The 6 Best Reasons to Use Natural Skin Care

Today’s market offers a wide range of skincare products, some of which are synthetic and others that are natural. While all of these products have the capacity to be healthy, natural goods are usually the preferable option.

If you are a skincare junkie and are interested to know why you should use natural skincare products, continue reading to find out. 

They’re High in Nutrients That Helps Your Skin Look and Feel Young

Discussing the components of synthetic and natural skin care products is the most effective way to illustrate the differences between the two. The two sorts of items’ constituent profiles are so dissimilar that they don’t even resemble each other.

Words like Triclosan, Glyceryl Stearate, Dye #4, and Petrolatum can be found in the ingredient list of a manufactured product. These substances are created in laboratories and, while they can serve their functions, they can also be harmful to the body.

Natural products, on the other hand, are packed with well-known substances like jojoba oil, argan oil, apple juice, lemon juice, and so on. These components are not only non-toxic to the body, but they also provide health benefits.

This is because they contain vitamins and chemicals like Vitamin C, Vitamin D, Vitamin E, Resveratrol, alpha-hydroxy acid, and others, which all help the body function at its best.

Animals Are Not Harmed In The Making Of These Products.

You might be surprised to learn how many skincare companies test their products on animals. Many of the industry’s prominent names continue to do so, clearly to the disadvantage of the animals that are being tested on.

The good news is that natural skin care companies don’t use animals in their testing and don’t damage other living animals. In this way, they are more ethical and compassionate than a lot of synthetic brands.

Natural skincare products are the best option if you’re against animal testing and want to treat animals humanely. They will keep you from participating in dangerous or malicious activities.

They’re Environmentally Friendly

Synthetic chemicals, first and foremost, have the ability to damage animals and plants with whom they come into contact. If synthetic chemicals from a synthetic product leak into the ground, they might have disastrous effects on the ecosystems around them.+

Second, the processes involved in producing traditional skincare products place a significant amount of strain on the environment. This is attributable to the fact that the extraction of some elements (aluminum, lead, and so on) involves mining. Mining produces a significant amount of pollutants, resulting in a negative carbon imprint on the ecosystem as a whole.

Natural skin care products don’t include such substances, thus mining isn’t required. They also have no negative impact on the environment because they only employ natural components.

They’re Safer

Natural skincare products are significantly safer than synthetic skincare products. This is due to the fact that the components included in natural products are far safer than those found in synthetic products.

When you apply a lotion to your skin, the components in it slowly absorb into your bloodstream. They have a direct impact on many of the body’s systems from there.

The substances will have positive effects if they are beneficial. If they’re a problem, on the other hand, they’ll do harm to the body. As a result, when you use a natural skincare product instead of a synthetic one, you are practically avoiding any harmful health impacts. You’ll feel and look better as a result.

They Leave No Doubt About Your Health

The substances used in synthetic skin care products are currently the subject of a great deal of debate. While some people feel these chemicals are safe, others are doubtful, given the fact that there has been very little academic research on them.

By using synthetic skin care products, you’re essentially tossing caution to the wind. You might be enabling dangerous substances to enter your bloodstream without even realizing it. This might have disastrous effects in the long term.

Easy On The Skin

Synthetic skin care products have a number of drawbacks, one of which is that they can be damaging to certain people’s skin. Swelling, redness, itching, and severe allergic reactions can all be caused by certain substances found in these products. As a result, they should be avoided at all costs.

Parabens, sulfates, petrochemicals, synthetic colors, propylene glycol, and triclosan are all ingredients to avoid. It’s important to note, however, that other manmade substances can also cause similar issues.

This is why using natural products is often a better choice. Natural products are free of irritants and, rather than causing harm to the skin, they actually help it.

The question you must ask yourself is if you are willing to risk your health. Is it really worth it to risk your health by using a synthetic product when you could just as easily use a natural one?

How To Add Prebiotics And Probiotics To Skincare

Our skin is a complicated network of cells that performs important activities such as controlling our internal temperature and protecting us from microbes. Skincare frequently focuses on treating the skin’s surface using topical treatments, which can be beneficial in minimizing obvious concerns such as aging, acne, or discoloration.

However, because the skin is our largest organ, it is critical that we treat it from the inside out. We are all aware of the benefits of eating probiotics for gut health, organ function, and immune system boosting, but this beneficial bacterium also plays an important role in skin vitality, beauty, and health.

What Is The Difference Between Probiotic And Prebiotic Skincare?

Many skin care products have chemicals that address particular conditions such as breakouts, excess oil production, irritation, dryness, and so on. Because they contain concentrated core substances to battle and address that one problem, these solutions are extremely successful.

However, for any skincare product to be the most effective, it must have a strong base. Skincare solutions have a better chance of efficiently targeting and treating your skin concerns if they encourage a stable, healthy, and functional microbiome.

Prebiotics provide nourishment for probiotic skincare, creating a positive playing field. Prebiotics may be found in a range of products, allowing your skin enough chance to absorb this food source and promote the spread of probiotics.

What Ingredients Should I Be On The Lookout For In Prebiotic Skincare?

Even while the human body is capable of surviving, it might become worn from constantly defending us. Our skin, more than anything else, reflects this wear and stress.

Pollution, synthetic substances, a bad diet, severe weather conditions, and sunlight may all deplete the microbiome of the skin, leaving it vulnerable to aging, dryness, and inflammation. However, restoring healthy bacteria is more complicated than just applying a prebiotic lotion before bed and calling it a day.

Because prebiotics assists in the skin’s natural condition, it’s critical to employ products that compliment this organic approach. Chemicals, preservatives, and synthetic substances in skincare products may cause more damage than good.

Even if prebiotics is present, probiotics might be sensitive to environmental conditions and will not grow in products containing harsh chemicals. Cosmetics might also be to fault for eradicating our skin’s sensitive microorganisms.

To limit the risk of irritation, use cosmetics that are devoid of silicates and fragrances. To enable the skin to breathe, remove makeup with an excellent cleanser and soothing toner at the end of each day.

Look for organic ingredients and high-quality base oils in cleansers, toners, and moisturizers. Prebiotic skincare should also contain the following ingredients:

  • Sucrose: Sugar helps probiotics develop and spread on our skin while also exfoliating without depleting the skin of its natural moisture. Sucrose-based prebiotic skincare can be beneficial in the treatment of acne-prone skin.
  • Lactic Acid: This fatty acid also supports the proliferation of beneficial microorganisms on the skin by producing important nutrients. Lactic acid has long been utilized in skincare to treat hyperpigmentation, age spots, and discoloration, but it is now being used to help prebiotic skincare work better.

When combined with specific important ingredients, probiotics in skincare thrive. Our faces’ skin is regularly subjected to extreme stresses, causing dirt and grime to accumulate and clog pores. Healthy bacteria cannot thrive in this environment and can grow and reproduce much more easily on an exfoliated surface.

What Skin do Types Benefit From Products With Prebiotic And Probiotic Skin Care?

Probiotic skincare benefits all skin types since prebiotics is a vital food source for probiotics to grow. The skin’s balance is restored, and natural, healthy flora returns to the surface, forming a strong barrier that can withstand a variety of stresses. Even if you don’t have acne, pimples, or dry skin, including prebiotic skin care in your daily routine can help you succeed in the long term if you do have skin problems.

The more moisturized and healthy our skin is, the more likely it is to stay young and vibrant as we get older. Collagen synthesis declines with age, but by combining products containing hyaluronic acid and prebiotics, we can help our cells to retain moisture while maintaining a healthy bacterial balance.

Prebiotics feed our hungry microbiota, restoring our skin to its most natural form. Our skin is continuously striving to catch up without this vital fuel supply. Overworked and fatigued skin causes dullness, redness, irritation, and inflammation.

So that our bodies can function and thrive, we give them healthy, organic nutrition. Why would we neglect to provide our skin with the nutrition it needs to function properly? 

To encourage healthy-looking, bright skin, use a probiotic moisturizer in your skincare routine. You can try Enviotic Probiotic Replenishing Cream as a start. It is made from 100% probiotics and works well with all types of skin. ORder now!

The Good And The Bad In Biofilm

The Good And The Bad In Biofilm

The Good And The Bad In Biofilm

It’s simple to see why bacteria on surfaces need to be disinfected but have you ever questioned how germs get onto surfaces in the first place? Enter BIOFILM

Scientists have learned more about these dense colonies of bacteria that generate an extracellular substance that connects a community of various microorganisms together and attaches them to both living and inanimate surfaces in recent years.

Biofilms may form in almost any environment or surface, and they can be either detrimental or helpful to people. Biofilms exist in the mouth and intestines of humans, and they may either protect or impair our health.

A typical example of a biofilm that develops on tooth surfaces is dental plaque. Tooth decay and gum disease are caused by the bacteria’s metabolic products in plaque.

Biofilms can house human pathogenic pathogens in the environment, but they can also help with groundwater and soil cleanup. They help in metal mining and play a key part in the natural recycling of materials on Earth. As a result, it’s crucial to understand the “good and bad” features of biofilms under various circumstances.


Biofilm development is a serious problem in nearly all healthcare and food-preparation environments. Biofilms can form on medical implants, allowing infections to thrive and even facilitating human deaths since these hardy microbial colonies are resistant to drugs and immune system attacks. 

Foodborne pathogens such as E. coli and Salmonella can thrive in biofilms on food-contact surfaces in restaurant, institutional, and residential kitchens. Thus, disinfecting and cleaning critical surfaces to prevent or eliminate biofilms aids in the prevention of institutional infections and foodborne diseases.

Most water distribution systems ultimately acquire biofilms from their interiors. The microbial growth, known as “biofouling,” is a contaminant that poses a risk to public health. Biofilms, as previously stated, can host human diseases that are difficult to eradicate. 

The most common approach for controlling biofilm formation is to chlorinate the water supply. When biofilm creates water quality issues, super chlorination, which temporarily raises chlorine levels, can be coupled with mechanical flushing and scouring.

Although biofilms are a continual battle for water treatment operators, these bacterial populations may also be used to improve water quality. Biofilms are helpful in sand filters, for example. Bacteria that feed on organic material in the water adhere to the grains when raw water trickles past them, forming biofilm colonies. 

The biofilms are fed by the continual supply of nutrients, which clears the water of unwanted organic debris. Water that has been biofilm treated uses less disinfectant and produces fewer disinfection byproducts.

Scientists will continue to investigate the benefits and drawbacks of biofilms, including how these micro-communities thrive, interact, and die, in order to promote positive purposes while minimizing negative consequences. Keep an eye out for the next interesting, exacerbating, and illuminating biofilm developments.

What Are Biofilms and Why Are They Harmful?

What Are Biofilms and Why Are They Harmful?

What Are Biofilms and Why Are They Harmful?

Bacteria are microscopic organisms that tend to stick on almost every surface. Well, most bacteria are harmless but there are some that are harmful once they get into the human body. 

Antibiotics can treat the majority of bacterial illnesses, but not illnesses caused by biofilms. 


Biofilms have existed for a very long time. According to a 2004 paper published in the journal Nature Reviews Microbiology, fossil evidence of biofilms goes back to around 3.25 billion years ago.

Biofilms are a microbial community made up of one or more microorganisms that may develop on a variety of surfaces. Bacteria, fungus, and protists are examples of microorganisms that produce biofilms.

Biofilms are formed when bacterial cells gather and build structures that bind them together in a gooey substance. This gooey substance shields cells from the environment and enables them to form complex quasi-organisms. Biofilms may be found nearly anywhere, including unclean shower cubicles and lake surfaces.


Biofilms are particularly harmful when they infiltrate human cells or develop on sutures and catheters used in operations. It is because the protective shell can keep these effective therapies out. Thousands of deaths have been linked to biofilm-related surgical site infections and urinary tract infections in American hospitals alone.

Fighting biofilms has proven particularly challenging due to a lack of understanding of how bacteria cells shift from acting independently to forming collective structures. 

However, researchers in the Levchenko lab have discovered a fundamental mechanism for biofilm development. This also gives a means to investigate this process in a controlled and repeatable manner. This research was in collaboration with colleagues at the University of California-San Diego.

Biofilms accounted for “almost 80% of microbial illnesses in the body,” according to a 2002 call for grant proposals from the National Institutes of Health (NIH).

According to a 2004 study in Nature Reviews Microbiology, bacterial biofilms have been reported to induce infective endocarditis and pneumonia in cystic fibrosis patients, among other diseases.


First and foremost, prevention is better than cure! We can try to avoid the formation of biofilms. This is an excellent method for preventing biofilms from developing on implanted materials. 

We can cover the implant’s surface with chemicals that prevent germs from adhering to it. This look can be achieved, for example, using silver coating. We can also inject large quantities of antibiotics into the implanted gadget. They are therefore prepared to combat germs before going to sleep.

We can also use a strong antibiotic solution to clean a catheter. The majority of these methods are currently in use in clinics. Alternately, we can disrupt the bacteria’s communication mechanism. It’s known as quorum sensing.

It is made up of chemicals generated by bacteria and is detected by their neighbors as if they were inhaling a sweet aroma. Bacteria can’t locate each other without quorum sensing, therefore they can’t start forming the biofilm.

Second, we have the option of attempting to destroy the matrix. This should make it easier for the antibiotic to reach the bacteria that are hiding. This can be accomplished using enzymes, which are proteins capable of converting one molecule into another, such as in degradation products. The chemicals in the matrix will be chopped into little bits by them.

The majority of these innovative methods are still in the works. It takes a lot of effort to keep them active and functioning properly. Another source of concern is the possibility that these techniques will be harmful. We are, nevertheless, progressing at a steady rate.