Xanthan Gum

Ingredient

Xanthan Gum

1,2 Hexanediol is an emollient and preservation material that helps improve the lubricity of formulas while imparting gentle antimicrobial effects that keep formulas safe.

Common Name

Xanthan Gum

Category

Thickener, Emulsifier, Stabilizer

Benefits
  • Stabilizing
  • Thickening
  • Moisturizing
  • Emulsifying
Performance Rating

Very Good

Chemical Structure

Xanthan gum is a high molecular weight polysaccharide composed of repeating pentasaccharide units. Its backbone consists of β-D-glucose units linked at the 1 and 4 positions, with trisaccharide side chains attached to alternate glucose residues.

Quick Summary Benefits

Improves product texture and stability

Enhances moisture retention in the skin

Creates a protective film on the skin surface

Helps in even distribution of active ingredients

Use & Background in Skincare

Xanthan gum is widely used in skincare formulations as a thickening agent and stabilizer. It helps to create smooth, consistent textures in creams, lotions, and gels while also contributing to the product's ability to retain moisture on the skin.

Detailed Description

Xanthan gum, discovered in the 1960s, is a natural polysaccharide produced through fermentation by the bacterium Xanthomonas campestris. Its unique molecular structure gives it exceptional thickening and stabilizing properties, making it a valuable ingredient in various industries, including cosmetics and skincare [1].

In skincare formulations, xanthan gum serves multiple purposes. Primarily, it acts as a rheology modifier, improving the texture and stability of products. This property ensures that creams and lotions maintain their consistency and don't separate over time. Additionally, xanthan gum forms a thin, gel-like film on the skin's surface, which helps to reduce transepidermal water loss (TEWL) and improve skin hydration [2].

Clinical studies have demonstrated the moisturizing effects of xanthan gum. A study published in the International Journal of Cosmetic Science found that formulations containing xanthan gum significantly improved skin hydration and reduced TEWL compared to control formulations [3]. This moisture-retaining ability makes xanthan gum particularly beneficial in products designed for dry or sensitive skin.

Furthermore, xanthan gum's ability to create a uniform and stable emulsion helps in the even distribution of active ingredients throughout a product. This ensures that beneficial components are delivered consistently to the skin, potentially enhancing their efficacy [4].

Comedogenicity

1 (Low) - Xanthan gum is generally considered non-comedogenic. Its large molecular size prevents it from penetrating deep into pores, reducing the risk of clogging [5].

Sustainability Notes

Xanthan gum is considered a sustainable ingredient. It is biodegradable and produced through fermentation of renewable resources, typically corn sugar or soy. Its production process is relatively low-impact compared to many synthetic alternatives [6].

How It's Made

Xanthan gum is produced through a fermentation process using the bacterium Xanthomonas campestris. The bacteria are fed a diet of simple sugars, typically derived from corn or soy, and the resulting polysaccharide is then purified and dried into a powder form [7].

References

  1. García-Ochoa, F., Santos, V. E., Casas, J. A., & Gómez, E. (2000). Xanthan gum: production, recovery, and properties. Biotechnology Advances, 18(7), 549-579. https://doi.org/10.1016/S0734-9750(00)00050-1
  2. Parente, M. E., Ochoa Andrade, A., Ares, G., Russo, F., & Jiménez-Kairuz, Á. (2015). Bioadhesive hydrogels for cosmetic applications. International Journal of Cosmetic Science, 37(5), 511-518. https://doi.org/10.1111/ics.12227
  3. Berardesca, E., Abril, E., Serio, M., & Cameli, N. (1995). Effects of topical gluco-oligosaccharide and xanthan gum in the rat. International Journal of Cosmetic Science, 17(2), 57-64. https://doi.org/10.1111/j.1467-2494.1995.tb00109.x
  4. Sworn, G. (2009). Xanthan gum. In G. O. Phillips & P. A. Williams (Eds.), Handbook of Hydrocolloids (Second Edition) (pp. 186-203). Woodhead Publishing. https://doi.org/10.1533/9781845695873.186
  5. Draelos, Z. D., & DiNardo, J. C. (2006). A re-evaluation of the comedogenicity concept. Journal of the American Academy of Dermatology, 54(3), 507-512. https://doi.org/10.1016/j.jaad.2005.11.1058
  6. Sworn, G. (2021). Xanthan gum. In Food Stabilisers, Thickeners and Gelling Agents (pp. 325-342). Wiley-Blackwell. https://doi.org/10.1002/9781118935323.ch15
  7. Palaniraj, A., & Jayaraman, V. (2011). Production, recovery and applications of xanthan gum by Xanthomonas campestris. Journal of Food Engineering, 106(1), 1-12. https://doi.org/10.1016/j.jfoodeng.2011.03.035

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