Anti-Inflammatory Cannabis Terpenes: What They Are, Why You Need Them
We know you’re well-versed in the beneficial properties of cannabidiol (CBD) and tetrahydrocannabinol (THC) . You know that they can help with stress, anxiety, pain, and inflammation. But, did you know that cannabis terpenes work together with CBD and THC to fight inflammation? Let’s dive into what anti-inflammatory cannabis terpenes are, what they do, and how they can benefit your customers.
Anti-Inflammatory Cannabis Terpenes
Effects of Terpenes
Some terpenes balance the less-desirable psychoactive and physiological effects of cannabis and provide therapeutic qualities not found in products that only contain CBD. One such terpenoid (a terpene that has been dried and cured and therefore undergone chemical modification) is beta-caryophyllene, or BCP. Cannabis contains a large amount of BCP, as do some food plants, legal herbs, and spices such as black pepper. It exists in some leafy green vegetables as well and acts essentially like a non-psychoactive anti-inflammatory.
The FDA has recognized terpenes and terpenoids as safe, though more research is necessary before professionals can adequately predict how cannabis terpenes can be used to treat various health conditions. The research so far is promising: cannabinoid terpenoid interactions have been shown to be effective treatment for inflammation, addiction, depression, anxiety, epilepsy, bacterial and fungal infections, and general pain.
Approximately 200 terpenes have been identified in the cannabis plant so far. Each plant strain is made up of a unique combination of these terpenes, which affects the different tastes, smells, and effects of the different strains. The fact that terpenes can produce such a wide variety of tastes and smells is impressive enough on its own, but what’s even more interesting is that doctors, patients, growers and sellers can test samples of a strain to verify which terpenes it contains. With this information, they can have more control over what kind of buzz or therapeutic effects they receive.
Popular Anti-Inflammatory Cannabis Terpenes
While there are too many terpenes to list here, let’s consider a few of the most popular:
- Limonene. As you may have guessed from the name limonene has a citrusy smell. What you might not know is that they have potential anti-carcinogenic properties, among many other benefits.
- Myrcene. This is the most prevalent terpene in cannabis varieties and is thought to increase the psychoactive effects of THC. It can also be used as an antiseptic and anti-inflammatory.
- Linalool. Linalool, a terpene with citrusy lavender smell, has tranquilizing effects and can help those with psychosis.
- Caryophyllene. This terpene has a smell reminiscent of black pepper and is being studied for potential benefits in diabetes reduction and autoimmune disorders.
- Alpha Bisabolol. This terpene is also found in chamomile, and also has a floral flavor and scent.
- Borneol. Borneol smells similar to camphor and mint and can potentially help reduce fatigue and stress.
- Delta-3 Carene. This terpene has a piney scent and has been found in 80 different strains in 162 cannabis plants.
- Eucalyptol. Eucalyptol, predictably, smells like eucalyptus. Only small levels of this terpene are found in cannabis.
- Nerolidol. This terpene smells like tree bark and has potential as a sleep aid.
- Pinene. Pinene, like delta-3 carene, smells like pine. It is mostly found in citrus fruits and pine woods and has medical potential as an expectorant.
While this is far from all of the information available on terpenes, it’s a good place to start. If this piques your interest, join us for a CannaCon event in your area to learn more!
Cannabis terpenes work together with CBD and THC to fight inflammation. Learn what anti-inflammatory cannabis terpenes are and why you need them!
Accurate Education – Marijuana (Cannabis): Terpenes – An Overview
Cannabis is very aromatic, with different strains having their unique scents. Some people find the smell of cannabis unpleasant while others find it very calming and enjoyable; some strains smell fruity and sweet while others smell like pine, lavender, earthy or pungent. The components responsible for the unique aromas and flavors of different cannabis strains are terpenes, aromatic molecules secreted inside the tiny resin glands of cannabis flowers. But there is more to terpenes than their scent.
Terpenes are also believed to have a wide range of medical effects although research remains inadequate to identify definitive clinical benefits at this time. There are at least 80-100 terpenes found in cannabis and the combination of terpenes and cannabinoids are responsible for the overall medical effects of cannabis. For more information about terpenes, see below.
Over-the-Counter Cannabinoid Medications:
Prescription Cannabis-Based Medications:
Clinical Applications of Cannabis:
Cannabis – Anxiety (coming soon)
Cannabis – Headaches (coming soon)
Cannabis – Inflammatory Bowel Disease (coming soon)
Cannabis – Neuroinflammation (coming soon)
Cannabis – Pain (coming soon)
Cannabis – Sleep (coming soon)
The Medical Science of Cannabis:
Cannabinoids and Terpenes:
Cannabinoids & Terpenes – An Overview (coming soon)
Key to Links:
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The medical information on this site is provided as a resource for information only, and is not to be used or relied upon for any diagnostic or treatment purposes and is not intended to create any patient-physician relationship. Readers are advised to seek professional guidance regarding the diagnosis and treatment of their medical concerns.
More than 540 chemicals, including 18 different chemical classes, more than 100 different cannabinoids (including THC and CBD) and more than 200 terpenes have been identified in marijuana plants (cannabis). In addition, a group of compounds called flavonoids – about 20 of them – have also been identified in cannabis. Flavonoids, one of the largest nutrient families known, are a group of plant metabolites thought to provide health benefits through cell signalling pathways and antioxidant effects. It is believed that the therapeutic benefits attributed to cannabis are derived from all of these families of compounds. This page focuses on terpenes.
What are Terpenes (or Terpenoids)?
Terpenes are fragrant essential oils manufactured by many different types of plants and herbs, including cannabis. Terpenes (and terpenoids) are organic chemicals produced by most plants, as well as some animals such as swallowtail butterflies and termites. Terpenes are volatile aromatic molecules, meaning they evaporate easily, and are some of the primary components of plant resins and flowers, providing flavor and fragrance to fruits and spices commonly found in a normal diet. Terpenes, not cannabinoids, are responsible for the aroma of cannabis and are the source of the aromas, flavors, and other characteristics that help distinguish different cannabis strains.
The terms terpene and terpenoid are often used interchangeably but these terms do have different meanings. The main difference between terpenes and terpenoids is that terpenes are hydrocarbons (meaning the only elements present are carbon and hydrogen); whereas, terpenoids are chemically modified or have been denatured by oxidation (dryin g and curing the flowers). The term “terpene” will be used here but recognize some “terpenes” described here may actually be terpenoids. The most commonly studied terpenes found in cannabis plants include alpha-pinene , myrcene, beta-caryophyllene, caryophyllene oxide, linalool , limonene , nerolidol and phytol. See : Types of Terpenes and Terpenoids
Terpenes have been proposed to exert therapeutic effects, especially in combination with the cannabinoids. They are quite potent, and have been shown to affect human behavior when inhaled from ambient air at serum levels less than 10 ng/mL Terpenes that occur in plants, however, are often found in very trace amounts. Terpenes may only compose the weight of 1-2% of dried plant matter and t erpenes account for less than 1% in most cannabis plants while the monoterpenes, limonene, myrcene and pinene, usually predominate. Trichomes, the glands that produce resin in a cannabis plant, contain the majority of cannabinoids (THC, CBD, etc.) and terpenes found in cannabis. Terpenes comprise about 10% of trichome content by weight and are a significant component of cannabis resin. Terpene concentrations >500 ppm are of pharmacological interest, while in general, terpene components in concentrations above 0.05% of a cannabis plant are considered potentially pharmacological active.
What do Terpenes do?
Research evidence is convincing that the medical benefits of cannabis cannot be achieved by simple isolates of the cannabinoids THC and CBD. The different therapeutic benefits that vary between different marijuana strains cannot be explained by their THC and/or CBD content alone. Evidence shows that non-cannabinoid marijuana plant components, including terpenes modulate the clinical effects of both THC and CBD and the intoxicating effects of THC.
Each terpene may have unique therapeutic effects. For example, some scents promote sleep: lavender oil, which contains the terpene linalool, improves sleep efficiency, increased total sleep time, elevated vigor the following morning, and promotes sleep in patients with insomnia. Terpenes may also contribute significantly to the synergistic (“entourage”) effects of cannabis-based products. The “entourage” effect is a proposed synergistic pharmacologic effect created by the combination of the different constituents in cannabis, especially with different cannabinoids and terpenes. Different mechanisms of synergy have been proposed: (i) multiple effects on different targets; (ii) pharmacokinetic effects such as improved solubility or bioavailability; and (iii) modulation of adverse effects.
The synergy of cannabinoid-terpene interactions contribute to the medical benefits (and side effects) of cannabis with respect to treatment of pain, inflammation, depression, anxiety, addiction, epilepsy, cancer and infections. Terpenes are pharmacologically versatile: they are lipophilic, interact with cell membranes, neuronal and muscle ion channels, neurotransmitter receptors, G-protein coupled (odorant) receptors, second messenger systems and enzymes. Terpenes may also increase the permeability of the blood-brain barrier, allowing greater access of substances in the blood to enter the brain. It has recently been shown that terpenes do not synergistically interact with cannabinoid receptors (CB1 or CB2) in the body as was once proposed. The majority of the anti-inflammatory effects of terpenes and terpenoids has been shown to be mediated by a decrease in the levels of pro-inflammatory mediators, such as nitrous oxide (NO), interleukins, TNF-α, and PGE2.
Level of Evidence
Research on terpenes consists mostly of animal studies and lab (in vitro) studies. The proposed benefits of the individual terpenes described below have, in most cases, not been backed up with quality human studies. That being said, lack of evidence does not necessarily equate to lack of benefit. In the case of therapeutic benefits achieved with marijuana, it is generally accepted that terpenes play a significant role but studies are still lacking to further understand their specifics. The information presented here represents early evidence and theoretical benefits only.
Due to a lack of research that evaluates terpenes directly for their therapeutic benefits, one means of assessing their benefits is to evaluate different Cannabis cultivars, or strains, for their peculiar therapeutic effects. Cannabis sativa strains are commonly described as energetic, uplifting, creative, euphoric, spacey and better for day use. Cannabis indica strains are commonly described as relaxing, calming, and sedating with full body effects and better for night use. These effects are not purely due to CBD:THC ratios as there are no significant differences in CBD:THC ratios between sativa and indica strains. These different subjective effects are most likely due to varying amounts and ratios of cannabinoids, terpenes and probably additional phytochemicals.
Furthermore, due to the explosive market for mariuana there has been a huge flooding of the marijuana market with different strains, all with imaginative and mysterious names that offer no information as to their specific and peculiar benefits. Complicating this is the fact that there may be no consistency of constituent amounts or ratios from one batch of a strain to another, despite their same name. In addition, different people are likely to respond differently to the same cannabis constituents at different times and, still diffently than another person’s response to the same constituents.
Given these obvious, and perhaps overwhelming limitations, one may assess different cannabis strains for their purported benefits and evaluate the breakdowns of their particular chemical constituents to determine if they might allow for predicting specific therapeutic benefits based on common constituents found in different cannabis strains known for their specific therapeutic benefits. A 2017 study evaluated a number of high THC cannabis strains based on their terpene content, describing 5 major group characteristics:
(1) Terpinolene dominant
(4) Limonene/myrcene/b-caryophyllene dominant, a-bisabolol
(5) Myrcene dominant
Further study is required to determine how these groupings may correlate with therapeutic benefits.
Based on the fact that the most common reasons that people turn to medical use of cannabis are for pain relief, anxiety relief and sleep, these benefits will be reviewed first with respect to different cannabis strains.
Terpenes are commonly used in the manufacturing of essential oils, natural flavorings and beauty products and are extensively used in fragrances and aromatherapy. Terpenes, in the amounts found in cannabis and cannabis extracts, are believed to be safe and well tolerated with minimal or mild side effects such as sedation. All the terpenoids discussed here are Generally Recognized as Safe by the US Food and Drug Administration (FDA) as food additives. Additionally, they are non-sensitizing to skin when fresh, but may cause allergic reactions. Terpenes are not associated with physical dependence (e.g. withdrawal and tolerance), nor associated with abuse or addiction. However, one should never consume or swallow concentrated terpenes or essential oils without appropriate dilution – if you’re at all unsure about the safety of a compound, do not orally consume it without consulting a medical professional.
Bioavailability refers to the proportion of a drug or other substance which enters the blood circulation when introduced into the body via inhalation, through the skin or through ingestion etc. For example, the bioavailability of a substance introduced directly into the vein by injection is, by definition, 100%. The bioavailability of the terpenes in cannabis is not well studied yet but they are generally considered to have high bioavailability with inhalation, oral ingestion and in some monoterpenoid compounds including alpha- and beta-pinene, camphor, 3-carene, myrcene and limonene, even through the skin. They are generally lipophilic (fat soluble) and are absorbed well from the gut and will pass into the brain through the blood brain barrier.
When consumed, terpenes readily enter the blood but in general are metabolized and cleared from the blood quickly, within a few hours, and accumulation is unlikely. The major portion of terpenes are metabolised in the liver and exhaled as CO2 or, mostly, eliminated as phase-II conjugates by the kidneys.
Conditions Potentially Responsive to Terpenes
In addition to the potentially direct clinical benefit that may be derived from the various cannabis-related terpenes, the following is a list of conditions that, while still highly speculative, might respond to terpenes or to a cannabinoid-terpene synergy:
- Oxidative Stress
- Inflammatory diseases – R espiratory inflammation, Atopic Dermatitis, Arthritis, and Neuroinflammation
Terpenes have a great deal of popular support for their pain benefits although most of the research that explores this is preclinical: animal or lab-based (in-vitro). The following terpenes are most commonly recognized for their benefits for pain:
Pain – Cannabis strains and their terpenes, noted relative to their benefits for pain
While there are no rules, users tend to report more effective pain-relief with indica strains. In one survey, participants reported that indicas helped more than sativas when it came to headaches, joint pain, neuropathy, and spasticity. Users also reported indicas to be more helpful when it comes to sleep and sedation. While sativa-dominant strains don’t seem as popular for pain management, they tend to have less sedative effects compared to indica strains. However, over the several decades of widespread cannabis breeding, the ability to distinguish indica strains from sativa strains is become more vague and unreliable.
Upon review of many websites offering anecdotal reports of which cannabis strains are best for pain, the following strains seemed to be most popular for treating pain:
White Widow is a potent, balanced sativa/indica hybrid strain, blending South American sativa and South Indian indica and is widely believed to be useful for chronic pain. Emerging in the Netherlands in the 1990s, the strain gained popularity in Dutch coffee houses. Many people believe this is one of the best choices for migraine headaches and is considered very effective for sleep. Its terpene profile is reported to include nerolidol (trans-nerolidol), limonene, myrcene, linalool and caryophyllene. One source identifies the following breakdown of the terpenes in White Widow where it is notable that this breakdown does not include nerolidol (trans-nerolidol), suggesting a lack of consistency in reports of cannabis strain constituents.
White Widow terpene profile (from industrialhempfarms.com):
Linalool (3.78%), alpha-Pinene (0.521%),, Myrcene (0.43%), Caryophyllene oxide (0.30%), Humulene (0.09%.beta-Pinene (
Total Terpenes 5.49%
Blue Dream blends Blueberry indica with the sativa Haze to create a sativa-dominant hybrid for treating pain. Blue Dream is described as coupling full-body relaxation with mental alertness and is popular for managing chronic pain during the day without heavy sedative effects. Blue Dream may be one of the best strains for migraine headaches. The THC content of Blue Dream falls between 17-24% and its CBD content consistently ranges from 0.1-0.2%. Its sweet berry aroma suggests prominent terpenes.
Blue Dream terpene profile (from industrialhempfarms.com):
Linalool (1.86%), alpha-Pinene (0.68%), Caryophyllene Oxide (0.40%), Caryophyllene (0.11%), Humulene (0.02%), Myrcene (
Total Terpenes: 3.07%
Harlequin is sativa-dominant but very high in CBD with less than 10% THC, so there is less brain fog and euphoria while the CBD works on pain issues. Harlequin is considered by many to be the most effective for arthritis pain and also good for fibromyalgia and nerve pain, muscle and joint pain, menstrual cramps and nausea.
Harlequin terpene profile (from industrialhempfarms.com):
alpha-Pinene (0.309%), Myrcene (0.298%), Caryophyllene (0.238%), beta-Pinene (0.099%), Humulene (0.082%), Limonene (0.058%), Linalool (0.010%), Terpinolene (
Total Terpenes: 1.094%
Kush Strains (especially Master Kush)
There are many different varieties of Kush,” including purple Kush, OG Kush, Hindu Kush, and Bubba Kush to name some of the popular ones. Most of these strains are indica-based, originating from the Hindu Kush area of the Himalayas. Most are high in THC content. Master Kush is considered very potent. Bubba Kush is commonly found to be effective for pain, stress and depression, and is thought to be very effective for insomnia. The THC content of Bubba Kush ranges from 14-22%, and the CBD content ranges from 0.06-0.1%. Redwood Kush is known for its muscle relaxation properties. Afghan Kush is reported to be very effective for nerve pain but can be very sedating and it has a high CBD content.
OG Kush terpene profile (from industrialhempfarms.com):
Humulene (0.97%), alpha-Pinene (0.63%), Caryophyllene (0.34%), Terpinolene (0.10%), Myrcene (0.08%), Linalool (
Total terpenes 2.13%
Hindu Kush terpene profile (from industrialhempfarms.com):
Humulene (0.66%), alpha-Pinene (0.26%), Caryophyllene (0.61%), Terpinolene (
Total terpenes 2.57%
Bubba Kush terpene profile (from industrialhempfarms.com):
Humulene (1.76%), Linalool (1.46%), Caryophyllene oxide (0.62%), Caryophyllene (0.4%), alpha-Pinene (
Total terpenes 4.24%
A sativa-dominant hybrid strain, AK-47 is a popular strains for treating chronic pain. It is reported to be derived from a variety of different strains, including South American, Mexican, and Thai sativa strains and the Afghani indica strain. While it consists of both sativa and indica, AK 47 is sativa dominant, ande likely to be energizing. The terpenes in AK-47 are reported to consist mainly of Myrcene, Caryophyllene, d-Limonene, D-Alpha-Pinene, Alpha-Pinene and Beta-Pinene.
Jack Herer is a cross between Shiva Skunk, Northern Lights #5 and a Haze hybrid that is sativa-dominant. It originated in the Netherlands in the 1990s, Jack Herer offers analgesia but less sedation than many of the indica-based strains. The THC content of Jack Herer ranges from 18-23%, and the CBD content ranges from 0.03 -0.2%. The terpenes in Jack Herer include pinene.
OG Shark appears to be a lesser-known cannabis strain but in a headache and chronic pain study reviewed below it ranked highest in preference by patients for treatment of chronic headaches and chronic pain.
THC (21-25%), THCA (22.8%), CBD (
β-Caryophyllene (0.263%), β-Myrcene (0.194%), D-Limonene (0.191%), Linalool (0.136%),
Bisabolol (0.107%), Humulene (0.078%), Trans-Nerodiol (0.023%), α-Pinene (0.022%)
ACDC has mixed reports of containing high levels of CBD but low levels of THC or high levels of both. It tends to produce little to no noticeable euphoria, or “high,” suggesting that the THC content is low. It helps to relieve pain and control stress.
ACDC terpene profile (from industrialhempfarms.com):
alpha-Pinene ( Total Terpenes:
Terpene product: ACDC profile (from trueterpenes.com) with prominent alpha-Pinene and myrcene
Osteoarthritis (OA) is a degenerative joint disease characterized by inflammation and progressive loss of the joint (articular) cartilage that is associated with changes in the subchondral bone and other joint tissues. Although the mechanisms of joint tissure destruction in OA is not yet completely understood, pro- inflammatory cytokines, such as interleukin-1β (IL-1β), play a major role by inducing activity of cartilage-degrading enzymes in cartilage cells (chondrocytes). This enzymatic process, coupled with impaired repair responses, results in progressive cartilage loss, the hallmark of OA.
The terpenes myrcene, pinene and limonene have been found in preclinical research to have anti-inflammatory and anti-catabolic (breakdown) properties in human chondrocytes, although myrcene may show the greatest potential. Clinical studies are needed to identify how these benefits may be applied
A 2018 study evaluated the cannabis strains most commonly preferred for relief of headaches in chronic migraine patients and other types of chronic pain. “OG Shark,” a sativa/indica hybrid strain, was identified as the most popular for both migraine patients as well as those with other chronic pain syndromes including arthritis. Among the most preferred 15 cannabis strains, there were no statistically significant differences in specific strain preferences found between patients with headache as their primary pain compared to those with other diagnoses of chronic pain or arthritis.
The OG Shark cannabis strain is reported to be a cross between Great White Shark and OG Kush cannabis strains and is a high THC/THCA (20+%), low CBD/CBDA (
While OG Shark was identified as the most preferred strain for headaches and pain, the following were the top 15 strains:
- OG Shark (29 patients; 8.9% of responders)
- Afghani (25; 7.7%)
- Skywalker OG (25; 7.7%)
- Lemon Sour Diesel (25; 7.7%)
- Jack Herer (24; 7.3%)
- Jean Guy (24; 7.3%)
- White Widow (24; 7.3%)
- Pink Kush (21; 6.4%)
- Master Kush (20; 6.1%)
- Sweet Skunk CBD (18; 5.5%)
- Headband (17; 5.2%)
- Island Sweet Skunk (17; 5.2%)
- Black Tuna (16; 4.9%)
- Warlock CBD (14; 4.3%)
- Cannatonic (14; 4.3%), Blueberry (14; 4.3%)
Click here for an analysis of the constituents of these 15 preferred cannabis strains for pain
Abundant evidence supports the key role of the endocannabidiol system in moderating both depression as well as anxiety, whether induced by aversive stimuli, such as post-traumatic stress disorder or pain. CBD’s anxiolytic effects are reasonably supported in the literature, especially regarding the belief that CBD reduces the side effect of anxiety that is associated with the use of THC (See Cannabidiol ).
Terpenes are frequently promoted as having sedative and anxiety benefits. The following is a list of terpenes commonly believed to have sedative or anxiolytic effects:
Anxiety – Cannabis strains and their terpenes, noted relative to their benefits for anxiety
A 2018 publication evaluated (by surveys) the opinions of 442 patients using cannabis for medical purposes. Of these, 266 (60%) patients reported that they used cannabis to treat their anxiety whereas onl 15% of these patients reported being diagnosed with a specific anxiety disorder.
The top four cannabis strains reported to be most effective for reducing anxiety were Bubba Kush, Skywalker OG Kush, Blueberry Lambsbread and Kosher Kush. Three of these four are “Kush” varieties, which all share a similar chemotype with high levels of the terpenes: trans-nerolidol, myrcene, β-Caryophyllene, D-limonene and linalool. Kush strains contain genetics originating from the pure Indica strains found in the Kush mountain range in Central Asia, Afghanistan, Northern Pakistan and North-Western India. “Hindu Kush” strains of Cannabis were brought to the United States in the mid-to-late 1970s.
Click here for a graph of weighted average terpene concentrations for the top four most effective cannabis strains for anxiety (taken from “Cannabis and the Anxiety of Fragmentation—A Systems Approach for Finding an Anxiolytic Cannabis Chemotype”).
Of note, while CBD has been identified as being effective for anxiety, in the strains identified in this study as being most effective for anxiety the cannabinoids cannabigerol (CBG) and cannabichromene (CBC) were measured at higher levels than CBD (0.68%, 0.13% and 0.075% respectively). It has been proposed that CBG may also have anxiolytic benefits.
Bubba Kush terpene profile (from industrialhempfarms.com):
Humulene (1.76%), Linalool (1.46%), Caryophyllene oxide (0.62%), Caryophyllene (0.4%), alpha-Pinene (
Total terpenes 4.24%
Skywalker OG Kush terpene profile (from industrialhempfarms.com):
Humulene (1.77%), alpha-Pinene (0.88%), Myrcene (0.69%), Caryophyllene oxide (0.42%), Caryophyllene (0.37%), Terpinolene (
Total terpenes 4.13%
Of the four cannabis strains considered least effective (but not necessarily ineffective), m yrcene dominant strains and the terpinolene dominant strains were found to be less effective. These results could be due to different symptom etiology requiring different pharmacological interventions or may also arise from differences in personal biochemistry between patients with similar etiology .
For a complete analysis of weighted averages of all terpenes and cannabinoids for the top four most effective and least effective (for anxiety) cannabis strains in this study, click here (taken from “Cannabis and the Anxiety of Fragmentation—A Systems Approach for Finding an Anxiolytic Cannabis Chemotype”
While the possible benefits of THC on depression remain controversial, CBD- or CBG-predominant preparations have greater support. Research supporting benefit for depression treated solely with a citrus scent strongly suggests the possibility of synergistic benefit of a phytocannabinoid-terpenoid preparation with limonene.
A recent study supports the concept that CBD, when present in significant proportion to THC, is capable of reducing or eliminating induced cognitive and memory deficits in normal subjects smoking cannabis. Furthermore, CBD may also reduce b-amyloid in Alzheimer’s disease. The psychopharmacological effects of limonene, pinene and linalool could possibly offer benefits in mood in such patients.
The effects of cannabis on sleep remain inconclusive, but there may be benefits that can accrue in this regard, particularly with respect to symptom reduction permitting better sleep, as opposed to a mere hypnotic effect. Certainly, terpenoids with pain-relieving, anti-anxiety or sedative effects may supplement such benefits, particularly caryophyllene, linalool and myrcene.
In the same 2018 study referenced above regarding cannabis strain preferences, the following 15 cannabis strains were preferred by patients using cannabis for insomnia:
- Lemon Sour Diesel (20 patients; 13.8% of respondents)
- OG shark (15; 10.4%)
- Skywalker OG (13; 9%)
- Pink Kush (12; 8.3%)
- Jack Herer (10; 6.9%)
- White Widow (9; 6.2%)
- Afghani (8; 5.5%)
- Indica House Blend (7; 4.8%)
- Sweet Skunk CBD (7; 4.8%)
- Island Sweet Skunk (7; 4.8%)
- Black Tuna (7; 4.8%)
- Jean Guy (6; 4.1%)
Click here for a breakdown of the constituents of these 15 preferred cannabis strains for insomnia
CBD has been proposed as a treatment for heroin, cocaine, and alcohol craving and addiction relapse although research remains inconclusive. It is theorized that terpenoids might provide adjunctive support including myrcene via sedation, pinene via increased alertness, and especially caryophyllene via CB2 agonism due to a newly discovered possible mechanism of action in addiction treatment. CB2 is expressed in dopaminergic neurons in the ventral tegmental area and nucleus accumbens, areas mediating addictive phenomena. Activation of CB2 in rats has been shown to inhibit dopamine release and cocaine self- administration. Caryophyllene, as a high-potency selective CB2 agonist would likely produce similar effects.
Oxidative stress is a condition that results from an imbalance between the production of reactive oxidative species (ROS) – like free radicals – and their elimination by protective mechanisms. ROS are highly reactive chemicals that damage tissues, epecially proteins, lipids, and DNA/RNA. They are produced naturally by cells, especially when producing energy in the mitochondria. The excessive production of ROS causes tissue injury that leads to inflammation as well as irreversible damage to cells, resulting in mutations, possibly cancer and cell death. Terpenes may be protective by reducing the activity of enzymes involved in the production of ROS, or by protecting against oxidative damage by a wide range of ROS through several mechanisms of antioxidant activity including binding with, and neutralizing the ROS.
Many studies have demonstrated antioxidant properties of terpenes and terpenoids. D-Limonene has powerful antioxidative properties as does myrcene, pinene, terpinolene, humulene, linalool and β-caryophyllene and many others.
Respiratory conditions associated with inflammation include asthma, allergic rhinitis, bronchitis, pneumonia and, recently, COVID-19. Several animal studies have shown the beneficial effects of some volatile terpene compounds via the anti-inflammation response to airway inflammation in allergic asthma. In the mouse asthma model, inhalation of limonene significantly reduced the levels of various proinflammation-related molecules as well as airway fibrosis, indicating that limonene has the potential to reduce airway remodeling. Lab studies suggest that terpeneol may improved lung function as well as enhance airway smooth muscle relaxation. Inhalation of α-Pinene has been shown to be a bronchodilator in human volunteers at low exposure levels.
Allergic rhinitis, a disorder of the upper airways caused by an inflammation of the nasal membranes, and often coexising with asthma, has been shown to respond to α-Pinene. However, adverse effects of inhaled terpene on airways has also be found. Oxidation products of α-pinene and d-limonene have been shown to cause irritation both in the upper airways and lungs in mice.
While the over 200 different terpenes found in the cannabis plant have been much less researched compared to THC and CBD, they do show promise for their ability to provide therapeutic benefits. Below are some of the most frequent terpenes:
Myrcene is the most abundant terpene in cannabis, making up as much as 65% of total terpene profile in some strains. Myrcene has an earthy, musky aroma, similar to cloves. It also has a fruity, red grape-like aroma. Myrcene can also be found in foods such as mango and citrus fruits, as well as thyme, sweet basil, bay leaves, hops, parsley and lemongrass. Mango contains significant amount of myrcene, so eating it before consuming cannabis will strengthen the effects of THC and increase its absorption rate
Strains that contain 0.5% or more of myrcene are usually indicas with sedative and anxiolytic effects. Myrcene has also been reported to be useful in reducing inflammation and chronic pain. Strains that are rich in myrcene are Skunk XL, White Widow, and Special Kush. Myrcene is a recognized sedative found in hops preparations (Humulus lupulus) and is employed as a sleep aid in Germany. Furthermore, myrcene acted as a muscle relaxant in mice, and potentiates sleep at high doses. Myrcene is a prominent sedative terpenoid in cannabis.
Interestingly, myrcene has been found to be analgesic in mice, and this action can be blocked by naloxone, raising questions as to its mechanism of action as related to opioids. Like pinene, myrcene has significant anti-inflammatory effects via prostaglandin E2 and is also believed to act as a muscle relaxant and therefore may be useful in reducing chronic pain. Myrcene has protective effects in cartilage, suggesting potential anti-osteoarthritic activity and the ability to halt, or at least slow down cartilage destruction and osteoarthritis progression.
The above tables are from: IARC Monographs on the Evaluation of Carcinogenic Risks to Humans – 2019
Limonene is the second most abundant terpene in cannabis, but it is not necessarily found in all strains. Strains that have “lemon” or “sour” in their name are usually rich in limonene. High levels of limonene can be found in strains like O.G. Kush, Sour Diesel, Super Lemon Haze, Durban Poison, Jack Herer, and Jack the Ripper. As the name itself implies, limonene has a citrus-like scent that resembles lemons and can be found in the rinds of all citrus fruits, including lemons, limes, oranges and grapefruit which contain large amounts of this compound. Limonene is non-toxic, highly bioavailable and rapidly metabolized. It is accumulated and retained in adipose tissues and brain brain. Limonene does not interact with CB1 or CB2 receptors.
Proposed therapeutic benefits of limonene include anti-inflammatory, gastro-protective, anti-nociceptive, anti-tumor, and neuroprotective activity, mood enhancement and stress reduction as well as sedation and immune-stimulation. Studies of citrus oils in mice suggest it to be a powerful agent for reducing anxiety, with studies demonstrating increased serotonin in the prefrontal cortex and dopamine in the hippocampus mediated via serotonin receptor, 5-HT1A. Confirmatory evidence in humans was found in a clinical study in which hospitalized depressed patients were exposed to citrus fragrance in ambient air demonstrated subsequent normalization of depression and successful discontinuation of antidepressant medications in 9/12 patients.
The reported antioxidant and free radical scavenging properties of Citrus lumia oil, which is highly-concentrated in monoterpenes (e.g., 48.9% D-limonene and 18.2% linalool), suggests an important preventive role in oxidative stress. Overall, limonene has therapeutic potential for diseases associated with inflammatory and oxidative-stress processes.
With its spicy and floral notes, linalool is one of the most abundant terpenes in the majority of cannabis strains and, together with myrcene, produces that pungent floral and spicy scent that makes cannabis smell the way it does. Some well known linalool strains are Amnesia Haze, Special Kush, Lavender, LA Confidential, and OG Shark. Linalool can also be found in lavender (Lavandula angustifolia), bergamot, ylang-ylang, mint, cinnamon, and coriander. Essential lavender oil contains 37.3% linalool and 41.6% linalyl acetate. Linalyl acetate, the other primary terpenoid in lavender, hydrolyses to linalool in the stomach.
Linalool is a major and common terpenoid contained in most herbal essential oils and teas, including both green and black teas. Oral intake of linalool from food and beverages is estimated to be up to 1-5 mg/day, including the dietary intake of linalool from natural sources such as vegetables and spices. Linalool occurs in apple, citrus juices, berries, grapes, guava, celery, peas, potatoes, tomatoes, cinnamon, cloves, cassia, cumin, ginger, mustard, nutmeg, pepper, thymus, cheeses, grape wines, butter, milk, rum, cider, tea, passion fruit, olive, mango, beans, coriander and rice.
Most studies evaluating linalool’s therapeutic benefits are preclinical, laboratory-based or animal-based, with limited human studies. It has been proposed linalool offers benefit in patients suffering from arthritis, depression, seizures and insomnia.
Linalool – Anxiety, Sedation and Relaxation
Just like those aromatic herbs used in traditional aromatherapy, linalool also reduces anxiety and provides sedation and relaxation. There is evidence that lavender oil, containing linalool, improves sleep efficiency, increased total sleep time, elevates vigor the following morning and promotes sleep in patients with insomnia. It is believed that the modulation of glutamate and GABA neurotransmitter systems are the likely mechanisms for the sedative, anxiolytic and anticonvulsant properties of linalool. Multiple articles below demonstrating linalool’s benefits regarding anxiety and sleep may be downloaded for review.
Inhalation of lavender oil (predominantly linalool and linalyl acetate) has a long history of traditional use and effectiveness for anxiety and sleep. Animal and human studies have demonstrated that linalool has anxiolytic properties, possesses stress-relieving effects and improves quality of sleep.
Oral intake of linalool, in the form of lavender essential oil (Silexan) capsules wa demonstrated to be effective for anxiety in a meta-analysispublished in 2019 . Five studies with a total of 524 participants received treatment with silexan 80 mg and 121 participants taking silexan 160 mg. Silexan 80 mg was observed to be effective for anxiety, equivalent to that of paroxetine (Paxil), a prescription SSRI (selective serotonin reuptake inhibitor). Overall, silexan 160 mg was found to be more effiective than silexan 80 mg. Silexan contains primarily linalool (36.8%) and linalyl acetate (34.2%). Minor components of Silexan include monoterpene alcohol lavandulol, its ester lavandulyl acetate, and bicyclic monoterpenoids borneol, eucalyptol (1,8-cineole) and camphor.
Inhalation vs Oral: Unfortunately, a systematic review published in 2017 identified no studies that met the author’s criteria that meaningfully established comparative effectiveness of Silexan compared to inhaled lavender essential oil aromatherapy for sleep latency, sleep duration, sleep quality, disturbed sleep or anxiety in adults.
Topical exposure to linalool has been found to have local anaesthetic effects equal to those of procaine and menthol and provides anti-inflammatory and analgesic benefits at high doses in mice. In traditional Chinese medicine, frankincense (Boswellia carterii) is commonly used for topical treatment of pain and inflammation. A study carried out to investigate the antinociceptive and anti-inflammatory action of frankincense found three of its main componentes, linalool, α-pinene and 1-octanol, showed consistent evidence about their anti-inflammatory and analgesic effects. Studies have shown that α-pinene, β-caryophyllene and linalool up-regulate Nrf2 activity to protect cells from oxidative damage. Nrf2 (nuclear factor erythroid 2) is a transcription factor that is involved in cellular responses to oxidative damage and inflammation. S ee : Nrf2 Activators
Inhalation exposure to linalool in animals has been shown to significantly decrease pain response. Additionally, linalool has been associated with decreased morphine opioid use after inhalation in a study of post-operative pain with gastric banding in morbidly obese surgical patients. Linalool acts on neurogenic and inflammatory pain, and that its antinociceptive effect could be related to reduced peripheral and central nerve excitability. It is believed that linalool’s analgesic benefits are related to possible inhibition of substance P release or blocking effect on its receptor neurokinin-1 (NK-1).
Ingestion of linalool for use in the treatment of painful and inflammatory disorders appears to be limited due to poor oral availability. Interestingly, oral linalool has been found to be effective for anxiety and relaxation.
Linalool – Antioxidative Activities
Linalool has been traditionally used for medicinal purposes due to its potent antioxidative activities. Linalool decrease ROS as well as improve mitochondrial function and morphology through different pathways , directly reducing the cell death rate due to oxidative stress.
Recent research suggests that linalool may also have activity in triglyceride metabolism to improve dyslipidemia by reducing lipid peroxidation levels and plasma triglyceride concentrations.
β-Caryophyllene is one of the most common terpenoids found in cannabis and is frequently the predominant terpenoid overall in cannabis extracts, particularly if they have been processed under heat for decarboxylation. In nature, β-caryophyllene is usually found together with small amount of its isomers α-caryophyllene and γ-caryophyllene or in a mixture with its oxidation product, β-caryophyllene oxide. Described as earthy and peppery, Caryophyllene is also found in black pepper (Piper nigrum), Copaiba balsam (Copaifera officinalis), clove, cinnamon, oregano, basil, hops and rosemary. Cannabis strains with prominent amounts of Caryophyllene include Super Silver Haze, Skywalker and Rock Star.
Some consider β-Caryophyllene to be a cannabinoid because it strongly binds to CB2 receptors as a functional agonist. The CB2 receptor is the peripheral receptor for cannabinoids, which is mainly expressed in immune tissues and has been shown to modulate immune cell functions and it has been suggested that the CB2 receptor mediates anti-inflammatory responses induced by β-caryophyllene. Carophyllene does not bind to CB1.
Our understanding of the therapeutic benefits offered by Carophyllene is based almost entirely on laboratory (in vitro) and animal studies. The anti-inflammatory properties of BCP have been extensively shown in different mouse models of disease. Carophyllene may help with pain and is proposed to reduce inflammation by reducing levels of IL-1β, IL-6, through activity at prostaglandin PGE-1 and at the NLRP3 inflammasome. Studies have also shown that β-Caryophyllene up-regulates Nrf2 activity to protect cells from oxidative damage. Nrf2 (nuclear factor erythroid 2) is a transcription factor that is involved in cellular responses to oxidative damage and inflammation. See: Nrf2 Activators.
Carophyllene is also thought to be effective against neuroinflammation by reducing activity of glial cells.This compound is often used in topical anti-inflammatory ointments and salves. β-Caryophyllene’s anti-inflammatory activity is comparable in potency to phenylbutazone, etodolac and indomethacin. In contrast to NSAIDs, however, caryophyllene protects the stomach lining and has been claimed to be effective in treating duodenal ulcers in the United Kingdom. It has been suggested to help relieve muscle spasms and there is some evidence for benefit in alcohol addiction and depression.
Early animal research in rats/mice have identified β-caryophyllene (BCP) as a selective full agonist at the cannabinoid receptor type 2 (CB2). It has been shown to exhibit analgesic effects in mouse models of inflammatory and neuropathic pain. CB2 receptors have been implicated in anxiety and depression disorders, and caryophyllene has shown anxiolytic and antidepressant-like effects.
Alcohol and Cocaine Abuse
Research also suggest that CB2 receptors play a major role in alcohol reward and the CB2 receptor system may be involved in alcohol and cocaine dependence via modulation of dopamine reward pathways. In mice, β-caryophyllene has been shown to reduce voluntary alcohol intake as well as decrease cocaine self-administration. It may therefore represent a potential pharmacological target for the treatment of alcohol and cocaine abuse.
Caryophyllene: Paclitaxel-induced Peripheral Neuropathy (PINP)
Painful peripheral neuropathy is a common side effect of paclitaxel (PTX), a chemotherapy medication used to treat a number of types of cancer. However, currently employed analgesics have several side effects and are poorly effective. β-caryophyllene (BCP), a selective CB2 agonist, has shown analgesic effect in neuropathic pain models, but its role in chemotherapy-induced neuropathic pain is not yet known. A 2017 study in mice receiving PTX indicated that BCP reduced nerve pain sensitivity to mechanical stimulation (allodynia) induced by the PTX possibly through CB2-activation in the CNS and inhibition of inflammatory cytokines. These results suggest that BCP might be useful in treating the nerve pain associated with PINP.
Caryophyllene: Multiple Sclerosis
Multiple sclerosis (MS) is a severe inflammatory demyelinating disease of the central nervous system (CNS). It affects over two million people worldwide although the cause of MS is not completely understood. However, studies with MS patients suggest that the demyelination associated with MS in the CNS results from a T cell-mediated autoimmune response. Due to growing research indicating that some of the constituents found in cannabis possess anti-inflammatory properties and may suppress certain functions withing the immune response, research is focusing on cannabis use to treat MS.
In an investigation published in 2017 to evaluate the therapeutic potential of BCP in an experimental animal model of multiple sclerosis (MS), it was found that BCP significantly reduces both the clinical and pathological features of the animal model. The mechanisms underlying BCPs immunomodulatory effect appears to be linked to its ability to inhibit microglial cells, CD4+ and CD8+ T lymphocytes and pro-inflammatory cytokines. Furthermore, it reduce axonal demyelination through the activation of CB2 receptor. The study has important implications for clinical research and strongly supports the effectiveness of BCP as a possible molecule to target in the development of effective treatment for MS.
Despite its promising biological activities, β-caryophyllene is characterized by high lipophilicity and poor solubility in water-based media such as biological fluids, which limits its bioavailability and absorption into cells. The poor solubility of this terpene in aqueous fluids can hinder its uptake into cells, resulting in inconsistent therapeutic effects, thus limiting its application. β-caryophyllene’s absorption is good when it is delivered in an oil-based medium but new products are being developed in which the β-caryophyllene is enveloped in a fatty layer (liposomal) to enhance its bioavailabity when delivered in aqueous media.
Humulene (α-caryophyllene) is an isomer of β-caryophyllene and plays a significant role in many of the distinguishing characteristics between different cannabis strains like White Widow, Headband, Girl Scout Cookies, Sour Diesel, Pink Kush and Skywalker OG. It is also found in herbs and spices such as hops, clove, basil, sage, ginger, spearmint, and ginseng as well as some fruits and vegetables. It has strong anti-inflammatory properties comparable to dexamethasone systemically, topically, as well as analgesic properties. There are anecdotal reports that it causes weight loss and appetite suppression and is often promoted for weight-loss as an appetite suppressant. Humulene is also said to have analgesic and anti-bacterial properties.
Pinene is one of the most most commonly occurring terpene in nature. It is found in pine needles, conifers, and many herbs such as parsley, rosemary, basil, and dill. Pinene is found in cannabis strains like Jack Herer, Strawberry Cough, Blue Dream, Island Sweet Skunk, Dutch Treat and Romulan. Extensively investigated for its medicinal properties, alpha-pinene has been found to have sedative, hypnotic, and anxiolytic properties along with significant anti-inflammatory and analgesic benefits. Pinene also plays an insect-repellent role in plants and is a bronchodilator in humans at low exposure levels, suggesting benefit in asthma. It is an acetylcholinesterase inhibitor that may reduce short-term memory impairment from THC. Claims have been made that it improves a person’s ability to focus their attention as well as to reduce perception of stress.
Anti-inflammatory and Analgesic Effects
As noted above, pinene is one of the dominant terpenes found in cannabis strains known to benefit chronic pain. Alpha-pinene’s anti-inflammatory and analgesic benefits take place through inhibition of COX-2.
Essential oils have been evaluated for their inhibitory activity against SARS-CoV replication in the lab. L. nobilis oil, containing beta-ocimene, 1,8-cineole, alpha-pinene, and beta-pinene as the main constituents appears to have antiviral activity against SARS-CoV. Pinene also acts as a broad-spectrum antibiotic and has also been shown to have prominent activity against antibiotic-resistant staph bacteria (MRSA). These properties likely contribute to the disinfectant properties of Pine-Sol, ® a multi-surface cleaner.
Studies have shown that α-pinene, β-caryophyllene and linalool up-regulate Nrf2 activity to protect cells from oxidative damage. Nrf2 (nuclear factor erythroid 2) is a transcription factor that is involved in cellular responses to oxidative damage and inflammation. See: Nrf2 Activators
Pinene is anti-inflammatory via prostaglandin PGE-1 and its antioxidant and anti-inflammatory effects in human chondrocytes (cartilage cells), suggests potential benefit in arthritis. It is thought to have analgesic benefits as well.
Related to α-pinene, β-Pinene is another important monoterpene present in different strains of Cannabis. β-pinene has antimicrobial and antioxidant activity. It also may have antidepressant-like and sedative-like properties. The mechanisms for these benefits are unknown but theorized to be related to the serotonergic adrenergic and/or dopaminergic systems.
Carene (Delta 3-Carene)
Delta 3-carene (Carene) is a terpene found in basil, bell peppers, rosemary, and cannabis that promotes the drying up of excess liquid and has anti-inflammatory effects. Side effects often associated with this terpene are dry mouth and red eyes. Carene has a pungent and pleasant earthy aroma that is piney in resemblance. This terpene is thought to stimulates memory and help memory retention.
Also known as cineole, eucalyptol is the primary terpene of the eucalyptus tree. It is also found in tea tree, rosemary, sweet basil, wormwood, tea trees, mugwort, bay leaves and common sage. Most cannabis strains do not contain large amounts of eucalyptol, usually only making up around 0.06% of a strains complete terpene profile. Eucalyptol can be found in the cannabis strains Super Silver Haze and Headband.
It has been proposed to improve memory and cognitive learning and because of its cholinesterase inhibitory activity, it has potential for use in Alzheimer’s disease and protection against amyloid beta-induced inflammation. Eucalyptol has antioxidative, anti-inflammatory and analgesic properties and has been suggested as a potential long-term therapy in the prevention of COPD exacerbations and asthma and inflammatory bowel disease. It helps treat nasal and sinus inflammation and secretions and is used as a nasal decongestant and cough suppressant.
Terpinene is considered an anti-inflammatory, antimicrobial, analgesic, and anticancer agent.
Terinolene can be found in apples, cumin and lilac. It is purported to be sedating and calming, often found in cannabis indica.
Terpineol is found in pine trees, lilacs, eucalyptus, and lime blossoms, and has a pleasant scent, similar to lilac, and is a common ingredient in perfumes, cosmetics, and flavors. Terpineol can be found in Girl Scout Cookies, Jack Herer, and OG Kush strains. Animal and preclinical studies sugges it has anti-inflammatory, analgesic and antioxidant properties and it may have anxiolytic and sedative effects. There is no evidence that terpineol interacts with CB receptors.
Nonetheless, terpineol shows different pharmacological properties that include analgesic, antifungal, anti-inflammatory, and antidiarrheal. Terpineol has been investigated in different animal models of pain and research suggests that terpineol may have analgesic benefit by activation of descending inhibitory pain system. Its analgesic effect is reversed by naloxone (opioid antagonist), and ondansetron (5-HT3 serotonin antagonist) suggesting multiple modes of action. Terpineol has been demonstrated to be a safe and effective drug for control of sarcoma-induced cancer pain in mice.
Regarding it anti-inflammatory properties, terpineol has also been investigated for the treatment of allergic inflammation and asthma. Terpineol decreases leucocyte migration and TNF levels and suppresses the production of inflammatory mediators (e.g., NF-κB, p38, ERK, and MAPK signaling pathways) in human macrophages.
Terpineol properties go beyond the above. It has been shown to have bactericidal and antifungal properties and strong anti-proliferative activity on cancer. Terpineol is a versatile compound with a wide variety of beneficial effects which could lead to the development of new antibiotics, antifungal, and anticancer agents.
Nerolidol (trans-nerolidol) is a secondary terpene found in many herbs and spices including lavender, lemon grass, ginger, jasmine, tea tree, oranges, and it is present at low levels in the peels of citrus fruit. Cannabis strains like Island Jack Herer, Sweet Skunk, and Skywalker OG are rich in nerolidol. Nerolidol has sedative properties and is useful in insomnia. The mechanism of action for proposed analgesic activity of trans-nerolidol involves the GABAergic system, but not the opioidergic system.
Alpha-bisabolol (α-bisabolol, bisabolol, levomenol)
Alpha-bisabolol (also known as levomenol and bisabolol) has a pleasant floral aroma and can also be found in chamomile flowers. This terpene is used primarily in the cosmetics industry, but the pharmacological attributes of α-bisabolol include wound healing, gastroprotection, antitumor, antioxidant, analgesic and anti-inflammatory properties. While animal and preclinical studies support the folk use of herbs and plants containing bisabolol for pain and inflammation, human studies are lacking. Alpha-bisabolol can be found in cannabis strains like Harle-Tsu, Pink Kush, Headband, OG Shark, and ACDC.
Commercial terpene products are availabe for use as supplements to be used independently or in combination with cannabis-based products, including THC and CBD. Some companies promote their products by claiming the constituents in their terpene products are mixed to simulate the same terpene blends of specific cannabis strains. Upon investigation, it was not possible to find on their website evidence to confirm their claims regarding their blends, probably to protect their proprietary interests. Links to some of these products are available here for educational purposes but are not meant to recommend or endorse the products. It should also be emphasized that these terpene products do not contain THC, CBD or other cannabinoids.
In addition to commercial terpene products, there are many CBD products that contain terpenes. CBD products with terpenes are labeled as “broad spectrum” when the constituents have no THC and “full spectrum” when they contain THC at levels up to a 0.3%. Unfortunately, CBD products rarely identify their specific terpenes and their concentrations, again, probably to protect their proprietary interests.
Accurate Education – Marijuana (Cannabis): Terpenes – An Overview Terpenes Cannabis is very aromatic, with different strains having their unique scents. Some people find the smell of