. Minimal absorption: When applied topically, zinc oxide particles sit on the surface of the skin and form a physical barrier. The particles are too large to be absorbed into the skin, reducing the risk of potential systemic effects. This is in contrast to some chemical sunscreen ingredients, which can be absorbed into the bloodstream to a certain extent. However, it’s worth noting that zinc oxide nanoparticles, which are smaller particles of zinc oxide, have raised some concerns regarding potential absorption. Current research suggests that the absorption of nanoparticles is minimal and does not pose significant health risks, but further studies are ongoing to better understand their effects.

5. Environmental friendliness: Zinc oxide is considered environmentally safe compared to some chemical sunscreen ingredients. Certain chemical sunscreens, such as oxybenzone and octinoxate, have been found to be harmful to coral reefs and marine life when they enter aquatic environments through swimming or washing off. On the other hand, Zinclear that contains zinc oxide, is biodegradable and does not pose the same threat to coral reefs and marine ecosystems, making it a more environmentally friendly choice.

It’s important to note that the safety and efficacy of any sunscreen product, including those containing zinc oxide, depend on factors such as proper application, formulation, and individual reactions. If you have specific concerns or skin conditions, it’s always a good idea to consult with a dermatologist or healthcare professional for personalised advice.

In a nutshell…

When it comes to choosing a safe sunscreen for kids, pregnant women, and lactating mothers, it’s important to consider factors such as broad-spectrum protection, SPF rating, and the absence of harmful chemicals. By opting for physical sunscreens like Zinclear and carefully examining the ingredient list, you can find products that offer effective sun protection without compromising the health and safety of these vulnerable groups. Remember, regular and proper application of sunscreen, along with other sun-protective measures like seeking shade and wearing protective clothing, is essential for maintaining healthy skin and preventing sun damage for both children and adults alike.

How Does Xylitol Promote The Health Of Sensitive Skin?

How Does Xylitol Promote The Health Of Sensitive Skin?

While most of us are going crazy over skincare, we do not often realise different people have different skin types. Every skin type experiences different skin concerns and should be treated accordingly. Even the skin type within a family can differ from one another.

We have three main types of skin – normal, dry, oily and sensitive skin. While these are the most commonly occurring skin types, not many of us acknowledge this issue. You might have seen various skin care products made specifically for different skin types. One of those skin types that you hear about all the time is— sensitive skin.

 

Continue reading How Does Xylitol Promote The Health Of Sensitive Skin?

Brazilian Butters: Deep Hydration And High Nutritional Value

Don’t you feel annoyed when the skin on your face and body becomes dry, giving you a sensation of rubbing your hands across sandpaper? For most of us, it is not only annoying but is also considered to be a threat to the overall health of our skin.

It is common for our skin to develop dryness, especially during the winter months. The skin loses its hydration; and as a result, it develops dry patches. Compromised dermal tissues can also lead to a disruption in the skin barrier. Hence, this results in various skin-related issues.
Nevertheless, we have a variety of different options that go on top of your skin and penetrate deep into its layers to provide ultimate hydration. Let us introduce you to a fascinating list of Brazilian butters that have the potency to provide nourishment and moisturisation to your dull, dehydrated skin.

We will shed light on the hydrating qualities of the 4 types of Brazilian Butters. Apart from this, we will also compare them in order to understand their effectiveness as an ingredient.


Continue reading Brazilian Butters: Deep Hydration And High Nutritional Value

7 Things You Didn’t Know About Skin Microbiome

We know that bacteria and other microorganisms are found in the rarest of the places, but have ever wondered if they are present in/or your body?

Well yes, they are. These microscopic organisms are present on both the insides and outside of our bodies. Not to forget, they serve a significantly important purpose, i.e., protection.
Talking about the human body, our skin is the largest organ. It acts as a shield and protects the inner organs from physical injuries as well as microbial infections. Thus, it becomes absolutely important to protect it against external stress.

While we do what we can to ensure the integrity of our skin, nature does its part. Our skin has a natural ecosystem where microbial colonies exist just like the ones in your gut. Even though they are not perceptible to the naked eye, they are quite present on the surface of the dermis. These invisible organisms like fungi, bacteria, and viruses are known as the skin microbiome. Let us get to know it a little.

Continue reading 7 Things You Didn’t Know About Skin Microbiome

Hair care

What Is Betaine, and how is it an Emerging Ingredient for the Skincare and Haircare Industry?

The world of skin care and hair care products is expanding beyond our comprehension. The fascinating fact about this is that more and more consumers are getting to know what goes inside these products. It develops awareness and curiosity to know what best suits their requirements. Continue reading What Is Betaine, and how is it an Emerging Ingredient for the Skincare and Haircare Industry?