Education

The place can you discover phytocannabinoids apart from hashish? – firebird-cbdoil

the-place-can-you-discover-phytocannabinoids-apart-from-hashish-firebird-cbdoil

With all this attention to various cannabinoids and their medicinal uses, the new question arises where else they can be found. The answer seems to be that there is an abundance of phytocannabinoids in nature!

CBD – cannabidiol – is one of many phytocannabinoids that are generally associated with the cannabis plant. Similar to its counterparts THC (tetrahydrocannabinol), CBN (cannabinol), CBG (cannabigerol) and CBC (cannabichromene), CBD has been the subject of intensive medical research on various properties.

Researchers are studying their ability to help with depression, sleep disorders, anxiety, and pain to deal with inconsistent blood sugar, cholesterol, addiction, digestive, cancer, and so on. There are so many uses and uses for these cannabinoids that it's astounding.

Given all this attention to cannabinoids and the fact that they are a better option for many problems than traditional pharmaceutical treatments and often have fewer side effects (think of phytocannabinoids as an alternative to pain relievers such as opiates that wreak such havoc) American people, who have passed all new laws to curb the growing addiction problem, understandably ask where else it can be found. And what about similar connections, where can they be found, and how can they be useful?

When you think about this topic and go through the research, you should first remember that it is plant medicine and not pharmaceutical medicine. In plant medicine – or naturopathy – it is already known that the same or similar compounds occur in several places, since plants of different families are often structurally similar. That cannabinoids can be found elsewhere is not a one-off occurrence in the world of plant medicine, but a very real expectation.

Click here or subscribe to the Medical Cannabis Weekly Newsletter using the registration form.

Research says …

In this 2010 cannabinoid study, available elsewhere, investigators first examined the definition of a cannabinoid to determine what they were looking for. At that time, the definition was that it was "the terpenophenolic constituents of Cannabis sativa L", which until recently were the only known molecules that interacted directly with cannabinoid receptors and were only found in the cannabis plant.

In recent years it has been found that other non-cannabinoid plants have components that also interact with these receptors. Based on these findings, the researchers in this study used this definition for phytocannabinoids: "Any natural plant product that can either interact directly with cannabinoid receptors or that is chemically similar to phytocannabinoids, or both." The general term when a compound is similar to one Cannabinoid without actually being a cannabinoid is cannabimimetic.

The researchers examined various compounds in this study. Here are some basic findings:

  • Fatty Acid Derivatives – Although it was already known that some plant compounds such as N-acylethanolamines do not interact with cannabinoid receptors, they have been shown to have other effects, which in turn have been shown to affect the endocannabinoid system and thus an indirect one Establish connection. Compounds found in foods such as chocolate and herbs such as Echinacea have been found to contain compounds with this indirect effect. This led the researchers to conclude that certain dietary fatty acids that are also found in plants can modulate ECS by affecting the availability of phospholipid biosynthetic precursors of endocannabinoids. “These compounds are not phytocannabinoids as we generally think, but they can indirectly affect the endocannabinoid system.
  • Terpenes – One of the most interesting is β-caryophyllene, which is found in the essential oils of cloves, rosemary, hops, black pepper and cannabis and has been shown to target CB2 receptors selectively. In the test, this compound showed high anti-inflammatory and analgesic properties in mice. Another salvinorin A found in Salvia may interact with cannabinoid receptors, which can form under inflammatory conditions.

The researchers in this study found that while they did not find as many compounds in nature that can activate CB1 receptors, they found a large amount that interacted with CB2 receptors. This implies that while the psychomodulatory effects in nature are less easy to identify, the therapeutic benefits associated with CB2 receptors (pain relief, anti-inflammatory, etc.) are easier to find.

A study conducted in 2012 looked at flax fibers and found a new terpenoid compound about which nothing was previously known. While flaxseed and linseed oil have been examined fairly closely, the fiber has only recently been discovered. The new compound found was described as cannabinoid-like, with the closest comparison being CBD. This compound has been found to affect anti-inflammatory responses in mice and fibroblasts (which form connective tissue) in humans.

The new findings suggest that flax is a source of biologically active compounds that are similar to phytocannabinoids and can have a positive effect on the immune response. The implications are interesting in that CBD is not harmed even in the industrial tissue manufacturing process, and these connections don't appear to be paving the way for the use of flax in wound dressings.

A study was carried out in 2017 that examined the relationship between omega-3 fatty acids and cannabinoids. Although we know that omega-3 fatty acids are not actually cannabinoids, this research suggests a variety of chemical processes that convert omega-3 fatty acids internally to endocannabinoids (naturally produced cannabinoids in the body). inflammatory aspects of omega-3 acids. Research in general shows that omega-3 fatty acids can have the same medicinal effects as marijuana, but without the high.

When you look at this topic, research actually goes back further than expected. A study of the South African flowering plant family Helichrysum was carried out as early as 1979. The study found eleven resorcinol derivatives, most of which were closely related to CBG (cannabigerol). Resorcinol is an organic compound found in plants that can be made from resin or made synthetically. The discovery of the CBG-like compounds was surprising for the researchers, who at the time assumed that at least some of them were formed by a combination of different biological processes.

Another plant that is common in research is liverwort. In fact, after a 2002 investigation into New Zealand liverwort (Radula marginata), a new cannabinoid type called perrottetinic acid and the well-known cannabinoid perrottetine were found. Perrottetinenic acid is structurally more similar to THC. It is the first time that such compounds have been isolated from Radula marginata, although similar cannabinoids have already been found in closely related Radula perrottetii.

While chocolate was briefly mentioned earlier, it deserves a slightly stronger mention here. The study, which received a lot of reference on this subject, was carried out in 1996 and nothing new is available. In this special study, the researchers were able to isolate anandamide from the chocolate. Anandamide is a lipid that binds to cannabinoid receptors and mimics the psychoactive effects. In fact, it is generally believed that chocolate can increase the effects of marijuana for this reason. Indeed, this could explain the often-felt craving for chocolate. An implication of this finding is that chocolate can reduce the amount of cannabis that a person needs medically.

Anandamide – The bliss molecule of the endocannabinoid system

Speaking of anandamide: chocolate is not the only place in the flora where it occurs. Another plant producer of this compound are truffles. A 2014 study found that truffles depend on melanin to ripen their reproductive elements. The scientists were aware that anandamide is responsible for melanin synthesis in normal human skin and may be present in truffles. They confirmed this assumption and also found metabolic enzymes from the endocannabinoid system.

One of the more interesting implications of this research is that the endocannabinoid binding receptors may have evolved after the metabolic enzymes anandamide and endocannabinoid, and that in ancient times anandamide may have been used by plants to attract truffle eaters that already had an endocannabinoid system.

Where should you get your cannabinoids from?

The world of cannabinoids is much bigger than just cannabis or CBD. In fact, it will be entirely possible for interested people to improve in the future without consuming any part of the cannabis plant. If we continue to search for cannabinoids and cannabimimetics, we will surely keep you updated on the best possible applications and products.

Until the product market keeps pace with medical research, it's best to buy high quality CBD oils, CBD flowers, CBD isolates and other relevant CBD products and phytocannabinoids.

For more articles like this, subscribe to the Medical Cannabis Weekly Newsletter.

Die Post Apart from cannabis, where else can you find phytocannabinoids? first appeared on CBD testers.

0 Comments
Share

Fire76Bri45