Thursday, March 19, 2009

Prevalence and Incidence of Alcoholism and Tolerence

Prevalence and Incidence

 

What is Prevalence?

Prevalence is a frequently used epidemiological measure of how commonly a disease or condition occurs in a population. Prevalence measures how much of some disease or condition there is in a population at a particular point in time. The prevalence is calculated by dividing the number of persons with the disease or condition at a particular time point by the number of individuals examined.

 

What is Incidence?

The incidence of a disease is another epidemiological measure. Incidence measures the rate of occurrence of new cases of a disease or condition. Incidence is calculated as the number of new cases of a disease or condition in a specified time period (usually a year) divided by the size of the population under consideration who are initially disease free.

 

Epidemiology: The study of disease as it occurs in populations, rather than in individuals.

 

c) Alcohol

Objectives : The objectives of alcohol module are to determine the prevalence of alcohol use, the pattern of alcohol consumption in the general population, and to explore the determinants for starting and continuing alcohol use.

Method : Population-based cross-sectional survey covering all genders aged 13 years and above using pre-design self administered questionnaire.

Result : The response rate for this module was 52.5%. The prevalence of ever consume alcohol was 16.2% while current drinker was 7.4% and 29.1% of ever consume alcohol had stopped drinking for the past one year. For current drinker the prevalence was higher in Sarawak state (15.0%), in urban area (8.9%), among males (11.8%), Chinese (23.8%), age group between 70 – 74 years old (10.4%), Christians (25.6%), senior officer / manager (24.8%), and those married (7.9%). The respondents with tertiary level of education reported the highest prevalence (13.7%). Generally it was noted that the prevalence was highest among those who earned RM 5000 and above per month with a prevalence of 16.3% increased with household income. Similar trend was observed when the comparison was based on the personnel income. The reported mean age of starting to drink alcohol in Malaysia was 20.98 years old. Peer influenced was the main reason for initiation (53.4%) as well as continuing consumption of alcohol (37.1%). A group consists of Beer, Stout, Lager, Ale, Shandy was the most being consumed by the respondents with a prevalence of (93.3%) followed by a group of Red, White, Rose Wine/Champagne/Sherry/Vermouth And Tuak (55.8%) then by group of Whisky, Rum, Toddy ( 29.9% ). Prevalence of binge drinker was 30.6%. It was more common in rural (32.7%) and higher among males (31.8%). Overall, 46.0% of the respondents claimed that they had attempted to stop drinking with an average of 3.4 quit attempts. Among the successful quitters, 51.2% cited negative health effects as the main reason for quitting.

 

 

http://www.blackwellpublishing.com/specialarticles/jcn_9_188.pdf

http://www.nih.gov.my/NHMS/abstracts_14.html

Tolerence

Tolerance means that more of a drug is required to achieve an effect. Tolerance to alcohol can be demonstrated in two ways. First, the effect of a given dose of alcohol decreases as tolerance develops. Second, a greater dose of alcohol is required to produce a given effect. People may become tolerant to the desired effects of alcohol as well as to its aversive (unpleasant) effects. Tolerance can develop after a period of chronic alcohol exposure (protracted tolerance) or after a single dose (acute tolerance). It also can be expressed as strong individual and animal strain differences in initial sensitivity to alcohol (innate tolerance).

 

The development of tolerance allows and encourages increased intake of alcohol because more of the drug is required to achieve the same effect. There are several consequences of tolerance. The first is that higher blood levels of alcohol, maintained for longer periods of time, result in increased damage to many organ systems. Particularly vulnerable are the stomach, where bleeding occurs, and the liver, where fat deposition and cirrhosis occur. In addition, chronic alcohol consumption results in increased alcohol metabolism, as explained below. The metabolism of alcohol upsets the energy balance of the cell and results in altered metabolism of hormones and other compounds by the liver.

 

http://findarticles.com/p/articles/mi_m0847/is_n2_v14/ai_9858901

Summary

Alcoholism

 

What is Alcohol Abuse?

Drinking is most often done by many to enhance their social activities and to relax one self. Using alcohol in this way is not harmful for most adults.

However some people tend to drink over their limits which at times lead to negative effects on the different aspects of their lives, including health, relationships, work or school and money, and are considered to have an alcohol Problem. These problems can range from mild to severe

 

What is Alcoholism?

It is also known as Alcohol Dependence syndrome which is characterized by Craving, Loss of Control, Physical Dependence and the need for increasing amounts of alcohol to get high. Basically it is the “Uncontrollable need of a person for Alcohol”.

 

Prevalence and Incidence of Alcoholism in Malaysia

Prevalence is a frequently used epidemiological measure of how commonly a disease or condition occurs in a population. The incidence of a disease is another epidemiological measure. Incidence measures the rate of occurrence of new cases of a disease or condition.

 

How do you Diagnose Alcoholism?

This is done using a few different methods such as the CAGE questions, the Michigan Alcohol Screening Test (MAST) and also the Alcohol Use Disorder Identification test. The CAGE questions are the basic and most common tool for Doctors to realize that a patient has a high likelihood of having Alcoholism. Cage questions are not a diagnostic Tool for Alcoholism.

 

How is Alcohol Metabolized?

Alcohol is readily absorbed in the gastro intestinal tract, however it cannot be stored and therefore the body must oxidize it first. Oxidation of Alcohol occurs in the Liver. This is because the enzymes needed to catalyze the oxidation of alcohol are only present in the liver.

CH3CH2OH + NAD+ ---> CH3CH=O + NADH + H+

A number of metabolic effects from alcohol are directly linked to the production of an excess of both NADH and acetaldehyde.

 

Nutritional Effects of Alcohol Consumption?

Proper Nutrition is needed for providing energy and to maintain body structure and function. Alcohol interferes with the normal metabolism such as absorptions and storage of essential Nutrients. It does this by either reducing the secretion of digestive enzymes from the pancreas, damaging the cells lining the stomach and by disabling transport of nutrients into blood. This combined with the fact that alcohol contains calories which do not provide any vital nutrients but does lead to a decrease in demand for other nutritional foods can lead to malnutrition.

 

Toxic Effects of Alcohol

Complications with the Liver, Pancreas, Heart, Brain and related blood vessels can arise due to the toxic effects of Alcohol. This is mainly due to the excess NADH and acetaldehyde. Other known diseases due to the toxicity of alcohol are Fatty Liver, Hypoglycemia, Neuro degeneration, Hyperlipidermia, damage to the Heart, Hepatitis C. Sometimes Alcoholics have sudden black outs also known as Amnesic Episodes.

 

What are Hangovers?

Unpleasant physical and mental symptoms like fatigue, headache, dizziness, muscle aches, and thirst after heavy alcohol drinking. The symptoms experienced and their intensity varies according to the person, occasion, type of alcoholic beverage consumed and the amount a person drinks.

How Does Alcohol Contribute to Hangovers?

The impact of alcohol can be seen in 4 different areas which are;

1.       Dehydration and fluid Imbalance,

2.       Gastrointestinal Disturbances,

3.       Low Blood Sugar levels and

4.       Disruption of sleep and other biological rhythms.

 

Management & Treatments Available for Alcoholism.

Since most people drink alcoholic beverages as a social activity reduction of alcohol consumption can be done moderately by having drinks with less alcohol, alternate between alcoholic and soft drinks, consider cutting down social activities that involve drinking.

Some people who have been drinking a lot of alcohol suddenly stops drinking, they may have symptoms that are commonly known as withdrawal symptoms. These range from mild to sever physical and psychological aspects and sometimes some alcoholics experience Delirium tremens which is a more severe withdrawal symptom. Alcohol Rehab process mainly focuses on the physical and psychological dependency.

 

What are the primary elements of Alcohol Rehab?

 Alcohol Detoxification - This is the initial part of the recovery process. Detox involves stopping the consumption of alcohol and giving the body the time it needs to cleanse itself of the harmful toxins associated with wine, liquor or beer.
Counseling - The core of any alcohol rehabilitation programs is counseling. During sessions with a counselor or therapist, the individual learns relapse prevention skills, receives education about alcoholism, and discovers the triggers that cause their unwanted behavior. Counseling in alcohol rehab takes two forms: individual and group sessions.
Aftercare - When an individual "graduates" from alcohol rehab, they must then return to the outside world. This is not always as easy as it sounds, as individuals face a number of challenges when they return home after treatment, including Temptation, Stress and distraction, a lack of understanding.

 

Biochemistry, Toxicity

Biochemistry, Toxicity


When drinking alcohol, it diffuses to the blood easily because it is soluble in water and can enter the body with it. It enters the body from two ways.


  1. The stomach: only a small percentage of alcohol diffuses into the blood via the stomach. alcohol is irritant to the stomach, so it affects its lining and might cause vomiting.


  1. The small intestine: most of alcohol consumed enters the body through the small intestine.


Alcohol circulates in the blood. and since alcohol is considered a toxin to the body. the body needs to break it down. this process is done by the liver. so most of the alcohol consumed goes to the liver to be processed.


Effects on the liver:


The process of breaking down ethanol (alcohol) is to oxidize it to acetaldehyde with the help of alcohol dehydrogenase enzyme.


Acetaldehyde actually is 10-30 times more toxic than alcohol. also it is cocarcinogenic and mutagenic. Therefore, it has to be broken down.


The liver breaks it down acetic acid with the help of acetaldehyde dehydrogenase enzyme. In alcoholics, this process is slow due to the impaired function of liver from previous abuse.


Acetic acid as well is very toxic to the body, so the liver converts it to either [ CO2 + H2O ] or to fats depending on the energy needs.


this whole process will lead NAD+ to be converted to NADH. High NADH level will increase the glycerol 3-phosphate which will lead to an increase in the level of esterification of fatty acids. NADH inhibits the break down of fatty acids and help increase their synthesis.


Therefore, the liver needs NADH to be converted back to NAD+ . this can happen in the conversion of pyruvate to lactate (lactate dehydrogenase enzyme). so the liver will use the pyruvate in this process instead of using it in glyconeogenisis. Therefore, this will result in a decrease of the supply of glucose to tissues especially the brain. This is the reason for hangover (fatigue, weakness, mood disturbance, low attention and low concentration).


Effects on the Brain:


  1. indirectly: no nutrition supply as mentioned above.


  1. directly: alcohol itself is a depressant to the brain. It lowers the activity of the nervous system. the brain is divided to many region each responsible for some activities. those regions are connected by neurons. neurons communicate with each other via chemical and electrical signals. NTs (neurotransmitters) are responsible to convey the signal. Alcohol has effect on some NTs.


Most important NTs affected by alcohol:


  • Glutamate: it is a excitatory NT. Alcohol affects it by inhibiting it leading to inhibition of signals.


  • GABA: Inhibitory: Alcohol acts on the GABA receptors to facilitate their action leading to an enhanced inhibition.


  • Dopamine: it is for rewarding process. it leads to code the experience or memory of alcohol, drugs, sex, food, etc in the cortex of the brain. this can influence promote subsequent behavior such as further consumption of alcohol. Alcohol activates the secretion of Dopamine.


  • Serotonin: It is for rewarding process as well. It leads to mood compulsive disorders and aggression. It also is activated by alcohol.


Effects on the kidney:


Alcohol affects the function of the kidney. It impairs its ability to regulate the level of fluids by affecting the brain as mentioned above. It also induces the urine flow by:


  1. Affecting ADH which will inhibit the reabsorption of fluids leading to large volume of urine to be excreted.


  1. Affecting the level of pH in the body:
  • It will lower the level of phosphate due to hyperventilation during withdrawal from alcohol.
  • Alkalosis (low acidity) due to severe vomiting after binge drinking which causes loss of fluids, salts and stomach acid.

Wednesday, March 18, 2009

Hangover - EDITED



Hangover is characterized by the combination of unpleasant physical and mental symptoms that occur after a bout of heavy alcohol drinking. Physical symptoms of a hangover include fatigue, headache, increased sensitivity to light and sound, redness of the eyes, muscle aches, and thirst. Signs of increased sympathetic nervous system activity can accompany a hangover, including increased systolic blood pressure, rapid heartbeat (i.e., tachycardia), tremor, and sweating. Mental symptoms include dizziness; vertigo; and possible cognitive and mood disturbances, especially depression, anxiety, and irritability.

Symptoms of Hangover

Class of Symptoms

Type

Constitutional

Fatigue, weakness, and thirst

Pain

Headache and muscle aches

Gastrointestinal

Nausea, vomiting, and stomach pain

Sleep and biological rhythms

Decreased sleep, decreased REM(rapid eye movements), and increased slow-wave sleep

Sensory

Vertigo and sensitivity to light and sound

Cognitive

Decreased attention and concentration

Mood

Depression, anxiety, and irritability

Sympathetic hyperactivity

Tremor, sweating, and increased pulse and systolic blood pressure



The particular set of symptoms experienced and their intensity may vary from person to person and from occasion to occasion. Besides, it may depend on the type of alcoholic beverage consumed and the amount a person drinks. Typically, a hangover begins within several hours after the cessation of drinking, when a person's blood alcohol concentration (BAC) is falling. Symptoms usually peak about the time BAC is zero and may continue for up to 24 hours thereafter.

Overlap exists between hangover and the symptoms of mild alcohol withdrawal (AW), leading to the assertion that hangover is a manifestation of mild withdrawal. Hangovers, however, may occur after a single bout of drinking, whereas withdrawal occurs usually after multiple, repeated bouts. Other differences between hangover and AW include a shorter period of impairment (i.e., hours for hangover versus several days for withdrawal) and a lack of hallucinations and seizures in hangover. People experiencing a hangover feel ill and impaired. Although a hangover may impair task performance and thereby increase the risk of injury, equivocal data exist on whether hangover actually impairs complex mental tasks.

http://alcoholism.about.com/od/hangovers/a/causes.htm

http://biology.about.com/library/weekly/aa010104b.htm

http://en.wikipedia.org/wiki/Hangover

http://biology.about.com/library/weekly/aa010104a.htm

Clnical Features of Alcoholism (majorly edited)

What Is Alcohol Abuse?
•People whose use of alcohol has negative effects on any aspect of their lives, including health, relationships, work or school and money, are considered to have an alcohol problem
•Severity factors: type of alcohol you drink, how much you drink, and how long you have been drinking.
•Levels of alcohol use and abuse:
moderate drinking;
at-risk drinking;
alcohol abuse; and
alcohol dependence (alcoholism).

Moderate Drinking
•men: no more than two drinks per day
•women: no more than one drink per day (due to smaller amount of water in their bodies)
•over age 65: no more than one drink per day (besides smaller amount of water, have medical conditions that can be worsened by alcohol and take medicines that can have harmful effects when mixed with alcohol)
•A standard drink is considered to be:
12 ounces of beer or wine cooler;
5 ounces of wine; or
1.5 ounces of 80-proof distilled spirits
At-Risk Drinking
•drinking that poses a risk of developing problems:
men: more than 14 drinks per week or more than 4 drinks per sitting.
women: more than 7 drinks per week or more than 3 drinks per sitting.

Alcohol Abuse
•Involves one or more of the following problems within a one-year period:
Failure to carry out major responsibilities at work, school, or home;
Drinking in physically dangerous situations, such as while driving;
Legal problems related to using alcohol; and
Continued drinking despite ongoing problems in relationships with other people that are related to alcohol use.
Alcohol abuse does not involve physical dependence on alcohol. But if it is not treated, alcohol abuse can lead to alcohol dependence.

Alcohol Dependence
•"alcoholism”, chronic and potentially fatal disease in which a person is addicted to alcohol
•characterized by three or more of the following occurring in a one-year period:
Tolerance: increasing amounts of alcohol needed to get the same effect.
Withdrawal symptoms, such as shakiness, sweating, nausea, anxiety, and depression (symptoms of increased excitability of the central nervous system= delirium tremens or “DTs”)
Drinking larger amounts and for longer than you intended.
Inability to cut down or quit drinking.
Spending a lot of time getting and drinking alcohol or recovering from its effects.
Reducing or giving up important work or leisure activities.
Continued use despite the physical or emotional problems it causes to the drinker or other people.

Diagnosis of Alcoholism
•usually recognized by the friends and family of the drinker.
•C.A.G.E is usually practised clinically.
•Diagnostic tests used by docs:
Michigan Alcohol Screening Test (http://www.ncadd-sfv.org/symptoms/mast_test.html)
Alcohol Use Disorders Identification Test (http://www.testandcalc.com/etc/tests/audit.asp)
•However, a common symptom of alcoholism is denial!

Amnesic Episodes (Blackout)
- Long term memory creation is imparted.
- Similar to anterograde amnesia
- Believed to disrupt activity of the hippocampus
(part of the brain that is involved in the formation of memory)
- Not directly dependant on amount of alcohol consumed

http://pubs.niaaa.nih.gov/publications/arh27-2/186-196.htm


Liver Damage
(i) Fatty Liver
- build up of fat around liver
- appears within 3-7 days after excessive drinking

Signs and Symptoms
- usually none.
- sometimes an enlarged liver and tenderness in the

(i) Alcoholic Hepatitis

What is it?
Inflammation of the liver

Why does it happen? :
Consumption of alcohol causes the liver to break ethyl ethanol down to acetaldehyde (highly toxic)
Acetaldehyde triggers inflammation and destroys liver cells.

Symptoms
• Loss of appetite
• Nausea and vomiting, sometimes with blood
• Abdominal pain and tenderness
• Yellowing of the skin and whites of the eyes (jaundice)
• Fever
• Abdominal swelling due to fluid accumulation (ascites)
• Mental confusion
• Fatigue
• Dry mouth
• Unusual thirst

http://www.mayoclinic.com/health/alcoholic-hepatitis/DS00785/DSECTION=causes

Test and diagnosis
(a) full medical history, including drinking habits and a physical exam
(b) Blood tests. These check for high levels of certain liver-related enzymes
Eg. gamma-glutamyltransferase (GGT), aspartate aminotransferase (AST) and alanine aminotransferase (ALAT).
(c) Ultrasound. the liver may be enlarged
and to rule out other problems such as gallstones or bile duct obstruction.
(d) Liver biopsy.
(http://www.patient.co.uk/showdoc/27000462/)

(iii) Cirrhosis
What it is:
irreversible replacement of a large amount of normal liver tissue with non-functioning scar tissue.
The scar tissue forms bands throughout the liver,
Destroys the liver's internal structure
impairs the liver's ability to regenerate itself or function.

Why does it happen?
Similar reason to alcoholic hepatitis

Symptoms
• weakness
• fatigue
• loss of appetite
• nausea
• vomiting
• weight loss
• abdominal pain and bloating when fluid accumulates in the abdomen (ascites)
http://www.merck.com/mmhe/sec10/ch135/ch135e.html
• itching

Test and Diagnosis
Similar to Alcoholic Hepatitis

http://www.merck.com/mmhe/sec10/ch136/ch136c.html

Cardiomyopathy
What is it?
Heart muscles weakens due to excessive alcohol intake

Causes
heart becomes enlarged
heart muscle thins
pump inefficiently,
leads to heart failure.

Symptoms
There are usually no symptoms until the disease is in an advanced stage. At that point, the symptoms occur due to heart failure and may include:
• Awakening during the night with shortness of breath)
• Breathing difficulty while lying down (orthopnea)
• Cough containing mucus, or pink, frothy material
• Decreased alertness or concentration
• Fatigue, weakness, faintness
• Irregular or rapid pulse
• Loss of appetite
• Sensation of feeling the heart beat (palpitations)
• Shortness of breath, especially with activity (dyspnea)

http://www.nlm.nih.gov/medlineplus/ency/article/000174.htm


Cognitive impairment
Damage to the brain occurs, especially the frontal lobe.
This results in :
-loss of memory, deterioration of personality and loss of intellectual ability. Interpersonal skills, attendance to usual interests and responsibilities may deteriorate and self-neglect may result.

Depression caused by a direct effect of alcohol on the brain and exacerbated by social problems that include unemployment, divorce and debt. There is an increased incidence of deliberate self-harm. The suicide rate is increased six fold in people who are dependent upon alcohol.

Anxiety. People often use alcohol to relieve symptoms of stress and anxiety. However, anxiety symptoms increase during periods of withdrawal, leading to a cycle of increased consumption.

Psychosis. Alcoholic hallucinosis is a rare condition that is not due to alcohol withdrawal. Auditory hallucinations, often derogatory, develop in an otherwise clear consciousness. The condition usually lasts for a few days, but can persist after several months of abstinence.

Hepatic Encelopathy

What is it?
deterioration of brain function that occurs because toxic substances normally removed by the liver build up in the blood and reach the brain

Causes
Usually due to alcoholic binging

Signs and symptoms
• decreased brain function
• subtle changes appear in logical thinking, personality, and behavior.
• Normal sleep patterns may be disturbed.
• Seem drowsy and confused
• movements and speech become sluggish
• Disorientation is common
• lose consciousness and lapse into a coma.

http://www.merck.com/mmhe/sec10/ch135/ch135f.html

Acute intoxication symptoms

•Alcohol increases the effect of the body's naturally occurring neurotransmitter GABA (gamma amino butyric acid), an inhibitory neurotransmitter reduces this signal flow in the brain. This explains how alcohol depresses both a person's mental and physical activities.
Resulting:
•Disinhibition of normal social functioning (excessive talking, showing off)
•Loss of memory
•Confusion
•Disorientation
•Movement not coordinated
•Progressive lethargy
•Coma
Ultimately the shutdown of the respiratory centers (death)

Atrial fibrillation(AF)

•irregular and often rapid heart rhythm (arrhythmia)
•electrical impulses running through the heart being delayed or disrupted
•develops when muscles in the heart's upper chambers contract too quickly, resulting in an ineffective, irregular heartbeat
•Irregularity can be continuous, or it can come and go
•the heart pumps blood less efficiently, allowing blood to pool within its chambers and increasing the risk of heart attack, stroke, and heart failure.
•However, moderate alcohol consumption is associated with a lower risk of cardiovascular disease than abstention or heavy drinking among older adults in observational studies (done in the US in 2007)
•development of AF after an episode of heavy alcohol intake is sometimes called "holiday heart syndrome."

Blood

•Alcohol excess can cause:
1)Anaemia due to deficiency of folic acid, resulting in fatigue.
Folic acid (Vitamin B9)- needed for the production of deoxyribonucleic acid (DNA) in all tissue cells and is a component of three of the four DNA bases -- thymine, adenine, and guanine -- (the fourth is cytosine).
In bone marrow, it is required for the normal production of the red blood cells and for RNA synthesis.
Alcohol abuse contributes to this type of anemia since alcohol interferes with folate metabolism in the liver, resulting in a profound depletion of folate stores.
2)A reduction in the white blood cells [leucopaenia] resulting in an increased susceptibility to infections.
Also caused by the shortage of vitamin B9.
3)A reduction in the platelet count [thrombocytopaenia] resulting in an increased tendency to bleeding and bruising.
Also caused by the shortage of vitamin B9.

Cerebellar degeneration
•The cerebellum sits in the lower portion of the skull, behind the brain stem. One of its main jobs is to smoothly coordinate movements.
•This disorder occurs more commonly among men. It is characterized by an unsteady gait, instability of the trunk, and poor coordination of the extremities. Additionally, difficulties with speech may occur. The disorder may progress over weeks or months.
•Alcoholic cerebellar degeneration is most likely due to nutritional deficiencies, such as the vitamin deficiencies seen in Wernicke-Korsakoff's syndrome.

Wernicke Korsakoff syndrome
•Wernicke-Korsakoff syndrome is a severe memory disorder usually associated with chronic excessive alcohol consumption, although the direct cause is a deficiency in the B vitamin thiamin.
•mental confusion, eye movement disorders, and ataxia (poor motor coordination)
•Thiamine helps produce energy needed to make neurons function properly. Insufficient thiamine can lead to damage or death of neurons.
•Thiamine deficiency damages regions of the brain, particularly the thalamus and the mammillary bodies.
•a syndrome of anterograde amnesia—an inability to form new memories—and confabulation in individuals with severe alcoholism or certain medical illnesses. (Confabulation refers to the practice of filling in gaps in memory by fabrication.)

Myopathy
•Breakdown of muscle tissue (myonecrosis), can come on suddenly during binge drinking or in the first days of alcohol withdrawal.
•The severe form - sudden onset of muscle pain, swelling, and weakness; a reddish tinge in the urine caused by myoglobin, a breakdown product of muscle excreted in the urine; and a rapid rise in muscle enzymes in the blood.
•Muscle atrophy occurs. The nerves of the extremities may also begin to break down, a condition known as alcoholic peripheral neuropathy.
•Proposed mechanisms:
Alcohol - metabolized in the liver, ethanol à acetate. Acetate is metabolized by skeletal muscle, and alcohol-related changes in liver function may affect skeletal muscle metabolism, decreasing the amount of blood sugar available to muscles during prolonged activity.
Because not enough sugar is available to supply needed energy, muscle protein may be broken down as an alternate energy source.
However, toxic effects on muscle may be a direct result of alcohol itself rather than of its breakdown products.

Alcoholic neuropathy
•decreased nerve functioning
•Otherwise known as primary axonal sensorimotor peripheral polyneuropathy
•May also be referred to as peripheral neuritis (Inflammation of a nerve accompanied by pain and sometimes loss of function), or if many nerves are involved, the terms polyneuropathy or polyneuritis may be used.
•May have tingling, numbness, unusual sensations, weakness, burning pain, impotence (in men), swallowing difficulty, speech impairment, loss of muscle function or feeling.
•However, it is unclear whether alcohol alone is responsible for the neuropathic symptoms, because chronic alcoholism is strongly associated with malnutrition.
•May also be the toxic effect of alcohol on nerve tissue
•Alcohol is very rich in energy, packing 7 calories per gram, thus causing euphoria, which depresses appetite, so that heavy drinkers tend to eat poorly and become malnourished.
•It is suspected that the B vitamins have a significant role. For example, thiamine (vitamin B1) deficiency, as it affects the CNS and PNS.

Pancreatitis
•acute pancreatitis - sudden inflammation of the pancreas. Can be mild or life threatening. However, the pancreas can usually return to normal function after the condition clears up. When patients suffer repeated attacks of acute pancreatitis, the pancreas gradually becomes scarred. This leads to the 2nd stage of pancreatitis.
•Chronic pancreatitis = 2nd stage. When the pancreas becomes inflamed, the digestive enzymes that it produces begin to attack its own tissues. Chronic pancreatitis always causes permanent damage to the pancreas. Over time, it is more difficult for the damaged pancreas to produce normal digestive enzymes and hormones.
•One theory is that excessive alcohol leads to protein plugs - precursors to small stones - that form in the pancreas and block parts of the pancreatic duct.
•Another theory is that alcohol directly injures pancreatic tissues.
•Alcohol now is known to exert a number of toxic effects on acinar cells. Notably, acinar cells have been shown to metabolize alcohol (i.e., ethanol) via both oxidative (i.e., involving oxygen) and non-oxidative pathways.

Alcohol Hangover-Clinical Effect

Alcohol Hangover : Unpleasant physical and mental symptoms like fatigue, headache, dizziness, muscle aches, and thirst after heavy alcohol drinking.

How alcohol contributes to a hangover :


1) Dehydration and electrolyte imbalance :

Fluid lost through :
  • vomitting
  • diarrhea
i) Alcohol inhibits the release of antideuretic hormone
ii)reduced levels of antideuretic hormone prevent the kidney from reabsorbing water
iii) increase urine production
iv) fluid loss
electrolyte imbalance:
  • Sweating - water evaporates from the body and release salts, eg. Sodium(Na+), Potassium(K+), Magnesium (Mg+), Calcium (Ca 2+), Chloride (Cl-)

2) Gastrointestinal Disturbances

i) alcohol increases the production of gastric acid, pancreatic and intestinal secretions

ii) Irritates ths stomach and intestines

iii) Inflammation of the stomach lining

iv) Cause upper abdominal pain, nausea and vomitting.

3) Low Blood Sugar (hypoglycemia - fatigue, weakness and mood disturbances {symptoms of hangover})

i) Too much intake of alcohol

ii) ethanol >>>>>> acetaldehyde (by enzyme alcohol dehydrogenase)

iii) acetaldehyde >>>>>acetic acid (by enzyme alcetaldehyde dehydrogenase)

iv) NAD+ >>>> NADH (reaction (ii) and (iii) cause this reaction to occur)

v) lactate + NAD+ >>><<<<> >>>>>pyruvate + NADH

pyruvate >>>>>>> glucose (glyconeogenesis)

v) more NADH, (reverse reaction) , more lactate which leads to lactic acidosis

vi) less pyruvate, less glucose formation and hence hypoglycemia

_____________________________

i) Prolonged alcohol consumption

ii) poor nutritional intake

iii) decrease glucose production

iv) glucose stored in liver in the form of glycogen is used

v) more glucose is lost

vi) hypoglycemia

Effect of Hangover :

Disruption of sleep and other biologucal rhythms :

The fatigue experienced during a hangover results from alcohol's distruptive effects on sleep. Alcohol induced sleep may be shorter duration and poorer quality because of rebound excitation after blood alcohol concentration fall.

Alcohol intoxication also interferes with the circadian nightime secretion of growth hormone, whici is important in bone growth and protein synthesis.

Alcohol induces the release of adrenocorticotropic hormone from the pituitary gland, which in turn stimulates the release of cortison, a hormone that plays a role in carbohydrate metabolism and stress response. Alcohol disrupt the normal circadian rise and fall or cortisol levels. Overall, alcohol's disruption of circadian induces a "jet lag" that is hypothesized to account for some of the deleterious effects of a hangover.

Link :

http://www.reactivehypoglycemia.net/alcohol-and-hypoglycemia.html

http://biology.about.com/library/weekly/aa010104a.htm

CAGE questionnaire

CAGE questionnaire
· The CAGE Questionnaire was developed in 1970 by Dr John A Ewing. It is a combination of 4 simple questions that can be used for the screening of patients for alcoholism.
· The questions focus on Cutting down, Annoyance by criticism, Guilty feeling, and Eye-openers. The acronym "CAGE" helps the physician to recall the questions.
· The 4 questions are "Have you ever:
(1) felt the need to cut down your drinking;
(2) felt annoyed by criticism of your drinking;
(3) had guilty feelings about drinking; and
(4) taken a morning eye opener?
· A positive response to the CAGE interview is not a diagnostic of alcoholism. A positive response should, however, alert the interviewer to the high likelihood of the presence of alcoholism.
· A total of two or more positive answers indicate a positive history of alcoholism.
· Studies have shown that many physicians miss the diagnosis of alcoholism.
· This questionnaire has to be completed as part of the patient’s medical history, so that the patient is not feel defensive.
· The questions refer to the whole life of the patient and not for this month or for the past year.
· It does not provide information about quantity, frequency, or pattern of drinking. These questions should be asked after the CAGE questions for the assessment to be valid.
· There are other tests such as the Michigan Alcohol Screening Test(MAST), which consists of 25 questions that inquire about drinking behaviour or adverse consequences of alcohol drinking. Another is the Alcohol Use Disorders Identification Test, which was designed to be sensitive to signs of hazardous and harmful drinking as well as alcohol dependence. However, but given the reluctance of busy primary care physicians to use the brief CAGE questions, the longer instruments are not likely to achieve broad acceptance
· One option adopted by some clinicians is to use the CAGE as a portable memorized instrument along with standard questions about quantity and frequency of drinking. The clinicians can then administer the Alcohol Use Disorders Identification Test or the Michigan Alcohol Screening Test, which can be self-administered for patients who require further investigation and possible referral to specialized treatment.
· The CAGE questions move the discussion toward the behavioural effects of the drinking rather than toward an isolated number of drinks per day.

References:

http://jama.ama-assn.org/cgi/content/full/300/17/2054

http://jama.ama-assn.org/cgi/data/300/17/2054/DC1/1

http://www.palliative.org/PC/ClinicalInfo/AssessmentTools/CAGE.PDF

Michigan Alcohol Screening Test (MAST) questions

http://www1.alcoholcme.com/?id=1776:8953

Alcohol Use Disorders Identification Test(AUDIT) questions

http://www.mentalneurologicalprimarycare.org/downloads/primary_care/11-2_audit_questionnaire.pdf