347,182k Readers
Trusted by Consumers and Businesses
Regulations
Essential Oil testing

Gas chromatography-mass spectrometry is considered the standard form of testing for essential oils.

Standard Essential Oil Testing

Standard essential oil testing is used as a method to ensure product quality, purity and to help identify the presence of bioactive constitutes.

Before essential oils can be tested, they must first be extracted from the plant source. There are several methods of extraction, which can be chosen depending on which part of the plant contains the volatile oil. Essential oils may be extracted through steam distillation, hydro distillation, solvent extraction, pressing, or effleurage (fat extraction).6

Gas chromatograph (GC) is a chemical analysis technique used to identify the volatile fractions (individual components) within a specific essential oil.1,2,3 The oil is vaporized then carried through the instrument via gas stream. The individual components are registered at different times and speeds, but it does not identify the name of exact constitute.2

To determine this, mass spectrometry (MS) is combined with gas chromatograph. This analytic technique identifies each component within the oil, to create a standard profile. This helps researchers determine purity, product consistency and catalog which components may have therapeutic effects.1,2,7

In recent years, gas chromatography-mass spectrometry (GC/MS) has become one of the most popular and standardized methods of testing essential oils.1,2 This form of testing allows scientific researchers, suppliers, manufacturers and businesses to determine the essential oil purity and quality. Results are often compared against a reliable sample to determine optimal quality, or changes from batch to batch.

Published Essential Oil Testing Results

Currently, essential oil manufacturers and retailers are not required to provide batch test information to consumers. However, select companies do publish batch test results to promote transparency.

Unlike other cosmetic products, essential oils are solely plant-based. This means that depending on the season, harvest area and species of herb, the active compounds (and therapeutic benefits) may change. This variation provides a good reason to conduct regular batch testing to ensure product quality and consistency.

In recent years, several retailers have made their batch testing available online. Users can enter the unique batch or lot number online to find the GC/MS report that corresponds to their product. If users experience any issues with their essential oil, customer service will be able to identify the product by these markers.

If available, GC/MS reports can generally be found on a retailer’s website. They are often located under a single essential oil and will provide the date of analysis, comments from the report, the constitutes within the oil and a peak report. If reports are not available online, users may inquire with the retailer to obtain a copy.

Therapeutic Grade Essential Oils

As the demand for natural and aromatherapy products increases, new terms have been introduced to describe the oil’s purported quality as a way of remaining competitive in the marketplace. Of these terms, ‘Therapeutic Grade Essential Oil’ is commonly displayed on labels of single oils or complex blends. ‘Therapeutic Grade’ or ‘Grade A’ invokes the concept of tiered quality system, and that only select essential oils may be worthy of these titles.2

It’s important to note that even though many reputable companies follow or go above and beyond Good Manufacturing Practices (GMP), there is no regulatory standard or definition for ‘Therapeutic Grade’.2

In the United States, essential oils do not have a dedicated governing body that has established a universal grading system. With no standard definition, or pre-market approval by the FDA, the term ‘Therapeutic Grade’ or ‘Grade A’ is simply a marketing term, and does not indicate an oil’s quality or purity.

Scientific Research Referenced in this Article

  1. Jalali-Heravi, M., & Parastar, H. (2011). Recent trends in application of multivariate curve resolution approaches for improving gas chromatography–mass spectrometry analysis of essential oils. Talanta, 85(2), 835-849. doi:1016/j.talanta.2011.05.045
  2. Shutes, J. (n.d.). The Quality of Essential Oils. Retrieved March 29, 2017 from http://naha.org/assets/uploads/The_Quality_of_Essential_Oils_Journal.pdf – View reference
  3. The Editors of Encyclopædia Britannica. (2010, April 27). Gas Chromatography. Retrieved March 29, 2017 from https://www.britannica.com/science/gas-chromatography – View reference
  4. National Cancer Institute. (2014, December 17). Aromatherapy and Essential Oils (PDQ®)–Patient Version. Retrieved March 29, 2017 from https://www.cancer.gov/about-cancer/treatment/cam/patient/aromatherapy-pdq#link/_46 – View reference
  5. National Association for Holistic Aromatherapy. (n.d.). Regulations & Licensing Information. Retrieved March 29, 2017 from https://www.cancer.gov/about-cancer/treatment/cam/patient/aromatherapy-pdq#link/_46 – View reference
  6. The Editors of Encyclopædia Britannica. (2016, April 6). Essential oil. Retrieved March 29, 2017 from https://www.cancer.gov/about-cancer/treatment/cam/patient/aromatherapy-pdq#link/_46 – View reference
  7. Beynon, J. H. & Brown, L. (1999, July 26). Mass spectrometry. Retrieved March 30, 2017 from https://www.britannica.com/science/mass-spectrometry
preloader