2. Each morning millions of individuals
around the world wake up and begin their
day with a cup of coffee.
Young people often find the taste of
coffee and tea unpalatable.
However children and adolescents drink
some unsubstantial quantities of soft
drinks both at home and away.
3. While coffee, tea, and soft drinks differ
widely in taste and nutrient composition,
they share an important characteristic.
They all contain chemicals called
methylxanthines.
Only three methyxanthines are found in
food; caffeine, theophyline and
theobromine.
4. In the metabolism of caffeine, it easily
crosses the placental barrier to enter featal
tissue and passes from the mother to
infant thorough the breast milk.
Once consumed its effects are seen within
15min to 2 hours.
5. Caffeine, theophylline and theobromine
have similar physiological effects
throughout the body.
However potency of these drugs varies
according to the physiological system
under consideration.
6. For example ;theophylline is a more
potent stimulator of the cardiovascular
system than caffeine or theobromine
Caffeine leads to more profound
stimulation of the nervous system than
either of the other two compounds.
7. Cardiovascular system
The action of caffeine and other
methylxanthines on the cardiovascular
system is complex.
Studies show that caffeine is associated
with a rise in blood pressure and an
increase in the heart rate.
8. Cardiovascular system
The effect of caffeine in blood pressure is
more pronounced in the elderly.
Moderate caffeine intake does not
produce adverse effects on the
cardiovascular system.
9. Smooth muscle
The methylxanthines relax a variety of
smooth muscles including those found in
the bronchi of the lungs.
In deed as a result of theophylines ability
to dilate the bronchi, the drug is used in
the management of asthma.
10. Smooth muscle
Theophylline and related compounds are
prescribed as prophylactic therapy for
asthma and are used as adjuncts in the
treatment of prolonged asthma attacks.
11. Smooth muscle
As a result of their ability to stimulate the
respiratory system ,both theophilline and
caffeine have been prescribed to prevent
episodes of loss of effective breathing in
preterm infants.
12. Gastrointestinal system
Caffeine stimulates the secretion of
gastric acid and pepsin,
Pepsin is the enzymes that begins the
breakdown of proteins In the stomach .
As a result coffee intake is considered
detrimental to individuals sufferings
from gastric ulcers.
13. Gastrointestinal system
However both caffeinated and
decaffeinated coffee increase gastric
secretions hence coffee alone is not the
only compound and that additional
compound contribute to beverage actions
on the gastrointestinal system.
14. Renal system
The diuretic action of caffeine and other
methylxanthines has long been
recognized
Acute ingestion of 250-300mg of caffeine
results in the short term stimunlation of
urine output and sodium excretion in
individuals deprived of caffeine for days
or weeks.
15. Renal system
Regular intake of caffeine however is
associated with the development of
tolerance to the diuretic effects of the drug
The actions of the drug on the renal system
are reduced in individuals who regularly
consume coffee or tea.
16. Caffeine as an energy producing aid has
become popular.
Many professional athletes have
committed to using caffeine to improve
their physical performance during both
training and competition.
17. 1. Caffeine increases heart rate, respiration,
blood pressure and blood glucose levels
which together contribute to the positive
effect of the drug on physical
performance.
18. 2. Additionally, following caffeine
consumption, energy derived from fats is
increased while that from CHO is
reduced allowing individuals to sustain
physical activity for longer periods of
time.
19. 3. Another factor that contributes to
caffeine positive effects on physical
activity is that the drug may reduce the
perception of the pain resulting from the
vigorous activity.
Caffeine pain relieving properties stem
from the drug ability to stimulate the
release of beta –endorphin -the body’s
natural pain killer.
20. While caffeine can boost performance of
endurance activities, it has minimal
effects of enhancing maximal abilities on
tasks that require power outputs
e.g. in lifting and carrying.
However caffeine may prolong the time
until fatigue occurs.
21. A cup of coffee with dinner can led to a
night with little sleep.
Caffeine can delay sleep onset, shorten
sleep time, reduce the average depth of
sleep and worsen the quality of sleep.
High doses can led to insomnia.
22. While caffeine induced sleep disturbances
do not appear to be a major concern for
adults, caffeine induced alterations in
sleep may be problematic in children.
This is due to the subsequent behavioral
issues.
23. Although all the physiological
consequences of the methylxanthines are
important, it is the action of these drugs
on the CNS and behavior that contributes
most significantly to their use.
Caffeine , theophylline and theobromine
stimulate the activity of the CNS with
caffeine having the most potent effects.
24. Consumption of as little as a one medium
cup of coffee stimulates the cortex, the
area of the brain involved in higher metal
functioning.
Higher doses stimulate the medulla too
which is important for the control of
respiration, cardiovascular functioning
and muscular activity.
25. Levels of over 1000mg may result to
restlessness, insomnia, sensory
disturbance including ringing in the ears.
High doses of caffeine intake can led to
intoxification and worsen the symptoms
of withdrawal when one abstains.
27. Over the years, concern has been
expressed about the potentially harmful
effects of caffeine intake during
pregnancy.
Caffeine intake has been blamed for
infertility,miscarriage,low birth weight
and birth defects.
28. Some studies have shown that caffeine
serve as teratogen (an agent that can
cause malformation to an embro or lead
to birth defects) in laboratory animals.
In these studies providing caffeine to
pregnant animals resulted in abnormal
organ development in a small % of the
offspring.
29. The most frequently observed defects
were facial defects and limbs defects.
However higher doses of caffeine were
required to produce such defects
particularly when the drug was
incorporated in the animals’ food.
Lower doses had negligible effects on
fetal development.
30. Epidemeological studies have assessed
the relationship between coffee
consumption during pregnancy and the
risks of preterm delivery, low birth
weights and congenital malformations in
human populations.
31. Results suggests that heavy caffeine use
greater than 700 mg per day may be
associate with a decreased probability of
pregnancy
It is also associated with an increased
probability of a woman suffering
miscarriage or having a preterm delivery.
32. Additionally ,extensive caffeine
consumption by a mother may increase
the risks of the infant suffering from sleep
apnea or the sudden death syndrome
33. Smaller amounts of coffee consumed in a
day-less than 300mg /day have fewer
negative effects reported in pregnancy and
infant health.
Hence a limit of a maximum of caffeine
intake being 300mg/day or approximately
3 8oz cup s of coffee in a day is
recommended.
34. moderate intake of caffeine has relatively
mild effects in most individuals
intake of large quantities of the drug can
have negative consequences.
35. Extremely high doses of caffeine (10g) can
produce the following symptoms;
Vomiting
Convulsions and
sometimes death.
36. Regular intake of smaller amounts of
caffeine beginning at an approximate of
1g/day can lead to the following
symptoms;
Nervousness
Irritability
Loss of appetite
Neuromuscular tremors
37. Caffeine is a drug that produces
physiological ,psychological and
behavioral effects .
Of our concern is whether this makes it a
drug of abuse.
Many people feel that they depend on
caffeine
38. At least everyone knows at least one
person who cannot seem to face the day
without a cup of tea or coffee.
However, addiction and dependence are
terms that are usually used to describe
behaviours relating to drugs such as herion
, nicotine, alcohol and cocaine.
39. Should caffeine be described as an
addictive drug?
According to psychopharmacologists and
clinicians, for a drug to be considered
addictive it must met a set of primary
criteria and may meet a set of secondary
criteria.
40. Example ; a feature /hallmark of drug
addiction is rising / escalating use of a drug
and loss of control over drug taking
behavior.
Typically people who are addicted to a
drug need more and more of the drug to
achieve the same effect. This phenomena is
called tolerance.
41. Although originally taking the drug may
have produced presurable effects, addicts
maintain drug taking behavior to avoid the
ill feelings / withdrawal symptoms when
ceasing to take the drug.
Thus drug addiction is indicative of a cycle
of behaviours that include the pursuit of
pleasurable effects and avoidance of
negative effects.
42. The first thing to consider about a alleged
addictive substance is whether or not it
produces pleasurable effects.
These pleasurable effects promote drug
taking behavior for the obvious reasons
that people take pleasurable things.
43. Caffeine reinforcing properties are
presumed to be related to the drugs ability
to produce physiological arousal including
increased alertness enhanced mood and
increased concentration.
Some argue that the reinforcing effects of
caffeine are similar in character but not in
magnitude to psychostimullant drugs such
as cocaine.
44. Others argue that although caffeine does
not produce positive effects such as mood
elevation; the reinforcing effects are
relatively weak.
45. More importantly unlike typical drugs of
abuse ,individuals do not need to consume
an increasing amounts of caffeine (drug
abuse) but rather use the drug at consistent
and moderate levels (drug use)
46. Caffeine tolerance
In animals, tolerance to the locomotor
enhancing effects of caffeine is well
demonstrated.
However in many animal studies ,the doses
of caffeine used are significantly greater
than those generally consumed by humans.
47. Caffeine tolerance
Humans develop tolerance to some of the
physiological effects of caffeine such as
elevated heart rate and blood pressure , but
typically do not show tolerance to the
mood elevating and sleep delaying effects
of the drug.
48. Caffeine tolerance
The general consensus is that little
tolerance develops to the positive effects of
caffeine .
This explains why caffeine users do not
significantly escalate drug use over time.
49. Caffeine withdrawal
The subjective signs of caffeine withdrawa
are in opposition to the effects of taking
caffeine they include the following;
Headache
Fatigue
Depression
Difficulty concentrating
Irritability &
50. Caffeine withdrawal
Studies suggests that 40% to 70% of
individuals who try to quit caffeine use
experience symptoms of caffeine
withdrawal.
For those trying to abstain from taking
coffee, symptoms of withdrawal normally
are relatively mild, and subside within
some few days.
51. Caffeine withdrawal
However for some individuals withdrawal
symptoms can lead to impairments of daily
functioning that can continue for weeks
and sometimes months.
Drug withdrawal may lead some to return
to regular caffeine use.
52. Conclusion
Caffeine ingestion does not embody some of the
criteria for an addictive substance.
Although people do seek out the stimulating
properties of caffeine and experience
withdrawal symptoms ,they typically do not
lose control over their caffeine intake and
generally do not require escalating amounts of
caffeine to satisfy their caffeine needs.
