Are Sulfates Good or Bad for You? Know the Facts

16 Dec.,2024

 

Are Sulfates Good or Bad for You? Know the Facts

Read on to learn the facts and decide whether or not you should go sulfate-free.

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The main use for SLS and SLES in products is to create lather, giving a stronger impression of cleaning power. While sulfates aren&#;t &#;bad&#; for you, there&#;s a lot of controversy behind this common ingredient.

Sulfate is a salt that forms when sulfuric acid reacts with another chemical. It&#;s a broader term for other synthetic sulfate-based chemicals you may be concerned about, such as sodium lauryl sulfate (SLS) and sodium laureth sulfate (SLES). These compounds are produced from petroleum and plant sources such as coconut and palm oil. You&#;ll mostly find them in your cleaning and personal care products .

Sulfates derived from petroleum are often controversial due to their origin. The biggest concern is the long-term side effects of sulfate production. Petroleum products are associated with climate change, pollution, and greenhouse gases. Sulfates can also be found in some plant products.

Some sulfates occur naturally and are found in water. Along with other salts and minerals, they help improve the taste of drinking water. Others are found in fertilizers, fungicides, and pesticides.

The amount of SLS and SLES in a product depends on the manufacturer. It can range from small amounts to almost 50 percent of the product.

The ingredients SLS and SLES are most commonly found in personal products and cleaning agents such as:

The concentration of SLS in cleaning products may be higher. As with many cleaning products, whether SLS-free or not, prolonged exposure and skin contact to high concentrations can cause irritation. Remember to keep windows open or have a source of ventilation to prevent lung irritation.

Many products have a lower concentration of SLS or SLES in their formulation. But the longer the products stay in contact with your skin or eyes, the higher the risk of irritation. Rinsing off the product immediately after use reduces risk of irritation.

The highest risk of using products with SLS and SLES is irritation to your eyes, skin, mouth, and lungs. For people with sensitive skin, sulfates may also clog pores and cause acne.

There is no direct evidence linking SLS and SLES to cancer, infertility, or development issues. These chemicals may slowly build up in your body over long-term use, but the amounts are small.

Going sulfate-free depends on your concerns. If you&#;re worried about skin irritation and know that sulfate products are the cause, you can look for products that say sulfate-free or don&#;t list SLS or SLES in their ingredients. How sulfate affects your skin may also depend on the brand and manufacturer. Not all sources are the same.

Natural alternatives include the following:

For cleaning skin and hair: Opt for solid and oil-based soaps and shampoos rather than liquid. Some products to consider include African black soap and body cleansing oils. Lather and foam aren&#;t crucial to cleaning skin or hair &#;sulfate-free products can also do the job.

For cleaning products: You can make cleaning products using diluted white vinegar. If you find vinegar unpleasant, try lemon juice. As long as you can ventilate your space while cleaning, there should be no irritation.

If you&#;re concerned about the environment and animal testing, know that there is no way of avoiding using petroleum in the production of SLES. Products that say sulfate-free may not necessarily be petroleum-free either. And even plant-derived SLS may not be ethical. Look for products that are certified fair trade or ethical trade.

The Study of Sodium Lauryl Sulfate (SLS) Toxicity

Mini Review - ()Volume 13, Issue 4

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The Study of Sodium Lauryl Sulfate (SLS) Toxicity

Dave Dhruv

 

*Correspondence: Dave Dhruv, Department of Biotechnology, Smt SS Patel Nootan Science Commerce College, Sankalchand Patel University, Visnagar, Gujarat, India, :

Dave Dhruv, Department of Biotechnology, Smt SS Patel Nootan Science Commerce College, Sankalchand Patel University, Visnagar, Gujarat, India,

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Abstract

Sodium Lauryl Sulphate (SLS), an anionic detergent, is created through a chemical process. SLS was utilized in a variety of consumer and medical items, including toothpaste, mouthwash, shampoo, soap, face wash, and other cosmetics. Much research demonstrates that SLS has negative impacts. Many studies also suggest that SLS-containing products cause eye irritation, skin damage, mouth cytotoxicity, and cell protein damage, as well as hair loss. SLS has been demonstrated in scientific tests to have negative effects when used in high concentrations and incubated for a long period. SLS also has an impact on microbiologically on body. This article is not suggested the SLS containing product use should be closed but it incubation time and concentration is must be less. Many animal based research is describe for mouth wash containing product used 1%-2% w/w concentration, for skin care product (1% w/v), for shampoo (10%-25% w/v) concentration is used. Only 2.4% of SLS-containing products are licensed in the UK.

Keywords

Sodium Lauryl Sulfate (SLS); Dermatological effect; Acute eyes disease; Skin irritation

Sodium Lauryl Sulfate (SLS); Dermatological effect; Acute eyes disease; Skin irritation

Introduction

Shampoo, toothpaste, mouthwash, and other cosmetic and healthcare items are still in use today. For the creation of products in the current period, modern businesses use various chemicals, some of which can have toxic or cancerous effects. Sodium lauryl sulfate is included in a variety of medical and healthcare items. As an emulsifying cleaning agent, Sodium Lauryl Sulfate (SLS) is a common act as anionic surfactant. Numerous causal and modal-based investigations have shown that sodium lauryl sulfate is harmful. SLS is used in numerous products, including shampoo, toothpaste, mouthwash, soap, and cosmetics; however, it only be used once or twice a week is given lower effect [1]. Authorized medicinal items contain 0.2% w/w cream and 25% w/v medicated products, with several products likely to have a low SLS concentration. Only 2.4% of SLScontaining products are licensed in the UK. However, dermal (skin and ocular) or inhalation exposure causes its overuse and excessive concentration [1]. The main SLS is used in oral goods (tablets and capsules), where it rarely causes adverse reactions; it cannot be utilized in injections or ophthalmic treatments. According to scientific research, it has negative consequences due to its surfactant qualities, disruption of cell membranes, and protein conformational alteration.

Literature Review

As a detergent, Sodium Lauryl Sulfate (SLS) is used. A combination of sodium alkyl sulfate is sodium lauryl sulfate. SLS is created by sulfating chlorosulfonic acid or sulfur trioxide with commercially available lauryl alcohol. Following this process, sodium hydroxide or sodium carbonate in water is used to neutralize the byproduct. By hydrolyzing coconut oil or palm kernel oil to release their fatty acids, followed by hydrogenation, lauryl alcohol is often produced. Commercial samples of SLS are frequently blended with other alkyl sulfates, with dodecyl sulfate serving as the primary constituent, due to the synthesis process [2].

SLS is commercially available in powder and pellet form. The salt is a 12-carbon chain connected to a sulphate group, which gives the substance the amphiphilic qualities of a detergent (Figure 1). SLS appears as white or cream to pale yellow c rystals, flakes, or powder with a smooth feel, a soapy, bitter taste, and a subtle fatty odour. The pH of the alkaline salt is 7.0-9.5 (for a 1% w/v aqueous solution); small amounts are sufficient to significantly raise the pH of semi-solid preparations, causing compound degradation, for example when diluents such as emulsifying ointment, which contains SLS, are used for compounding steroidal preparations, because of this, as well as its skin irritant qualities [3].

Toxicity and hazard

SLS is a moderately toxic material with acute toxic effects or chronic toxicity including carcinogenicity irritation to the skin, eyes, mucous membranes, upper respiratory tract, and stomach. The toxicity of SLS derives primarily from its surfactant properties, producing disruption of cell membranes, cytokine release, and conformational changes of proteins, and also damage bacteria which present different parts of the body and they are good. The SLS limited concentration is less chance to give toxic effect different concentration range is described in Table 1.

Product Concentration Skin care product 1% w/v Toothpaste and mouthwash 1%-2% w/w wetting agents in solid oral dosage form 0.2%-1.5% w/w Releaser in pessaries and suppositories 0.4%-1% w/w Shampoos contain a foaming or lathering agent 10%-25% w/v

Table 1: Concentration ranges of SLS in different products.

Skin toxicity caused by SLS

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The skin is the largest portion of our body. Skin is destroyed in a variety of ways, including solar radiation, harmful chemical substances, and so on. Skin also contains microorganisms, some of which protect against various infections [4]. Various cosmetics and soaps are still used today that are prepared with various ingredients. Sodium Lauryl Sulfate (SLS) was employed in those goods. According to the preceding discussion, SLS acts as a detergent, and many animal tests demonstrate that SLS has a negative impact. However, SLS used in low concentrations does not cause harm, but when used in higher concentrations and for a longer period, it causes harm. Because of its surfactant qualities, it harms corneocytes, causing swelling, denaturation of keratin structure by direct binding, the elevation of stratum corneum pH, and change of lipid synthesis in this layer as shown in Figures 1-4.

Figure 1: Chemical structure of sodium lauryl sulfate.

Figure 2: The image shows different irritiants caused by using Sodium Lauryl Sulfate (SLS) containg products.

Figure 3: The image shows the formation of stratum spinosum due to Sodium Lauryl Sulfate (SLS) .

Figure 4: Trans Epidermal Water Loss (TWEL) caused by SLS.

According to Bondi, et al. [1], 0.01% to 50% concentration is recognized for cosmetics products and soap products. If a high concentration of SLS is used it may distort the cells protein. According to the study conducted by Prottly, et al. [5], after applying SLS on the third day causing scaling and cracking stratum corneum. According to the study by Lansdown, et al. [6], study conducted on animals, by applying 0.5 ml solution to a 2 cm2 patch of mouse skin, to know how much concentration and time required to know the harmful effects. They were also treated for 20 minutes, 60 minutes, and 120 minutes, which resulted in mild thickening and erythema after 1.5-2 hours of treatment, as well as 30%-40% squamous cells. After 2 hours, there was edema, leucocyte infiltration, and some engorgement of the more superficial blood vesicles.

Discussion

Lansdown, et al. [6], investigated dilution by using 1% or 2.5% distilled water as well as 1% SLS on mice. After two days, there is little change, and after five days, the difference is more pronounced. Several investigations have revealed that 1% is less intense in the stratum spinosum. According to study of Olson [7], erythema was brought on by 1% and 5% solution.

Tsange, et al. [8], tested the application of aqueous cream BP on the forearm twice a day on six people. The results showed that those who were treated with SLS had a change in Stratum Corneum (SC) thickness, baseline TEWL, and rate of rise in TEWL during tape stripping there will be a 1.1 μm decrease in SC thickness.

Skin irritation studies on animal 0.1% concentration is describe as moderate effects. Mohammed, et al. [9], study on humans using 2 ml of aqueous cream BP for 10 minutes on an area of around 40 cm2 twice daily for 28 days led to increased protease activity and corneocytes size and maturity. According to their study, SLS is utilized in the UK for moisture purposes. The 0.9% SLS concentration decreases the thickness of healthy skin and also increases water loss permeability. Studies on animals show that a modest dose of SLS 0.1% causes a moderate effect due to its irritant qualities. The SC complex, which is primarily responsible for the human epidermal permeability barrier and is composed of corneocytes and intracellular lipids, forms a highly organized structure. At concentrations of 1% and less, the aqueous solution of SLS can irritate the skin and increase Tranepidermal Water Loss (TEWL).

SLS applied on teeth

The mouth is the most vital organ in the body, and it contains bacteria that protect against diseases and prevent them from entering other organs. Additionally, this microbe increases the mouth's enzyme activity. There are various types of toothpaste and mouthwash used to protect oral hygiene. Many types of toothpaste and mouthwash cause allergic reactions, according to Nowak, et al. [10], because SLS and fluoride are present in toothpaste and mouthwash. Based on the discussion above, SLD function as a detergents and fluoride also causes negative consequences. In-vitro research shows that mouthwash and toothpaste can harm oral musculature and gingiva. Fluoride ions are also found in toothpaste and mouthwash; they have both an antibacterial and an enzyme-stimulating effect. Additionally, it triggers oxidative stress and lipid peroxidation [9].

Lethal Dose LD50>5,000 mg/kg is regarded as non-toxic by the CPSF (Consumer Product Safety Commission). By using the Methyl Thiazolyl Tetrazolium (MTT) assay method, Shahidi,s et al. [11], examined the cytotoxicity of toothpaste and mouthwash. They also conducted investigations on how various toothpaste and mouthwash formulations affect oral bacteria. They prepared three plates with various concentrations and then examined them according to procedures lasting 15 and 30 minutes. In these plates, a positive control of 1 mg/ml and a negative control of 50 mg/ml are both displayed. Furthermore, Minimum Inhibitory Concentration (MIC) tests were conducted. Additionally, serial dilution was made, transferred, and incubated for 24 hours on MRS agar media. They tested mouthwashes with 1, 2, and 10 L volumes as well as kinds of toothpaste with concentrations of 1, 10, and 50 mg/mL. The cytotoxicity of the samples was above 90% at a concentration of 50 mg/L and a volume of 10 μl, while it was less than 1% at a concentration of 1 mg/mL and a volume of 1μl. All toothpaste and mouthwashes were positive for antibacterial action against S. mutants and L. acidophilus. The obtained MIC for all toothpastes and mouthwashes was between 0. mg/mL and 0. mg/mL, except for the corresponding values for sensodyne toothpaste and oral b mouthwash, which were 0.5 mg/mL and 0. mg/mL when they were in contact with S. mutans and L. acidophilus for 1 min and 30 min, respectively [12].

A 0.8-1.1 g/kg is given modulatory effects based on lethal dose LD50 (Ingredient and formulation studies of items are called median lethal dose LD50 which helps to identify milligram substance per kilogram of our body weight) research [7]. Product Safety Labs (PSL), LD50 studies the leading cause of death is 6.0 g/kg [10]. After in gastric incubation with SLS diluted by diluted water 25% w/v, no adverse symptoms or microscopic activity are seen.

Ganpachi, et al. [12], investigated 16 kinds of toothpaste to determine cytotoxic effects and incubation time. They incubated epithelial cells and HeLa cells for 1 minute and found that different kinds of toothpaste damaged epithelial cells and HeLa cells at different times.

Acute eyes disease

Research on rabbits revealed that 10% SLS on animals when not washed caused opacity and stippling. According to published statistics, 28.2% and 30% of Sodium Lauryl Sulfate (SLS) used without washing and it showed mild to moderate irrational eyes. A concentration study on animals is carried out 20 or 30 seconds before the eyes are exposed. Eyes irrigate in 20 seconds, as evidenced by numerous studies. According to the study of Ghapanchi, et al. [12], 4 sec exposure to sodium lauryl sulfate elicited no opacities, but did dull corneal luster in four animals. The critical exposure time before damage is produced in the rabbit eye by this surfactant is between 4 and 10 sec.

Dermatological effect

SLS is mostly used in shampoo, although it is also found in toothpaste and hair care products. There is no strong scientific evidence that SLS-containing shampoo is carcinogenic, according to environmental research. People who want healthy hair should avoid using shampoos that include SLS. The majority of scientific data and most researchers classify it as irrational rather than carcinogenic [13,14].

Some people avoid it because they are allergic to chemicals and have sensitive hair and skin. Some persons with rosacea should avoid shampoo, according to the American Academy of Dermatology. SLS shampoo causes your hair to swell and additional layers of the cuticle to open, and it also causes hair color to fade. However, there is no substantial evidence that shampoo and SLS base products are carcinogenic. In cosmetics meant for prolonged skin contact, the concentration should not exceed 1% [15-18]

Mechanisms of action

SLS (Sodium Lauryl Sulphate) is a negatively charged surfactant formed by combining a saturated or mildly unsaturated hydrocarbon chain or a hydrophilic group with a strong acid such as sulphate (-O-SO3) or sulfonate (-SO3). This property causes SLS to operate as an irratry product. Because of its sarfance qualities, it disrupts the cell barrier and damages cell proteins by forming positively charged side groups, as well as impairing immunological response that are explained in Figures 2-4.

A repeated dose of SLS causes skin dryness and cracking, resulting in contact dermitis. Many studies have found that SLS causes basel transepidermal water loss (measured with an evaporimeter), skin thickness (measured with ultrasonic scanning), blood flow (detected with a laser Doppler flow metre) and skin colour (measured with a chroma metre).

Several studies also show that SLS has a direct effect on corneocytes, causing thickness swelling in size, denaturation of keratin structure via direct binding, and modulation of lipid formation in this layer as a result of pH shift [19]. Tranas Epithelial Water Loss (TEWL) also has an impact on SC shape. SLS is used to penetrate irritants and sensitive xenobiotics from the environment by removing lipids. According to Corck, et al. [20], some patients experience unfavorable effects when SLS is used on a regular basis, causing ssubstantial skin barrier breakdown, such as eczema. SLS concentrations of 0.1% to 2% commence free fatty acid elimination [21,22].

Conclusion

According to the evaluation of SLS toxicity studies, the SLS molecule is safe for toothpaste, mouthwash, soap, face wash, and various cosmetics. Much research has shown that SLScontaining products have a deleterious effect, but this varies based on concentration and time. Some products use varying amounts of SLS, while others dilute SLS, resulting in reduced or non-effect. When SLS-containing products are used for an extended period, the incubation period is also crucial. SLScontaining products can also harm the microbiology of our skin, mouth, and other parts of our bodies.

Conflict of Interest

The authors declare no conflicts of interest

References

Author Info

Dave Dhruv*

 

Department of Biotechnology, Smt SS Patel Nootan Science Commerce College, Sankalchand Patel University, Visnagar, Gujarat, India

 

Department of Biotechnology, Smt SS Patel Nootan Science Commerce College, Sankalchand Patel University, Visnagar, Gujarat, India

Citation: Dhruv D () The Study of Sodium Lauryl Sulfate (SLS) Toxicity. J Clin Toxicol. 13:542.

Received: 14-Jun-, Manuscript No. JCT-23-; Editor assigned: 16-Jun-, Pre QC No. JCT-23- (PQ); Reviewed: 30-Jun-, QC No. JCT-23-; Revised: 07-Jul-, Manuscript No. JCT-23- (R); Published: 14-Jul- , DOI: 10./-.23.13.542

Copyright: © Dhruv D. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

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