This article claims that THC does the exact opposite of what it says it does. If you want to stay in a THC-detoxed state, do not take THC. To ensure that your body gets all the benefits from THC, drink lots of water and stay away from alcohol. Drugs like cocaine and heroin block dopamine from binding with receptors because dopamine is released faster than it can bind to them. Therefore, using drugs like cocaine and heroin will increase your neurotransmitters, including serotonin and norepinephrine, which are associated with good moods and relaxation.
When people use drugs like marijuana, they get the opposite effects of what they desire because marijuana blocks dopamine from binding with its receptors in your brain. If you use marijuana and want to stay in a thc detox kit state, you would like to take it before you eat or drink anything.
The article also says that getting high is the opposite of what the drug does to your brain. When users try to get high by smoking cannabis and inhaling it through their lungs, their blood vessels are constricted, so blood cannot easily flow and reach their brains. This results in a decreased supply of serotonin, resulting in negative thoughts and depression.
THC’s dosage and mechanism of action remain a topic of much scientific debate, and the procedure by which it enters the brain is even less well understood. Previous research had suggested that the key to the psychoactive effect of tetrahydrocannabinol (THC) lay in an interaction between THC and metabolites formed in the body, with or without metabolic activation by enzymes.
However, a recent study published in “The Journal of Medicinal Chemistry” suggests that blood plasma levels are not necessarily correlated with mental health effects induced by THC.
The study shows that when blood levels of THC and other metabolites are low, they are not associated with the psychoactive effects. Conversely, high blood levels have no effect.
This research provides further evidence that the mental health effects of cannabis use are due more to the properties of THC itself than related to changes in blood plasma levels.
The role of other cannabinoid metabolites is currently poorly understood – in particular, their possible interactions with the binding of cannabinoids to cannabinoid receptors in the brain.
