Lecture56RR.pdf

Transcript

7/13/22

Thirst
Based upon Logue Ch.3
Appetite: The psychology of eating
and drinking

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Introduction - Water
• 97% of Earth’s water is in the sea, with only 3% being fresh
and thus potentially suitable for drinking, food production
(notably animal production), energy and industrial uses
• Fresh water resources that are accessible (notably ‘fossil
water’, lakes and rivers) represent only about 0.7% of all of
the water on Earth
• It takes around 3000 litres (12 bath tubs) of water to generate
the food that the average Westerner consumes in one day,
with 400 litres (1.6 bath tubs) per person per day for
household uses – a level completely unsustainable if
everyone were to adopt our current eating and water usage
habits
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Water…
• Perhaps not surprisingly, fresh water is becoming an increasingly
scarce resource and several leading political figures have warned
that it (along with food) has, and will increasingly provide, the
basis for armed conflict
– One significant ‘water flash-point’ is in the Middle East
•
•

Egypt has threatened military action if the upper reaches of the Nile are ever dammed (as they
currently are being by Ethiopia’s ‘Grand Renaissance Dam’ on the headwaters of the Blue Nile)
Israel’s 1967 bombing of Syria when it attempted to divert the headwaters of the Jordan river

• Not only is access to fresh water a problem at the National level, it
also a local problem too
– Many people do not have easy access to fresh water
•

Out of the worlds population of 7 billion people, 3.5 billion have access to piped water (private),
2.1 billion rely on standpipes (public sources), and 1.4 billion are completely unsupplied

– Many people do not have access to safe drinking water
•

As of 2017, 0.8 billion people lacked access to safe drinking water, and waterborne diseases
(mainly from sewage contaminated water supplies) are estimated to have caused 0.5 million
deaths in that year alone

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Water…
• As should now be apparent easy access to plentiful clean
fresh water is something of a luxury
• It is then hard for most of us to imagine what extreme
thirst must be like
• A good example, which captures something of this terrible
experience, was provided by Sven Hedin, a 19th Century
explorer
• He was severely dehydrated after crossing the Taklamakan
desert and he recorded his experience of finding water and
of sating his thirst…
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Thirst
•

•

I stood on the brink of a little pool filled with fresh water. It would be vain for
me to describe the feelings which overcame me. I took my tin box filled it and
drank. How sweet that water tasted! Nobody can conceive it who has not
been within an ace of dying of thirst. I lifted the tin to my lips and drank,
drank, drank, time after time. How delicious! What exquisite pleasure! The
noblest wine pressed out of the grape, the divinest nectar ever made, was never
half so sweet.
I do not think I exaggerate, if I say that during the first 10 minutes I drank
between five and six pints. At that moment it never entered my head that, after
such a long fast, it might be dangerous to drink in such quantity. But I
experienced not the slightest ill effect. On the contrary I felt it infusing new
energy into me. My pulse, which had been so feeble, now beat strong again.
My hands, which had lately been dry, parched and hard as wood, swelled out
again. My skin which had been like parchment, turned moist and elastic. And
soon afterwards an active perspiration broke upon my brow. In a word, I felt
my whole body was imbibing fresh life and fresh strength. It was a solemn, an
awe inspiring moment.
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Extremes
• Whilst one can last an extended period of time without food,
dehydration rapidly kills
– The speed of death is heavily dependent upon climatic conditions, but
most people die when their water deficit is between 15-25% of
bodyweight (c12 litre loss)
– Strong thirst ensues at around a 2% deficit
– A fit adult can still function at 3-4% deficit
– At 5-8% severe fatigue and apathy ensue
– At 10%+ gross physical and mental deterioration are evident. Delirium
may ensue, followed by coma and death

• Dehydration is problem in children and a serious (sometimes
fatal) problem in the elderly
– Both may have insensitive interoception (i.e., don’t feel thirst)
– In elderly, blunted receptor sensitivity
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So what is thirst?
• We can define two kinds of thirst and hence
of motivations to drink
– The first is homeostatic drinking (the kind we
have been thinking of so far). Here the body
attempts to maintain a set point, with behaviour
kicking in to regulate water consumption when
deviations from the set point occur
– The second is non-homeostatic drinking, such
as anticipating future water needs

• We will now look at some examples of both
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Homeostatic drinking
• There are two main types
– Eating
• If a person is water deprived they eat less. Similarly
if they are food deprived they drink less
• A ratio of 1 part water to 1 part food (stomach) and
3 parts of water to 1 part food (intestine) are needed
for digestive purposes
• This represents a type of set point that the body uses
to maintain adequate levels of hydration
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Homeostatic drinking
• Blood, plasma and cells
– Fluid in the body can be categorised into two
compartments
• Fluid inside cells
• Fluid outside cells (blood & plasma)

– Loss of fluid from within cells can cause thirst (e.g.,
increased salt in blood plasma, draws water out of the
cell and produces thirst)
– Loss of fluid from outside cells can also cause thirst
(e.g., blood loss)

• Both represent further and separate set points
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Non-homeostatic drinking
• Time
– Some animals prefer to drink mainly at night even if they eat in the
day
Rats

Day

Night

Food consumption

50%

50%

Water consumption 25%

75%

• Anticipatory drinking
– Most of us drink whilst we eat
– But the need for water caused by food can not produce
an immediate need for water, hence the name
anticipatory drinking
– Animals show this too in topping up whilst water is
available (drink while you can)

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Non-homeostatic drinking
• Schedule induced polydipsia* (SIP)
– If a rat is given a food pellet at the rate of 1/min for 3
hours, the animal will consume up to 50% of its
bodyweight in water if it is given free access to water
during this time
– SIP can also be observed in humans playing on slot
machines and experimentally too

• Polydipsia in psychiatric patients
– 6-17% of chronic psychiatric patients are polydipsic
– Of these, 70% have schizophrenia
• Some of this is delusion related (e.g., inner cleansing)

– Such patients may drink 20 litres/day
– It is hard to control and can be fatal
*Means ‘lots of drinking’

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Explaining thirst
• So then, what mechanisms underpin homeostatic
and non-homeostatic drinking?
• We will now look at three types of explanation
– Peripheral mechanisms (outside the CNS)
– Central mechanisms (CNS)
– Combined mechanisms

• Even though thirst only involves one type of
stimulus - water - it turns out to be rather
complicated and as we shall see the body utilises
several mechanisms in parallel
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Dry mouth theory
• The dry mouth theory
was first proposed by
Walter Cannon. It is
an expressly
peripheral model
• When we are thirsty
our mouth becomes
dry, and, ergo, a dry
mouth causes thirst
• Evidence?
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Evidence for dry mouth theory
• Saliva levels in the mouth strongly correlate with
levels of water deficit
• Anaesthetising the mouth of thirsty dogs (and
humans) alleviates thirst
• If water is placed directly into a thirsty animal’s
stomach, the animal will still drink a roughly
equivalent amount of water. The net amount
drunk will exceed that drunk by an animal without
water placed in the stomach
– It is like the mouth has to feel the water and become
less dry for thirst to be assuaged
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Evidence for dry mouth theory
• Thirsty camels will drink 30%
of their bodyweight in water
in 10 minutes
• That is 200 litres of water at
20L/minute!
• This is long before that water
could have physiologically
relieved their water deficit
• In sum, a dry mouth (and lack
of) appears a good index of
when to start and stop
drinking
• But is it the cause of thirst?
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Evidence against
• In 1925 a man attempted suicide by cutting his own throat.
He failed, but did manage to make a gaping hole in his
oesophagus
– When he drank, water just spilled out the hole
– He became very very thirsty and so tried pouring water directly into his
oesophagus (i.e., into his stomach by-passing his mouth) which relieved his
thirst

• Animals and humans who lack salivary glands (and have a
chronic dry mouth) drink normally
• It cannot account for non-homeostatic drinking
• Subjective sensation of thirst and the insula cortex
• This sensation is supported in part by the insula, but damage to the insula
does not disrupt normal drinking

• Dry mouth is a signal (i.e., correlate) of, not a cause of, thirst
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Central mechanisms
•
•

Is there a central brain area responsible for thirst?
Such an area would have to meet at least two criteria for it to be a contender
– It should collect information about water levels in the body – the information
criterion
– It should be able to start and stop drinking – the control criterion

•

The hypothalamus ([below left] and in particular the median preoptic
nucleus [PO below right) located in this structure) has been suggested as one
such possibility - does it meet our criteria?

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Hypothalamus and thirst
• Information criterion - (detect water deficit)
– Specific cells in the hypothalamus are sensitive to
variations in salt levels in blood plasma
– The hypothalamus reacts to other peripheral signals too
(e.g., vasodilation)
– The hypothalamus receives inputs from other sensory
receptors located outside of the blood brain barrier that
monitor bodily systems

• Control criterion - (correct water deficit)
– Saline injected into the hypothalamus triggers drinking
– Electrical stimulation of the hypothalamus does likewise
– Lesions of the hypothalamus disrupt drinking

• So how might it control drinking?

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Hypothalamus and thirst
• How does the hypothalamus control
drinking?
– The hypothalamus controls release of
Antidiuretic Hormone (ADH)
– ADH release, increases water retention by
kidneys (conserving water) and raises BP
– ADH is released when:
– Loss of fluid from within cells (e.g., from increasing salt
levels)
– Loss of fluid from blood or plasma (e.g., from falling
blood pressure)
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Problems…
• Nobody doubts that the hypothalamus is
involved in producing thirst and drinking
behaviour
• But does it have the‘ultimate say’?
• Probably not, because there are other
peripheral systems that appear to work
cooperatively, but independently, of the
hypothalamus
• The best studied relate to the Kidney
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The kidney
• Arterial blood pressure falls as water
deprivation ensues and salt levels increase
– The kidney detects these changes and releases a
hormone called renin
– Renin in the blood causes release of a further
hormone, angiotensin
– Angiotensin then affects the CNS (drinking)
– In addition, angiotensin
• Constricts blood vessels (raising blood pressure)
• Increases release of ADH
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Blood pressure and thirst
• Note the close link between blood pressure and thirst
– African-Americans have heightened rates of high blood
pressure
• It has been suggested they may be‘super-sensitive’ to angiotensin
• This may have arisen from a selection pressure, in which only those
individuals who could survive the dehydration on a slave ship (i.e. those
most sensitive to angiotensin) lived to reproduce….
– 20 million people forcibly transported with a 15-30% death rate

– Dietary salt and blood pressure
• High levels of dietary sodium (i.e., salt) seems to increase blood pressure
and hence risk for stroke as people age
• This is why there is pressure in many countries to reduce the amount of
salt we eat, especially hidden salt in processed foods (e.g., 6 slices of white
bread = half your recommended daily intake)
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Summary so far
• Thirst then results from a complex interplay
of peripheral and central mechanisms
• These involve departures from set points at
which different, but overlapping and interrelated systems kick in to get an animal (or
us) to feel thirsty and drink
• This still leaves us with a need to explain
non-homeostatic drinking…
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Explaining NHD
• SIP (schedule induced polydipsia)
– SIP appears maladaptive, but is not so in the
environment
– If an animal is very hungry, it might continue to search
for food totally disregarding ALL other needs
– Consequently, animals show a phenomenon called
displacement, in which one activity can temporarily
replace another
– This allows a hungry animal to engage in other useful
activities (such as drinking) which might not occur if
the animal could not switch from one goal to another
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Explaining NHD
• Anticipatory drinking
– This often occurs when we eat
– It turns out that chemical changes that take place when
we see/smell food and in the early stages of eating may
trigger thirst
• Histamine is released upon the sight of food and triggers
drinking
• Insulin release also triggers drinking and is released during
food intake

• Learning (e.g., desert nomads)
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Conclusion
• Thirst is far more complex than one might
imagine and involves interplay between
peripheral and central systems
• But human drinking behaviour is more
elaborate still, because it is the primary
mode for consuming the worlds most
popular drugs - caffeine and alcohol, the
main focus of the next lecture.
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For S2: A brief interlude on writing reports...
• How do you write a good report?
– The worst bit is usually the discussion….
– Must haves…
» Interpret the findings relative to the aim
» Briefly restate aim and indicate whether supported or not
» Examine what the findings suggest
» If confirmed, then this means… (& If not….)
» Whether this fits more broadly with previous research
» If yes, this means.. (& If not….)
– Important, but more so in some cases than in others
» Any meaningful limitation
» By meaningful, I mean would an educated person likely think this
to be the case (a big one being causation vs. correlation)
» Any meaningful (as above) alternative explanation
» Where might this line of research go next?
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Drugs and food
• Reading Logue
Ch. 11
• Appetite: The
psychology of
eating and drinking
The print on the right is called ‘Gin Lane’
and was drawn by Hogarth in 1751. It is an
early example of health promotion, as the
print depicts the multiple evils that arose from
the very popular, very cheap and easily
available gin. This print contrasted with
another entitled ‘Beer street’, which depicts a
far nicer place. Hogarth amongst many others
were involved in lobbying for better price and
quality controls on gin, as it was producing
enormous social problems at that time.

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Overview
• In this lecture we will examine three things,
all of which are intimately related to feeding
and drinking in humans
– Alcohol consumption
– Caffeine consumption
– Finally, we will briefly look at whether certain
foods can be considered as ‘addictive’
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Alcohol
• The word alcohol derives from the Arabic for ‘something
subtle’ (a fitting description?) no
• Evidence of brewing (‘beers’) dates to the Neolithic
period (C8-10,000 years ago) and there appears no
rationale for consumption other than its psychoactive
effects
• Distillation dates back to the Arabs, who appeared to
invent it about 800AD, its use had spread throughout
Europe by the middle ages
• Before considering the effects of alcohol consumption, we
need to consider the context in which drinking takes place
- so what does drinking mean in the Australian context?
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Drinking - The Australian context
• Commenting upon Australian national identity a
social historian said
“To judge from contemporary accounts, no people on earth ever
absorbed more alcohol per head of population than Australians”

• The image of the heavy drinking Australian is part
of the national myth
• The myth starts with the first fleet, a rum issue on
the day of the landing and the drunken behaviour
that ensued
• So is this‘national myth’ true?
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Drinking - The Australian context
• Drinking in the early days of the colony was pretty
much identical to that in most other Anglo-Saxon
countries at that time - around 13 litres of pure
alcohol/per person/per year
• Alcohol exerted its most devastating effect on
Indigenous Australians
– Liquor was used as payment for labour, sexual favours
and for entertainment
– It is ironic indeed that the stereotype of the ‘drunken
aborigine’ is in marked contrast to the national myth
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Drinking - The Australian context
•
•
•

•

•

During the 1800’s the pub started to become the focal point of alcohol
consumption
In Sydney, in 1837, there was 1 pub for every 100 Sydneysiders (even
more if sly-grog shops were included too)
During the 1900’s with urbanisation and industrialisation - and the
consequent need for greater sobriety - alcohol consumption fell to a
low of 2.5 L during the great depression (1929-1933)
There were many social advocates for sobriety, who were colloquially
termed ‘Wowsers’ – defined as “A very pious person who mistakes the
world for a prison and themselves for a warder”
Current consumption is around 9 L, with the NT topping the bill at 13
L and Victoria with the lowest – but with considerable variation
– Highest in rural areas, especially in WA, and some remote
indigenous communities
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Drinking in Australia today
• Today, around 90% of people aged 14 and up have drunk
alcohol
• Australia is ranked 23rd in the world, in terms of per capita
consumption - pretty good (in health terms) but not from
the perspective of national mythology
• What has changed is what we drink
– A shift from beer to wine
– A shift to light beers
– The advent of the pre-mixed drink or alcopop

• The latter is especially challenging for public health, with
marketing and ‘taste’ directed at novice drinkers par$cularly underaged drinkers
– People can not tell apart (under blind tasting conditions) a vodka mudshake from
chocolate milk – the sugar and cream completely mask the alcohol
– These sort of drinks can form ‘entry points’ for teenage (especially female)
alcohol consumption

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Alcohol - impact
• Positives
– Tax revenues from Alcohol in Australia have averaged
around 6 Billion Dollars per year over the last decade
– Alcohol consumption reduces cardiovascular deaths by
approximately 800 cases per year, and prevents around
20,000 hospitalisations
– It also acts to reduce kidney/gall-bladder stones and
increases bone density
– Hotels can act as focal point for communities
– Alcohol consumption can be a pleasurable experience
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Alcohol - impact
• Negatives

A standard drink delivers 15mls of alcohol

– 15% percent of men and women aged
20-29 drink at a rate likely to cause
them harm (> 2 standard drinks/day).
– Among this age group 50% of men
and 20% of women have engaged in
binge drinking (> 7/5 standard drinks
drunk consecutively) at least once a
week in the past year.
– Harms from excessive intake include:
•
•
•
•
•
•
•

Cirrhosis (liver damage)
Heart disease
Brain damage
Road trauma
Violent behaviour
Relationship breakdown
Lost productivity

– The rate of excessive consumption in
Indigenous Australians is 2-3 times
higher even though fewer drink
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Alcohol - impact
• Alcohol’s yearly adverse health impacts in Australia
(averaged over the last decade)
Condition

Deaths

Hospitalisations

Cancers

1500

10,180

Cardiovascular
diseases

1150

10,700

Digestive diseases

780

9,700

Injuries

1495

65,000

Neuropsychiatric

380

157,130

Total

5305

252,710

• Alcohol abuse/misuse costs around 15 Billion dollars per
year in Australia (and rising)
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Alcohol - impact
• For all drug treatment services in Australia, alcohol related
problems were the most common reason for referral
• Approximately 35% of all violent offences are committed
under the influence of alcohol
• The yearly ABS victims of crime survey reveals around
– 1.5 million people were verbally abused by someone under the
influence of alcohol
– 0.6 million had property damaged by someone under the influence
of alcohol
– 0.4 million were physically assaulted by someone under the
influence of alcohol

• These types of statistics (and much more) can be found for
every nation that consumes alcohol
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The effects of alcohol
• Metabolism and male vs female differences
– Alcohol enters the bloodstream and is rapidly absorbed
by the brain, but much more slowly by muscle (women
have less muscle)
– Alcohol is primarily (90%) metabolised by the liver
(and 10% by stomach - but women are less efficient at
this)
• Alcohol is broken down into Acetaldehyde (women less
efficient at this as well)
• Acetaldehyde is broken down into Acetate
• Acetate is then fed into the ACoa pathway yielding 7Kcal for
every gram of alcohol consumed
• The body can metabolise a maximum of 6-8g per hour
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Psychological effects
• General - euphoria, disinhibition, reduced anxiety,
impaired motor control
• Specific - effects of alcohol need to be distinguished from
peoples expectations of what happens on ingestion
– Expectation free research designs tell us that
•
•
•
•

Alcohol lengthens reaction time
Alcohol narrows attention
Alcohol promotes risk taking
Alcohol enhances aggression

– This makes for a very unfortunate cocktail when combined with a
car and an inexperienced driver

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Effect on the brain
• Alcohol acts upon multiple brain systems, which is why it
is called a promiscuous drug
• Its effects also vary by dose
• The key changes appear to be:
– It acts akin to anaesthetics by increasing the permeability of nerve
cell membranes (consumption of the anaesthetic agent ether is also
intoxicating)
• Alcohol can be used as an anaesthetic but its therapeutic dose is so
close to its lethal dose it was never of much practical use

– It acts upon the same GABA receptors as anti-anxiety drugs such
as diazepam (which is 4000X more potent)
– It alters brain dopamine levels, especially in the Nucleus
Accumbens (driving wanting)
– It increases levels of endogenous opioids (producing liking)
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Tolerance
• The behavioural and pharmacological effects of
alcohol change with exposure - that is, tolerance
• Acute tolerance
– Within a drinking session rising blood alcohol (BA) correlates well
with behaviour change. After drinking ends BA can still be
elevated but there can be a disconnect between behaviour and BA:
• One can feel sober even with both an elevated BA and significant
impairment in things like reaction time, attention etc
• The classic example is driving the morning after heavy drinking the
night before – feeling sober, but impaired and with an elevated BA

• Chronic tolerance - metabolic and tissue
– Regular drinking affects the way the body metabolises alcohol and
the way in which cells respond to the same level of alcohol.
Chronic tolerance is lost after 3 weeks of abstinence in all drinkers.
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Addiction to alcohol
• Addiction is a problem in around 10% of regular drinkers
• It is defined by the American Medical Association as:
– Alcoholism is an illness characterised by a preoccupation with
alcohol and a loss of control over its consumption, such as to lead
to intoxication if drinking is begun; the condition is chronic,
progressive, and has tendency to relapse. It is typically associated
with physical disability and impaired emotional, occupational
and/or social adjustment as a direct consequence of persistent and
excessive use of alcohol

• Around 1 person in a 100 becomes an alcoholic
• A simple screening tool are the CAGE questions
–
–
–
–

Do you feel the need to cut down your drinking?
Have you got annoyed by comments about your drinking?
Have you felt guilty about your drinking?
Have you needed an ‘eye-opener’ in the morning?
• Two ‘Yeses’ are indicative of dependency
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Alcoholism I - Neurology
• Wernicke-Korsakoff syndrome
• Two components that may occur alone or together
– Wernicke’s encephalopathy – dementia, ataxia, visual
disturbances
movements
– Korsakoff’s syndrome – anterograde amnesia (i.e., an
inability to learn new things), confabulation, language
difficulties
generate a bizarre story when confronted with memory loss

• Cause

– Chronic alcohol abusers tend to have poor diets, and hence
have low intakes of thiamine (vitamin B1)
– Alcohol may interfere both with thiamine uptake and
adversely affect metabolic pathways that are dependent on
thiamine
– There may also be a genetic susceptibility

• Disease course is irreversible following
amnesia/dementia onset

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Alcoholism II
• Other neuro-degenerative disorders
– Marchiafava-Bignami disease – degeneration of corpus callosum
and dementia
– Haemotomas – small blood clots resulting from frequent bumps
to the head (occurring during intoxication)
– Hepatic encephalopathy, Central pontine myelinolysis, Alcoholic
cerebellar degeneration, Alcohol related dementia

• Withdrawal symptoms
– Mild (tremor, anxiety, insomnia)
– Moderate (severe tremor, convulsions, hallucinations [typically
in peripheral vision])
– Severe – AKA Delirium tremens (confusion, persecutory
hallucinations, systemic circulatory problems, status epilepticus;
15% mortality if untreated)
– Gets worse with repeated cycles
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Alcoholism III
•

Other
– Cardiomyopathy, myopathy, hepatitis, cirrhosis, impotence, sterility etc
– Cancer of mouth, tongue, oesphagus
•

•

5x base rate in heavy drinkers, 8x base rate in smokers, 44x base rate in heavy drinkers & smokers

Fetal alcohol syndrome
• Characterised by facial abnormalities (absent philtrum, flattened bridge) and
significant developmental delays of varying severity
• 6% of alcoholic mothers (heavy consumption during 1st trimester)
• 1200 cases (?) per year in US
• Lifelong social and intellectual disability

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Risk factors for alcoholism I
• Several lines of evidence suggest genetic susceptibility
• Increased risk in offspring of alcoholics
• Risk higher if both parents alcoholic
Risk the same if offspring raised by non-alcoholics

• No risk (relatively) for the offspring of non-alcoholics adopted by
alcoholic parents
• Higher concordance in MZ than DZ twins

– Individuals with alcoholic relatives show:
• Less sensitivity to low levels of alcohol need to drink more to get the same effect
• Abnormalities in DA receptors (wanting)
• Abnormalities in 5HT metabolism (relating to heightened risk for
anxiety, depression and impulsivity)
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Risk factors for alcoholism II
• Genes combined with…
– Drinking culture
• Socially sanctioned
• Widespread availability (the outlet effect)

– Comorbid conditions
• Alcoholism tends to be comorbid with anxiety disorders such as panic
attacks, OCD and phobias - self medication

• Alcoholism results from an unfortunate synergy of genetic
predisposition (alcohol or non-alcohol related) combined
with our alcohol tolerant culture

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Treatment
• Pharmacological
• Acute withdrawal (Benzodiazepines)
• Chronic
– Disulfiram (antabuse) which prevents reduction of acetaldehyde
– Naltrexone which appears to be useful in preventing relapse by
reducing craving (as with tobacco)

• Psychological
• AA, Therapy (varied), Relapse prevention training

• The long-term (4 year) spontaneous abstinence rate is
around 30%. Virtually no treatment appears to exceed this
benchmark, although drug/psychological therapies may
assist continued abstinence
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Caffeine
• Most adults and children consume caffeine
• It is present in:
– Coffee
–

–
–
–

60-280mg (per 250ml)
Energy drinks 80mg (per 250ml)
Tea
30-110mg (per 250ml)
Cola’s
35mg (per 250ml)
Chocolate
20mg (per 100g bar)

• It is undoubtedly the worlds most popular
psychoactive drug, hence its mention here
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What are its psychological effects?
• Cognitive
– Decreases reaction time
– Attentional effects
• Increases vigilance (especially on monotonous tasks)
• Benefits both endogenous (voluntary capacity to direct attention)
and exogenous (ability to attend to external events) attention

• Mood
– Increases feelings of alertness
– Increases feelings of subjective wellbeing

• It exerts these effects equally in both sleep deprived and
non-sleep deprived individuals
• Important caveat!
– There is much uncertainty as to whether the cognitive and mood
effects of caffeine JUST reflect the alleviation of withdrawal
symptoms. This is because almost everybody consumes caffeine.
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What are its physiological effects?
• Physiology
•
•
•
•

Mild diuretic
Increases blood pressure, heart rate
At high doses, tremors, anxiety, racing heart
Some evidence for adverse effects on pregnancy

• How are the physiological and psychological effects
exerted?
• Adenosine (involved in energy metabolism) increases during the day
and is elevated whilst asleep. Caffeine prevents adenosine binding to
its receptor
• Caffeine also interacts with GABA receptors, slowing the binding of
benzodiazepines and other hypnotic agents
• It indirectly modulates striatal dopamine and MAY potentiate the
effects of certain addictive drugs

• Is caffeine addictive?
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Is it addictive? – Uhm Perhaps...
•

Is it abused?
• In very rare instances (caffeine intoxication >1000mg/day)
• It does not appear to produce a high and animals do not self administer this
drug, but it is a positive reinforcer in animals and people (i.e., both like it)

•

Tolerance?
• There is some evidence of acute tolerance but little or no evidence of chronic
tolerance

•

Withdrawal?
• Many suggest there is a withdrawal syndrome
– Headache, fatigue, cognitive dulling, low mood, which are readily alleviated by
consuming caffeine

• This is disputed by others
– Some say these symptoms are expectancy effects
– A prior headache history may predict this particular symptom
– Guatemala study - heavy coffee intake in kids (6x adult US consumption)
followed by abrupt cessation found no withdrawal symptoms
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Finally… are certain foods addictive?
• It has been claimed that certain foods are‘addictive’
• Fast food (high fat/high salt or high fat/high sugar)
• Hyper-processed foods (chocolate, crisps, ice cream...)

• This is a very live and controversial issue – why?
• It is because of blame
– If the sort of foods that make people fat are addictive then if I
overeat it is not my fault
VS
– If such foods are not addictive, then I am choosing to eat them, in
which case if I overeat it is my fault
• This is the same argument taken by tobacco and gun lobby of the sort “...guns
don’t kill – it’s who pulls the trigger”.

• This has major legal and social ramifications because if
certain foods are addictive, then food manufacturers are to
blame for the obesity epidemic and can be sued…
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Are such foods addictive?
•

The US courts do not think so (McDonalds case) as in 2001 5 obese
Americans took McDonalds to court on 5 counts:
–

–
–

–

–

•

Count I alleged that McDonalds failed to adequately disclose the ingredients and/or health
effects of ingesting certain of their food products with high levels of cholesterol, fat, salt and
sugar; described their food as nutritious; and engaged in marketing to entice consumers to
purchase “value meals” without disclosing their detrimental health effects
Count II focused on marketing techniques geared toward inducing children to purchase and
ingest McDonalds' food products
Count III McDonalds acted at least negligently in selling food products that are high in
cholesterol, fat, salt and sugar when studies show that such foods cause obesity and detrimental
health effects
Count IV alleged that McDonalds failed to warn the consumers of their products of the
ingredients, quantity, qualities and levels of cholesterol, fat, salt and sugar content and other
ingredients in those products, and that a diet high in fat, salt, sugar and cholesterol could lead to
obesity and health problems
Count V alleged that McDonalds acted negligently in marketing food products that were
physically and psychologically addictive

The case was dismissed and subsequent legislation now prevents
consumers taking food manufacturers to court
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Are such foods addictive?
• However, a lot has changed since that court case
and the science has become somewhat more
persuasive
– Mouse data on sugar (but...)… but not fat
– Changes in brain reward areas in human obesity
(contentious, not replicable)
• Vicious circle models – degrading self-control
• Susceptibility to addiction – Binge Eating Disorder

• When it comes to social significance for research
topics in the area of appetite and ingestive
behaviour you cannot get more pertinent than this
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Conclusion
• Caffeine is probably benign with few if any negative effects
• Alcohol, on the other hand, has serious adverse effects on
the health of many people - but it is also very popular and is
a major source of tax revenue
• And what if certain types of food lead to overconsumption
and obesity – this would vastly overshadow the societal
costs of alcohol
• So how does society balance up the costs and benefits of
choice versus regulation?
• Where do we draw the line between personal choice to indulge
and the societal costs of that indulgence?
• This question is well worth pondering as it is represents a key
philosophical difference between the political left (‘nanny
state’) & right (‘free to choose’)
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