Ganja Vibes Blog

Hemp is suppose to be on our planet

"If it wasn't supposed to be here, then the big guy wouldn't have put it here, hemp is supposed to be on earth." ~Willie Nelson http://youtu.be/k6tA3HxA9oQ

The Cannabinoid System

Dr. Robert J. Melamede Ph.D. Chairman of the Biology Department of the University of Colorado: Conducting Scientific research on Cannabinoids The Cannabinoid System has been around for over 600 million years. Before the Dinosaurs. The Cannabinoid System is continuously evolutioning and has been retained by all new species. Food and feeding is at the heart of the Cannabinoid System. 1. Cannabinoids are in every living animal on the planet above Hydra and Mollusks, with the exception of insects. Bodies are homeostatically maintained by the Cannabinoid System. 2. Mothers give their babies a booster shot of cannabinoids in mothers milk to give them the munchies because they have to learn to eat. (they've been fed thru the umbilical cord and did not have to know how to eat.) 3. Mice lacking the CB1 receptors don't like any changes. If they are moved to another part of the cage they act upset and when they are put back to the original spot in the cage they relax, but if then put into another part of the cage they get upset again. Comment: I wonder if people, especially drug warriors, had their CB1 receptors blocked then they would resist change and the ones of us that have unblocked CB1 receptors enjoy the benefits of cannabinoids are a lot more relaxed and not paranoid about or over change. Interesting thought. It turns out that that thought is absolutely correct. Many people' brains are not capable of a good connection to the CB1 CB2 receptors. 4. All new species utilize cannabinoids. 5. By being alive and breathing air our bodies produce "free radicals". Cannabinoids help to reverse this action. 6. Cannabinoids do kill brain cells, but the brain cells they kill are called "Glioma" or Cancer of the brain (Tumor). All other brain cells are protected and healed by cannabinoids. (Glioma cells cannot tolerate the action of cannabinoids) 7. Cannabinoids protect against sunburn and skin cancer because of the CB1 receptors in our skin. 8. Cannabinoids slow down the aging process. Mice that their brains respond to cannabinoids live longer and mice that have brains that block the CB1 receptors die younger. 9. Activity in the evolutionary advanced areas of the brain is increased in cannabinoids receptors and promotes higher consciousness levels. 10. Cannabinoids are even found in the white blood cells (CB2 receptors). The CB2 receptors are found predominantly on immunological cells and regulate the shift in the immune system to the anti-inflammatory mode. 11. Cannabinoids protect the heart against Arythmia. 12. The way it works on pain is there is specific nerves that deal with pain. They are called vanilloid-Receptors. Anandamide (sanscript word for "Blissful Amide"), the bodies internally produced marijuana binds with the nerve endings, reducing pain. Anandamides are produced internally by our bodies in response to a whole variety of conditions. As an example, Aspirin prevents the breakdown of Anandamide, the internally produced marijuana to activate & start working at easing pain. How many old lady's say they "WOULD NEVER" use marijuana & are actually using the equivalent of marijuana that their bodies produce as a natural activity, & don't even realize it. And how many politicians and citizens of the US do this also & aren't even aware they are condemning something that their bodies make naturally. Anecdotal evidence is valid because when a person smokes marijuana & it relieves their pain, then they smoke it again & it relieves their pain again it becomes a fact known only to that person, but nonetheless true. 13. In the case of most autoimmune diseases, the bodies immune cells produces free radicals & is destroying it's own body as a foreign object. Cannabis pushes the immune system into anti inflammatory mode & helps slow the progression of that disease, thereby slowing down the aging process. 14. Seizures are controlled by marijuana not only THC, but non-psychoactive cannabidiol.(CBD) The exact mechanism is not known, however HEMP is high in CBD's & can cancel out the psychoactive high of THC & at the same time benefits the user or smoker. Cannabinoids control everything in our bodies including our minds. 15. There are many other things that Cannabinoids do in the body, besides attaching to the CB1 and CB2 receptors, the main cannabinoid receptors in the higher part of our brain. Cannabinoids affect our skin and other parts of our bodies. 16. Pharmaceutical companies are working at sythesizing different cannabinoid components and different types of strains of marijuana. If they can succeed, then there will be more choices for you and I to choose from and we will be able to use what works best for our particular bodies. 17. The natural course for mankind, because of the location of our CB1 CB2 the brains main receptors, is to be more stoned. 18. Drug warriors are not doing what they are doing to us because they are intentionally evil, but because they are more primitive (obtuse comes to mind). They look at the world with fear and hostility not cooperativity and understanding. 19. According to a brain function study of 150 depressed people Cannabis protects the brain against healthy cell death and it also protects Neurons. 20. Cannabinoids dilate our brochial tubes and help asthsma sufferers to breath both in and out. Because of the balance that is maintained in our bodies for good health there are instances where it works backwards, where death is possible, if too much is smoked. This goes back to the effects of cannabinoids on individuals and if it doesn't work for you, you should not use it. There was some old studies that were done back in 1977 where "AEROSOLIZED THC" was used on patients. This is not what the government tells us when they say it's not medicine, but we are all familiar with the 7 government patients that are supplied marijuana to be used as medicine and we know the government is lying. 21. Natural pain eradication by cannabinol used by our receptors. 22. Cannabinoids control how we view the future. If you're loaded with bad experiences you're going to be fearful of the future. Lots of smoking of cannabinoids makes you want to be in the future. Lack of change vs embracing the future and changes. Conservative people might die prematurely, stressed, uptight and fearful (genocide). Open minded people and mice are able to change, whereas; people with defective receptors and knock-out mice (mice that have had their receptors removed) will keep going to the platform after it has been removed. They will be fearful of change. 23. Cannabinoids prevent and treat certain types of Cancer. Glioma (Brain Cancer) along with pheochromocytoma, skin cancer, prostate cancer, breast cancer, Lymphoma and Leukemia. Cannabinoids may prevent or cure cancer. Cannabinoids have a way of killing the bad cells and protecting the good ones. 24. Cannabis gives relief to Liver Disease & constant uncontrollable itching. Also, lack of sleep and depression and has been doing so for 600 million years. 25. THC in low doses relieves anxiety, while huge doses promote anxiety. (It's too strong like Marinol) Smoking marijuana relieves anxiety. Marijuana promotes sleeping better and normal persons when they are deprived of marijuana would have difficulty sleeping. (One other thing I'd like to add: When ingested, delta 9 THC, on the first pass thru the liver, changes into delta 11 THC. Five times as psychoactive and much longer lasting. I don't know how many people understand that. Ralph) 26. Cannabis protects nerve cells from dying thus protects against Altzheimers Disease. 27. Our bodies make up marijuana like compounds to make us hungry. (gives us the munchies) Then turn off those compounds & we don't have the munchies anymore when it has had enough food. The cannabinoid system first appeared 600 million years ago. Food & feeding is at the heart of evolution & the development of new species. 28. Head injuries cause the body to produce Endo-cannabinoids to protect itself as well as protecting the body against Nerve Gas. Marijuana turns on the bodies Protective Mode, because when you're hungry the body makes Cannabinoids to turn on your hunger. Cannabinoids turn on the expression of a Particular Gene (at the same time it prevents the expression of other Genes). How the Marijuana Receptors change the Integral Bio-Chemistry. Some of the Molecules that are involved or been studied in a Model Organism. There is a worm that people study alot. They have very simple Nervous Systems so you can define what exactly is going on. It turns out this one Particular Molecule regulates what is known as a Transcription Factor (It turns on the Expression of Genes.) It turns out that when you turn on the Expression of this Particular Gene of the Worm Model it actually promotes Mimicking a condition that actually Promotes Longevity of these worms. This Parallels what we've seen in mice. Because Marijuana exhibits Free Radicals so people who've been using Cannabis, Long Term, tend to Live Longer & Look Younger. Marijuana Promotes your Health by affecting your Nerve Cells, by Balancing your Immune System, by Reducing Fat Deposition in your Cardio-Vascular System. It looks as if it helps Burn the Synthesis of things like Cholesterol. 29. New research shows that the argument over outlawing cannabis because it "Causes Cancer" is no longer valid. There are Nicotine Receptors in your throat. There are no Cannabinoid Receptors in your throat. Cells have a Bio-chemical Program known as "APOPTOSIS". This Bio-chemical Program is activated when cells too damaged to repair themselves commit suicide. There is a Bio-chemical Pathway that controls that. Nicotine activates a path that protects the cells from dying. Smoking anything puts Carcinogens into your Air Passage-ways and Cardio-Vascular system. Cells that get damaged by smoke die and that's what you want to happen. Cells to die before they become Cancer Cells. 30. Cannabinoids modulate pain peripherally. In our bodies there are special kinds of pain receptors, known as Vanaloid receptors & they are sensitive to things like heat & excessive pressure & they are responsible for pain. It turns out that a natural regulator of that that down-regulates pain. The endocannabinoid known as Anandamide, the blissful amide, when you combine Sanskrit for ananda & amide for the chemical type. It's clearly known that cannabis can regulate pain, that's been done in numerous studies, but recently , as we learn more about the molecular mechanisms of pain & cannabinoid action what we have now learned is that there is a lot of crosstalk between the cannabinoid system & the morphine, the opioid system. The name of an article that just came out is called Chronic morphine modulates the contents of the endocannabinoid tuorachidonalglycerol in the rat brain. So, tuorachidonalglycerol is another endocannabinoid. We feel pain thru the sensory nerves that are telling us that we're in a painful situation & on the other hand we feel it within our minds because certain areas of our brain subsequently get tickled. What we are seeing now is that the cannabinoid system works both peripherally & centrally & what we are gonna talk about here is this new work that links the cannabinoids more with the opioids in that opioids & cannabinoids are among the most widely consumed drugs of abuse in humans & phenomena of cross-tolerations or mutual potentiation demonstrated between these two drugs. Some of the recent work on pain has come out of England as a result of work done by G.W. Pharmaceuticals which is a company that specializes in producing cannabis plants. They've developed different strains that have different ratios of the cannabinoids & those different plants have different properties. In the past I've mentioned Bi-Polar disorder. Some people who are Bi-Polar & are depressive find Sativa's are good to help elevate them & if they're in an elevated mood & in a manic state they have to be brought down alittle & the Indica's seem to be better for that & likewise they're different ratio's of these cannabinoids that are thought to benefit for example pain, more than others, that are thought to benefit auto-immune diseases. This is being worked out, but what I'd like to go into now is that some of the new links that seem to be occurring in this particular study that I just mentioned, what they are finding is that chronic administration of Opioids is in fact down-regulating the tuorachidonalglycerol which as mentioned, is one of the endo-cannabinoids. Interestingly the Anandamide level seem to be remaining the same, but this other one, tuorachidonalglycerol seems to be down-regulated. In knock-out mice, these are mice where a particular gene is missing, it turns out that you can eliminate alot of the withdrawal systems associated with opium if you have knocked out the receptors. When people go thru withdrawal, they get terribly nauseous & feel horribly sick, well, what we do know cannabinoids control nausea. That's why it's being used by people who are receiving Chemo-therapy or disorders where they are chronically nauseous. Cannabinoids can be very effective for that. So what we are seeing is that morphine turns down the Endogenous cannabinoid Arachidonic acid & that seems to be involved in some of the addictive behavior & this is kind of interesting because we know that cannabinoids themselves other than very twisted circumstances do not show addictive behavior. On the one hand we have the cannabinoid potentiating the morphine, in that people who need morphine for pain can often use 50% of what they normally use by including cannabinoids & on the other hand, we're seeing that the cannabinoid receptor system is involved in addiction & I mentioned a long time ago, that cannabinoids can be beneficial for some people in their attempt to withdraw & now we're seeing support for that in that chronic morphine administration is turning off one of the cannabinoids that's in turn, turning on some of the withdrawal systems. 31. Cannabinoids represent a general class of chemicals, not just cannabis & THC in plants, but rather also cannabinoids that are produced in our bodies. These happen to be Lipid compounds that result from burning & making fats. The thing that is so unique about this system represents how it works so broadly for various health reasons. That is that every single system in our bodies & by system I mean our nervous system or digestive system or reproductive system or immunological system or endocrine system, you name it & the cannabinoids are involved in maintaining what's known as homostasis balance. We need to have the right amount of these components of this system which includes the compounds like THC which is better known as Lygan. They bind to specific receptors & then they are broken down by another enzyme that breaks down these things. So, we have a whole network of bio-chemistry that's influencing everything in our bodies. The question that arises is that the whole is always greater than the sum of its parts. The system, the cannabinoid system influencing everything in our bodies & the question is what are the nature of the wholes? What are the greater pictures that emerge out of this cannabinoid systems activity. So we see, for example, regulating reproductive system, digestive system, immune system & when they are all working together in a way that is concertedly modulated by the cannabinoid system what can we expect to see, & I would suggest that what's represented by the influences of cannabinoids & cannabis on our mind, in that it opens up our minds to new ways of thinking, it free's us from being stuck in a single track of thinking & that's exactly the kind of thought processes that are required as we move into the future which is generally composed of the unknown. What the cannabinoid system is doing is giving us a way to peacefully & lovingly adapt to change & be open to change. We see in these mice that we can knock-out the cannabinoid system that they are afraid of change. The implications of this are really profound if in fact we have people that are shifted one way or the other in terms of their ability to modulate & accept change that is of profound importance because we see people that are afraid to look forward, happily embracing the future. There are health ramifications for all of this. The cannabinoid system can help us with cardio-vascular disease where it reduces infarctsize with auto-immune diseases where it helps ameliorate & prevent the development of a whole variety of auto-immune diseases including things like arthritis, multiple sclerosis, diabetes, crones disease & it's also involved with, as a natural regulator of our pain. So we have this holistic medicine that's influencing so many things & I forgot to mention that it regulates our memories & mental pains & in fact, regulates alot of life/death decisions in our cells, nerve cells in particular, which is why it's so beneficial for neurological disorders often associated with the aging, such as Alzheimer's disease. What we're seeing is a holistic medicine & again it has to be used appropriately, too little is no good, & we may be making enough. Individuals may be making enough, but there could be many many people who are not making enough or their system is not active enough who will be able to benefit from the use of cannabis & other cannabinoids. To regulate all of the things we've mentioned that it regulates. So, we've got a holistic health program. To find the balance that's required for our optimum health is something that's totally built into the cannabinoid system. Therefore, it should be readily available to use wisely.

Tetrahydrocannabinol

Tetrahydrocannabinol, also known as THC, Δ9-THC, Δ9-tetrahydrocannabinol (delta-9-tetrahydrocannabinol), Δ¹-tetrahydrocannabinol (using an older numbering scheme), or dronabinol, is the main psychoactive substance found in a variety of plants; most abundantly so in the Cannabis plant. It was isolated by Raphael Mechoulam and Yechiel Gaoni from the Weizmann Institute in Rehovot, Israel in 1964. In pure form it is a glassy solid when cold and becomes viscous and sticky if warmed. THC has a very low solubility in water, but a good solubility in most organic solvents such as ethanol or hexane. As in the case of nicotine and caffeine, THC's most likely function in Cannabis is to protect the plant from herbivores or pathogens [1]. THC also possesses high UV-B (280-315 nm) absorption properties, protecting the plant from harmful radiation. Pharmacology Its pharmacological actions are the result of its binding to the cannabinoid receptor CB1, located in the brain. The presence of these specialized receptors in the brain implied to researchers that endogenous cannabinoids were manufactured by the body, so the search began for a substance normally manufactured in the brain that binds to these receptors, the so-called natural ligand or agonist, leading to the eventual discovery of anandamide, 2 arachidonyl glyceride (2-AG) and other related compounds. This story resembles the discovery of the endogenous opiates (endorphins, enkephalins, and dynorphin), after the realization that morphine and other opiates bound to specific receptors in the brain. THC has analgesic effects that, even at low doses, causes a "high", and medical cannabis can be used to treat pain. Other effects include: relaxation; euphoria; altered space-time perception; alteration of visual, auditory, and olfactory senses; disorientation; fatigue; and appetite stimulation. It also has anti-emetic properties, and also may reduce aggression in certain subjects. Toxicity According to the Merck Index, 12th edition, THC has a LD50 value of 1270 mg/kg (male rats) and 730 mg/kg (female rats) administered orally dissolved in sesame oil. If this were scaled up to an adult human, the LD50 would be between approximately 50 and 86 g for a 68 kg (150 lb) female or male person respectively. This would be equivalent to 1-1.8 kg of cannabis with a 5% THC content (roughly average) taken orally. The LD50 value for rats by inhalation of THC is 42 mg/kg of body weight. It is important to note, however, that toxicity studies in animal models do not necessarily correlate to human toxicity. THC receptor distribution in the rat CNS is different from that of humans, meaning that there is the significant possibility that toxicity in humans varies from the published animal LD50 studies. There has never been a documented fatality from marijuana or THC overdose. Absorption is limited by serum lipids which can become saturated with THC, thus the inherent solubility may mitigate toxicity. Studies of the distribution of the cannabinoid receptors in the brain explain why THC's toxicity is so low (i.e., the LD50 of the compound is so large): parts of the brain that control vital functions such as respiration do not have many receptors, so they are relatively unaffected even by doses larger than could ever be ingested under any normal conditions. Research A number of studies indicate that THC may provide medical benefits for cancer and AIDS patients by increasing appetite and decreasing nausea. It has been shown to assist some glaucoma patients by reducing pressure within the eye, and is used in the form of cannabis by a number of multiple sclerosis patients to relieve the spasms associated with their condition. Studies also indicate a variety of negative effects associated with constant, long-term use, including short-term memory loss. However, other studies have refuted this, claiming the MRIs of long term users show little or no difference to MRIs of the non-using control group. Although using positron emission tomography (PET), at least one study indicates altered memory-related brain function in marijuana users . The long-term effects of THC on humans have been disputed because its status as an illegal drug makes research difficult. Preliminary research on synthetic THC has been conducted on patients with Tourette syndrome, with results suggesting that it may help in reducing nervous tics and urges by a significant degree. Animal studies suggested that Marinol and nicotine could be used as an effective adjunct to neuroleptic drugs in treating TS. Research on twelve patients showed that Marinol reduced tics with no significant adverse effects. A six-week controlled study on 24 patients showed the patients taking Marinol had a significant reduction in tic severity without serious adverse effects. Seven patients dropped out or had to be excluded from the study, one due to adverse side-effects. More significant reduction in tic severity was reported with longer treatment. No detrimental effects on cognitive functioning and a trend towards improvement in cognitive functioning were reported during and after treatment. Marinol's usefulness as a treatment for TS cannot be determined until/unless longer controlled studies on larger samples are undertaken. Recent research has shown that many adverse side effects, generally known as the "stoner" stereotype, fail to hold up to the scientific method. Recent studies with synthetic cannabinoids show that activation of CB1 receptors can facilitate neurogeneration, as well as neuroprotection, and can even help prevent natural neural degradation from neurodegenerative diseases such as MS, Parkinson's, and Alzheimer's. This, along with research into the CB2 receptor (throughout the immune system), has given the case for medical marijuana more support. In in-vitro experiments THC at extremely high concentrations, which could not be reached with commonly consumed doses, caused inhibition of plaque formation, the cause of Alzheimer's disease, better than currently approved drugs.[8] THC may also be an effective anti-cancer treatment, with studies showing tumor reduction in mice, conducted in 1975.[9] Chemical name (−)-(6aR,10aR)-6,6,9-trimethyl- 3-pentyl-6a,7,8,10a-tetrahydro- 6H-benzo[c]chromen-1-ol Chemical formula C21H30O2 Molecular mass 314.46 g/mol Glass transition 9.3 °C Boiling point 155-157 °C (vacuum, 0.07 mbar) Solubility (water) 2.8 mg/L (23 °C) Solubility (saline) 0.77 mg/L (NaCl, 0.15 M) pKa 10.6 log P 3.78 (water @ pH 7 / octanol) CAS number 1972-08-3