Essential Oil Chemical Constituents
In general, pure essential oils can be subdivided into two distinct groups of chemical constituents; the hydrocarbons which are made up almost exclusively of terpenes (monoterpenes, sesquiterpenes, and diterpenes), and the oxygenated compounds which ar mainly esters, aldehydes, ketones, alcohols, phenols, and oxides.
Terpenes – inhibit the accumulation of toxins and help discharge existing toxins from the liver and kidneys.
Sesquiterpenes – work as a liver and gland stimulant and contain caryophyllene and valencene. Research from the universities of Berlin and Vienna show increased oxygenation around the pineal and pituitary glands. Further research has shown that sesquiterpenes have the ability to surpass the blood-brain barrier and enter the brain tissue. other sesquiterpenes, like chamazulene and farnesol. Chamazulene may be found in chamomile, tansy, and yarrow.
The following oils contain Sesquiterpenes.
Black Pepper (47%)
While offering a variety of healing properties, the most important ability of the monoterpenes is that they can reprogram mis-written information in the cellular memory (DNA). With improper coding in cellular memory, cells malfunction and diseases.
The following oils contain Monoterpenes:
Rose of Sharon (54%)
Limonene has strong healing properties and has been found in 90% of the citrus oils.
Pinene has strong healing properties and may be found in high proportions in the conifer oils such as pine, fir, spruce, and juniper.
Other terpenes include camphene, cadinene, cedrene, dipentene, phellandrene, terpinene, sabinene, and myrcene.
Esters – are the compounds resulting from the reaction of an alcohol with an acid (known as esterification). Esters are very common and are found in a large number of essential oils. They are calming and relaxing.
Linalyl acetate may be found in bergamot, Clary sage, and lavender
Geraniol acetate may be found in sweet marjoram.
Other esters include bornyl acetate, eugenol acetate, and lavendulyl acetate.
Aldehydes – are highly reactive and characterized by the group C-H-O (Carbon, Hydrogen, Oxygen). In general, they have an effect on the central nervous system. They can be quite irritating when applied topically (citral being one example), but may have a profound calming effect when inhaled.
Citral is very common with a distinctive cleaning action.
Citronellal is also very common and has the same lemony scent as citral. Along with citral and neral, citronellas may be found in the oils of melissa, lemongrass, lemon, mandarin, lemon-scented eucalyptus, and citronella.
Elements of aldehydes have also been found in lavender and myrrh. Other aldehydes include benzaldehyde, cinnamic aldehyde, cuminic aldehyde, and perillaldehyde.
Ketones – are sometimes mucolytic and neuro-toxic when isolated from other constituents. However, all recorded toxic effects come from laboratory testing on guinea pigs and rats. No documented cases exist where oils with a high concentration of ketones (such as mugwort, tansy, sage, and wormwood) have ever caused a toxic effect on a human being. Also, large amounts of these oils would have to be consumed for them to result in a toxic neurological effect. Ketones stimulate cell regeneration, promote the formation of tissue, and liquefy mucous. They are helpful with such conditions as dry asthma, colds, flu and dry cough and are largely found in oils used for the upper respiratory system.
The following oils contain Ketones:
Western Red Cedar
Thujone is one of the most toxic members of the ketone family. It can be an irritant and upsetting to the central nervous system and mey be neuro-toxic when taken internally as in the banned drink Absinthe. Although it may be inhaled to relieve respiratory distress and my stimulate the immune system, it should only be administered by an educated and professional aromatherapist.
Jasmone (found in jasmine) and fenchone (found in fennel) are both non-toxic.
Other ketones include camphor, carvone, menthone, methyl nonyl ketone, and pinacamphone.
Alcohols They create an uplifting quality and are regarded as non-toxic.
Terpene Alcohols stimulate the immune system, work as a diuretic and a general tonic.
Linalol can help relieve discomfort. It may be found in rosewood and lavender.
Citronellol may be found in rose, lemon, eucalyptus, geranium, and others.
Geraniol may be found in geranium as well as palmarosa.
Farnesol may be found in chamommile. It is also good for the mucous.
Other terpene alcohols include borneol, menthol, nerol, terpineol, (which Dr. Gattefosse considered to be a decongestant), vetiverol, benzyl alcohol, and cedrol.
Sesquiterpene Alcohols are ulcer-protective (preventative).
Bisabolol is one of the the strongest sesquiterpene alcohols. It may be found in chamomile oils where it also functions well as a fixative.
Phenols – are responsible for the fregrance of an oil. They are strongly stimulating but can also be quite caustic to the skin. They contain high levels of oxygenating molecules and have anioxidant properties. Phenols clean receptor sites of cells so sesquiterpenes can delete faulty information from the cell.
The following essential oils contain Phenols, in the order of strength.
Calamus or Cane (30%)
Eugenol may be found in clove and cinnamon oil.
Thymol is found in thyme and may not be as caustic as other phenols.
Carvacrol may be found in oregano and savory.
Others in the phenol family include methyl eugenol, methyl chavicol anethole, safrole, myristicin, and apiol.
Oxides – According to The American Heritage™ Dictionary of the English Language, an oxide is “a binary compound of an element or a radical with oxygen”.
Cineol (or eucalyptol) is by far the most important member of the family and virtually exists in a class of its own. It works as an expectorant. Cineol is well known as the principal constituent of eucalyptus oil. It may also be found in rosemary, cinnamon, melissa, basil, and ravensara.
Other oxides include linalol oxide, ascaridol, bisabolol oxide, and bisabolone oxide.
The following essential oils contain oxides.
All pure essential oils have some healing properties. They increase the production of white blood cells, which help fight infectious illnesses. It is through these properties that aromatic herbs have been esteemed so highly throughout the ages and so widely used during the onsets of malaria, typhoid, and of course, the epidemic plagues during the 16th century. Research has found that people who consistently use pure essential oils have a higher level of resistance to illnesses, colds, flues, and diseases than the average person. Further indications show that such individuals, after contracting a cold, flu, or other illness, will recover 60-70 percent faster than those who do not use essential oils.
For more information on the subject of Essential Oils Chemistry and constituents, see the 2 most valuable books in my library.
Click on either book for more information.
The Chemistry of Essential Oils Made Simple, by David Stewart.
Many of these chemical compounds have been identified, and new ones are being discovered; but many remain unknown, and the relationships between them are not well understood. However, these molecules can be grouped together into families, each with its own therapeutic properties. Representative of this is the following chart.
|Key Chemical Constituents in Essential Oils and Their Effects|
Different therapeutic actions of chemical constituents
Chemically, essential oils are very heterogeneous, giving the same oil many diverse effects within the body. A single essential oil can play many different therapeutic roles. This is very different than the effects of synthetic chemicals, which have only a single action.
The therapeutic action of essential oils preserves the body’s natural balance
Because of their chemical complexity, essential oils don’t disturb the body’s natural balance — or homeostasis. If one constituent exerts too strong an effect in one direction, another constituent may block or counteract it.
For example: certain aromatic molecules in an oil may be very stimulating — both psychologically and physically. But, the same essential oil may also contain constituents that are calming and sedating, helping to overcome anxiety or hyperactivity.
And, because the oils are natural substances, they tend to go only where they’re needed, and provide only the action needed to help restore the body’s natural balance. The same oil may have significantly different effects on a person from one application to the next, depending on his/her need at that moment. This quality of essential oils makes aromatherapy very safe and, incidentally, makes choosing the right oil less problematic.
This is in stark contrast to synthetic chemicals, which often interrupt the body’s homeostasis, forcing an action based upon the chemical’s make-up, not on what the body needs.
Another interesting point: while it’s possible to duplicate these chemical constituents in the laboratory and blend them together into a concoction that smells like an essential oil, scientists have yet to duplicate the therapeutic effects of a truly therapeutic-grade essential oil.