What
is Caffeine?
Caffeine
is known medically as trimethylxanthine, and the chemical
formula is C8H10N4O2 (see Erowid: Caffeine Chemistry for an
image of the molecular structure). When isolated in pure form,
caffeine is a white crystalline powder that tastes very bitter.
The chief source of pure caffeine is the process of decaffeinating
coffee and tea.
Medically, caffeine is useful as a cardiac stimulant and also
as a mild diuretic (it increases urine production). Recreationally,
it is used to provide a "boost of energy" or a feeling
of heightened alertness. It's often used to stay awake longer
-- college students and drivers use it to stay awake late
into the night. Many people feel as though they "cannot
function" in the morning without a cup of coffee to provide
caffeine and the boost it gives them.
Caffeine
is an addictive drug. Among its many actions, it operates
using the same mechanisms that amphetamines, cocaine, and
heroin use to stimulate the brain. On a spectrum, caffeine's
effects are more mild than amphetamines, cocaine and heroin,
but it is manipulating the same channels, and that is one
of the things that gives caffeine its addictive qualities.
If you feel like you cannot function without it and must consume
it every day, then you are addicted to caffeine.
Caffeine
occurs naturally in many plants, including coffee beans, tea
leaves and cocoa nuts. It is therefore found in a wide range
of food products. Caffeine is added artificially to many others,
including a variety of beverages. Here are the most common
sources of caffeine for Americans:
Typical drip-brewed coffee contains 100 mg per 6-ounce cup.
If you are buying your coffee at Starbucks or a convenience
store or drinking it at home or the office out of a mug or
a commuter's cup, you are consuming it in 12-, 14- or 20-ounce
containers. You can calculate the number of milligrams based
on your normal serving size.
Typical
brewed tea contains 70 mg per 6-ounce cup.
Typical
colas (Coke, Pepsi, Mountain Dew, etc.) contain 50 mg per
12-ounce can. Things like Jolt contain 70 mg per 12-ounce
can.
Typical
milk chocolate contains 6 mg per ounce.
Anacin
contains 32 mg per tablet. No-doz contains 100 mg per tablet.
Vivarin and Dexatrim contain 200 mg per tablet.
By looking at these numbers and by knowing how widespread
coffee, tea and cola are in our society, you can see why half
of all American adults consume more than 300 mg of caffeine
per day. Two mugs of coffee or a mug of coffee and a couple
of Cokes during the day are all you need to get you there.
If you sit down and calculate your caffeine consumption during
a typical day, you may be surprised. Many people consume a
gram or more every single day and don't even realize it.
Caffeine
and Adenosine
Why do so many people consume so much caffeine? Why does caffeine
wake you up? By understanding the drug's actions inside the
body you can see why people use it so much.
In the HowStuffWorks article How Sleep Works, the action of
adenosine is discussed. As adenosine is created in the brain,
it binds to adenosine receptors. The binding of adenosine
causes drowsiness by slowing down nerve cell activity. In
the brain, adenosine binding also causes blood vessels to
dilate (presumably to let more oxygen in during sleep).
To
a nerve cell, caffeine looks like adenosine. Caffeine therefore
binds to the adenosine receptor. However, it doesn't slow
down the cell's activity like adenosine would. So the cell
cannot "see" adenosine anymore because caffeine
is taking up all the receptors adenosine binds to. So instead
of slowing down because of the adenosine level, the cells
speed up. You can see that caffeine also causes the brain's
blood vessels to constrict, because it blocks adenosine's
ability to open them up. This effect is why some headache
medicines like Anacin contain caffeine -- if you have a vascular
headache, the caffeine will close down the blood vessels and
relieve it.
So
now you have increased neuron firing in the brain. The pituitary
gland sees all of the activity and thinks some sort of emergency
must be occurring, so it releases hormones that tell the adrenal
glands to produce adrenaline (epinephrine). Adrenaline is
the "fight or flight" hormone, and it has a number
of effects on your body:
Your
pupils dilate.
Your breathing tubes open up (this is why people suffering
from severe asthma attacks are sometimes injected with epinephrine).
Your heart beats faster.
Blood vessels on the surface constrict to slow blood flow
from cuts and also to increase blood flow to muscles. Blood
pressure rises.
Blood flow to the stomach slows.
The liver releases sugar into the bloodstream for extra energy.
Muscles tighten up, ready for action.
This explains why, after consuming a big cup of coffee, your
hands get cold, your muscles tense up, you feel excited and
you can feel your heart beat increasing.
Caffeine
and Dopamine
Caffeine also increases dopamine levels in the same way that
amphetamines do (heroine and cocaine also manipulate dopamine
levels by slowing down the rate of dopamine re-uptake). Dopamine
is a neurotransmitter that, in certain parts of the brain,
activates the pleasure center. Obviously, caffeine's effect
is much lower than heroin's, but it is the same mechanism.
It is suspected that the dopamine connection contributes to
caffeine addiction.
So you can see why your body might like caffeine in the short
term, especially if you are low on sleep and need to remain
active. Caffeine blocks adenosine reception so you feel alert.
It injects adrenaline into the system to give you a boost.
And it manipulates dopamine production to make you feel good.
The
problem with caffeine is the longer-term effects, which tend
to spiral. For example, once the adrenaline wears off, you
face fatigue and depression. So what are you going to do?
You take more caffeine to get the adrenaline going again.
As you might imagine, having your body in a state of emergency
all day long isn't very healthy, and it also makes you jumpy
and irritable.
The
most important long-term problem is the effect that caffeine
has on sleep. Adenosine reception is important to sleep, and
especially to deep sleep. The half-life of caffeine in your
body is about 6 hours. That means that if you consume a big
cup of coffee with 200 mg of caffeine in it at 3:00 PM, by
9:00 PM about 100 mg of that caffeine is still in your system.
You may be able to fall asleep, but your body probably will
miss out on the benefits of deep sleep. That deficit adds
up fast. The next day you feel worse, so you need caffeine
as soon as you get out of bed. The cycle continues day after
day.
This
is why 90% of Americans consume caffeine every day. Once you
get in the cycle, you have to keep taking the drug. Even worse,
if you try to stop taking caffeine, you get very tired and
depressed and you get a terrible, splitting headache as blood
vessels in the brain dilate. These negative effects force
you to run back to caffeine even if you want to stop.
If
you are interested in breaking the caffeine cycle in your
own life, the book Caffeine Blues (especially Chapter 10)
can be very helpful.
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