- Open Daily at 10am
- Call Ahead for Curbside Pickup
“Put Yourself First Aid Kit” contains two Charlotte’s Web products for practically the price…
“Put Yourself First Aid Kit” contains two Charlotte’s Web products for practically the price of one! Inside the kit you will find one 17mg 30ml Mint Chocolate Extract AND one 60ct Calm Gummy
What Are The Health Benefits of CBD?
CBD is used by consumers for a wide-range of health issues including stress, anxiety, sleep disorders, chronic pain, and inflammation. The only CBD medication that is currently FDA-approved is Epidiolex, which the agency approved last year for the treatment of certain types of epilepsy.
Many people also integrate CBD into their health routine to support their cellular and molecular health. Cannabidiol is just one of over 80+ cannabinoids that can be extracted from hemp. Among the many benefits that users experience, some of the main ones are: a sense of calm for focus; relief from everyday stresses; help in recovery from exercise-induced inflammation; and support for healthy sleep cycles.
Shop Now: Charm City Hemp Broad Spectrum CBD Tincture Natural Flavor
What is the Difference Between Marijuana and Hemp?
Hemp and marijuana are from the same genus of plant. There are distinct differences, however, between the two.
Making the distinction between hemp and cannabis can be done in a few different ways. These include appearance, chemical composition, and cultivation.
Hemp and marijuana look similar, but there are noticeable differences between the two, particularly between industrial hemp and marijuana. A marijuana plant, for example, has broad leaves and is typically bushy in appearance and produces thick, resinous, pungent flowers. Hemp, on the other hand, contains skinnier leaves that are more concentrated at the top of the plant and is much taller and skinnier than the marijuana plant.
Aside from the differences in appearance detectable by a trained eye, the chemical composition is also different.
Cannabis contains more than 500 chemical components. Of these, over 100 various cannabinoids have been identified. The most famous of these are tetrahydrocannabinol (THC) and cannabidiol (CBD).
Research has shown that both THC and CBD contain a myriad of different health and wellness benefits; however, THC is known to produce the psychoactive effects that are associated with the “high” that’s made marijuana famous, while CBD does not contain these psychoactive attributes.
Here’s where there is a HUGE difference between hemp and marijuana. Hemp plants contain virtually no THC at all (0.3% or less), while marijuana is abundant in the psychoactive cannabinoid and can contain anywhere from 5-30% THC (or more). Because hemp plants contain such a minute amount of THC, hemp doesn’t get you high.
How Does CBD Affect Your Brain and Body?
CBD—and indeed, all cannabinoids—interact with your brain in a similar way to neurons and synapses.
When introduced into your bloodstream, cannabidiol molecules activate (or turn on) specific groups of receptors, including:
CB1 and CB2
These receptors influence such body functions as appetite, pain sensation, mood, memory, and anxiety and have a great deal to do with the effects that CBD offers.
Does CBD Get You High?
No, CBD does not get you high. In fact, when taken with THC, CBD actually reduces just how high you can get through interactions with CB1 and CB2 Receptors
Think of THC and CBD as batteries. THC is a AA, and CBD is a AAA. The cannabinoid receptor CB1 in your brain only turns on when the right size battery is inserted—in this case, the AA (THC). The AA fits nicely into the receptor, turns it on, and produces the psychoactive high we all know and love.
But the AAA (CBD) also fits into the receptor. It’s not an exact match like the AA, so the AAA doesn’t activate the receptor. That’s why CBD doesn’t get you high: it’s not built to activate the receptors that cause a phsychoactive effect.
What Are Cannabinoids?
Cannabinoid is a term used to refer to molecules that are found in the cannabis plant that interact with cannabinoid receptors.