Whether you’ve ever wondered what Cannabichromene is or would like to know more about its common uses and how it interacts with our bodies, this article will give you a better understanding of this chemical. Learn about its bioavailability and interactions with the body’s endocannabinoid system.
Common Uses
One of the most essential cannabinoids in the cannabis plant is cannabichromene. While not fully understood, cannabichromene shows promise as a treatment for inflammation and pain and may help treat neurodegenerative conditions. It acts in tandem with the other cannabinoids in the plant and may enhance their effects. However, additional study is required to establish the exact effects of this compound.
In animal studies, CBC benefits the central nervous system (CNS). The compound showed beneficial effects on neural stem progenitor cells (NSPCs) in these studies. These cells differentiate into astroglial cells, essential for maintaining central nervous system (CNS) homeostasis and defending the central nervous system. Healthy astroglia counteracts various dangers to the CNS and prevents inflammation and hypoxadative brain injury. Studies have also suggested that CBC may have applications as an antibacterial agent. Its antibacterial activity may help inhibit the growth of MRSA and other microorganisms.
Another benefit of cannabichromene is its anti-depressant properties. It has been shown to reduce the activity of tumor cells by activating cell death. Its neuroprotective action is helpful for cancer patients as it inhibits the growth of tumors. It also interacts with anandamide, an endocannabinoid produced by the body, allowing it to stay in the bloodstream longer. You can buy cannabichromene wholesale or in small quantities. These are controlled substances, and they are available in the market.
Interactions With the Body’s Endocannabinoid System
There is a growing body of research about the potential therapeutic effects of cannabis and its interactions with the body’s endocannabinoid system (ECS). The ECS is a group of receptors on the cell’s surface that interact with specific cannabinoids. These receptors are like tiny locks that receive signals from the body and communicate them to other cells. They are activated by agonists, substances that can bind to these receptors. They can send signals to cells and relay instructions. While the ECS comprises several different receptors, the CB1 and CBS receptors respond to cannabinoids differently.
The primary function of endocannabinoids is to regulate homeostasis or the body’s internal environment. It facilitates intercellular communication between cells and calms neighboring immune cells. It also inhibits the release of pro-inflammatory substances.