Summer House

They don’t know each other, but they have much in common:

They’re both from small towns — Masure from St. Johnsbury, Vt., Payne from Hanover, Va. They used to steal beers from their dads before branching out into a variety of drugs.

They have been "clean" for three years, thanks in part to several 12-step program meetings each week. And they’re both preaching what they practice by working for organizations that offer support to people and families struggling with addiction.

Their stories touch upon themes made clear recently by scientists searching for answers about the genesis and treatment of addiction. The questions have plagued researchers for decades, but only in the past several years have they had the tools — such as technology that provides a real-time view of brain function — to unravel them.

The 2004 National Survey on Drug Use and Health found that of Americans 12 and older, nearly 8.4 million were addicted to alcohol and nearly 5 million were addicted to other drugs. About 1.4 million were addicted to both, according to the survey by the federal Substance Abuse and Mental Health Services Administration.

Thanks to advances in neurobiology, "we have enormous knowledge now of what’s going on" in addicts’ brains, says George Koob, professor of molecular integrative neuroscience at the Scripps Research Institute in La Jolla, Calif. Koob, who calls himself an "irrepressible optimist," says he is hopeful that new insights into the mechanisms of addiction will lead to new treatments and reduced suffering.

They might debate the terms used to describe addiction, but top scientists in the field pretty much agree on what it is.

"The inability to stop is the essence of what addiction is," says Nora Volkow, director of the National Institute of Drug Abuse, part of the National Institutes of Health. As Payne, 27, puts it, "my favorite drug was more and all."

That’s not to say that people who can’t make it through the day without latte grandes or Ghirardelli chocolate are addicts, says Volkow, a self-professed "chocoholic" who has pioneered brain-imaging studies of addiction. Caffeine does activate some of the same brain circuits as the drugs of addiction, but only very mildly, she says. Caffeine can be habit-forming, but Starbucks devotees won’t risk jail time or divorce to feed their habit.

Nor is addiction the same as dependence, although the American Psychiatric Association’s diagnostic manual says it is, says Volkow, who’s pushing to drop that wording. "Addiction is much harder to treat. Everybody given an opiate (such as morphine) will become physically dependent, but not everybody will become an addict."

They don’t know each other, but they have much in common:

They’re both from small towns — Masure from St. Johnsbury, Vt., Payne from Hanover, Va. They used to steal beers from their dads before branching out into a variety of drugs.

They have been "clean" for three years, thanks in part to several 12-step program meetings each week. And they’re both preaching what they practice by working for organizations that offer support to people and families struggling with addiction.

Their stories touch upon themes made clear recently by scientists searching for answers about the genesis and treatment of addiction. The questions have plagued researchers for decades, but only in the past several years have they had the tools — such as technology that provides a real-time view of brain function — to unravel them.

The 2004 National Survey on Drug Use and Health found that of Americans 12 and older, nearly 8.4 million were addicted to alcohol and nearly 5 million were addicted to other drugs. About 1.4 million were addicted to both, according to the survey by the federal Substance Abuse and Mental Health Services Administration.

Thanks to advances in neurobiology, "we have enormous knowledge now of what’s going on" in addicts’ brains, says George Koob, professor of molecular integrative neuroscience at the Scripps Research Institute in La Jolla, Calif. Koob, who calls himself an "irrepressible optimist," says he is hopeful that new insights into the mechanisms of addiction will lead to new treatments and reduced suffering.

USA Today — They might debate the terms used to describe addiction, but top scientists in the field pretty much agree on what it is.

"The inability to stop is the essence of what addiction is," says Nora Volkow, director of the National Institute of Drug Abuse, part of the National Institutes of Health. As Payne, 27, puts it, "my favorite drug was more and all."

That’s not to say that people who can’t make it through the day without latte grandes or Ghirardelli chocolate are addicts, says Volkow, a self-professed "chocoholic" who has pioneered brain-imaging studies of addiction. Caffeine does activate some of the same brain circuits as the drugs of addiction, but only very mildly, she says. Caffeine can be habit-forming, but Starbucks devotees won’t risk jail time or divorce to feed their habit.

Nor is addiction the same as dependence, although the American Psychiatric Association’s diagnostic manual says it is, says Volkow, who’s pushing to drop that wording. "Addiction is much harder to treat. Everybody given an opiate (such as morphine) will become physically dependent, but not everybody will become an addict."

A Review of What Works

Introduction

Alcoholism affects millions of people in the United States alone. According to the National Institute of Alcohol Abuse (NIAA), a division of the National Institutes of Health in Bethesda, Maryland USA, at least 700,000 Americans receive treatment for this disease every day. Some kinds of treatment, such as Alcoholics Anonymous (AA) have been around for many years while others are relatively new. Clinical research to determine the effectiveness of these various treatments has resulted in some important findings.

In October 2000 the NIAA released a summary of its conclusions based on fifteen years of research on alcohol treatments. According to the NIAA, self-help programs such as AA, psychotherapy and pharmacotherapy, either alone or in combination, are in fact effective and do reduce the use of alcohol.

Alcoholics Anonymous

Of all the treatments for alcohol misuse, Alcoholics Anonymous (AA) is probably the most well known. In AA, a form of "self-help" treatment, participants take part in a series of mental, written and verbal activities that can lead to recovery and abstinence. In one study, alcoholic patients who received inpatient and outpatient psychotherapy, as well as AA, had better outcomes than those patients who attended only one kind of treatment.

It is thought that AA helps people because it provides a new social network that replaces the alcohol abuser’s usual group of friends who drink with him or her, and provides a fellowship that inspires motivation and lends support toward the goal of reaching and maintaining abstinence. AA also teaches a set of coping skills so that, when stressed, the alcohol abuser has more constructive ways of coping, and does not need to turn to alcohol to escape his or her problems.

Another study, conducted at a Department of Veteran Affairs hospital, indicated that those alcoholic patients who underwent either cognitive-behavioral therapy (CBT) or a 12-step program in combination with CBT did better, over the long run, than those who participated in the 12-step program alone. (CBT entails learning coping skills, new ways of interpreting and reacting to stressful situations, and changing one’s destructive or maladaptive behavior patterns.) The patients who received the combination treatment stayed sober longer and were able to hold down a job for longer periods than those patients who received only CBT.

Both of these studies seem to show that a combination of some kind of psychotherapy and a 12-step program such as AA produces the most beneficial results for patients who use alcohol in excess.

Other beneficial treatments

Other promising treatments of alcohol abuse that are being studied include Motivational Enhancement Therapy (MET); couples therapy; Brief Intervention Therapy; dual-addiction treatment; and pharmacotherapy.

Motivational Enhancement Therapy: The key component of MET is an interviewing technique conducted by a trained psycho-therapist. The goal of this method is to increase an individual’s degree of motivation to stop drinking and to maintain abstinence. This is accomplished by the therapist gauging the individual’s readiness to change and then adjusting feedback accordingly. An intensive, individualized interviewing strategy, MET was demonstrated to overcome many patients’ disinclination to address their alcohol problem in treatment and increase their willingness to change.
Couples Therapy: Patients who include their non-alcohol abusing partners in their psychotherapy are more apt to attend therapy, and more likely to alter their unhealthy drinking habits. In one model of couples therapy known as Behavioral-Marital Therapy (BMT), communication and conflict-resolution skills are taught. When a relapse-prevention plan was added to this model, alcohol abstinence rates were even higher.

Brief Intervention Therapy: This treatment method usually takes place when alcohol users visit their primary care physicians. It typically entails the imparting of information about the negative consequences of drinking to excess, as well as supportive programs in the community. Two studies, carried out in the United States and Canada, showed that patients did reduce their alcohol consumption as a result of these interventions. This treatment seems to work best with those individuals who are at-risk for alcohol abuse. Those who are already dependent are better off being referred to specialized treatment programs.

Dual-addiction treatment: This method attempts to target both cigarette (nicotine) and alcohol dependencies at once. The use of one of these substances seems to make an individual more susceptible to dependence on the other. The rationale behind dual-addiction treatment is that reducing dependence on one may help a person reduce his or her reliance on the other. Although this is a newer approach to treatment, a recent study seems to suggest that this is indeed the case.
Pharmacotherapy: Finally, if taken on a regular basis, the drug naltrexone, approved by the U.S. Food and Drug Administration in 1995, can be a valuable aid in preventing relapse among recovering alcoholics receiving psychotherapy. Another medication, acamprosate, proved helpful in several European trials. (Editor’s note: It is now undergoing clinical trials in the United States.) Zofran, a medication usually used to prevent nausea during chemotherapy for cancer, was beneficial in the treatment of early-onset (i.e. those who started drinking heavily before age 25) alcoholism. Sertraline (Zoloft), an anti-depressant, was found to be helpful in reducing drinking in those with late-onset alcoholism.

Summary

Using proven methods of evaluating medical therapies, recent research reveals that many effective treatments exist to help people to stop drinking and maintain abstinence. These treatments include self-help groups such as AA, psychosocial approaches and medications.

Continued research in the field of alcoholism is likely to produce highly specific medications that will reduce the craving for alcohol. It will also yield an even broader range of therapies, including those mentioned here, that will improve the alcohol abusing person’s chance for recovery.

Over time, those who suffer from alcohol abuse and/or dependence will have even more and possibly better options for successful treatment. In the meantime, effective treatments already being offered by mental health professionals and community groups have been demonstrated to reduce alcohol use and promise a better life for people who make use of them.

Cocaine and methamphetamine are two drugs that are often linked together because they produce similar effects and because they belong to the same class of drugs called psychostimulants. In addition, they both have the potential for causing dependence and abuse which further strengthens the bond associate between them. Though there are many similarities, a fair number of differences do also exist, which will be discussed here.
 

Where Do They Come From?
 

Methamphetamine is man made, while cocaine is derived from the coca plant.
 

Is There A Difference in the Way They Are Used?
 

Both can be smoked, injected intravenously or snorted. The difference being that methamphetamine can be taken in pill form. In addition, cocaine can be used medically as an anesthetic and as an appetite stimulant while methamphetamine has no proven medical use.

Where and By Whom Are the Drugs Used?
 

Out of the two drugs, Methamphetamine has a much more defined area of use as well as stereotype of user. Statistics show that use of methamphetamine is highest in western areas of California, Honolulu, Hawaii, and western areas of the continental United States. Urban areas of California, Oregon, Arizona, Colorado and Washington, show increased use of methamphetamines. In recent years however, use of methamphetamine has increased in rural and urban areas of the South and Midwest.
 

Cocaine use varies so there is no geographic pattern that clearly delineates where the drugs are used. Cocaine use however, is usually significantly higher in large cities and metropolitan areas as opposed to non-metropolitan areas.
 

A possible reason for the difference between cocaine and methamphetamine addiction by area is that in rural areas, cocaine is not as easily accessible. Methamphetamine however, can be made in a garage or basement with household products, making it quite easy for individuals to make their own high.
 

Do They Produce The Same Effects?
 

* Perhaps the reason why cocaine and methamphetamines are confused is because both produce a very well received rush almost immediately. This is followed by feelings of extreme happiness or euphoria which is referred to as a rush.
 

* Methamphetamine’s high can last from eight to twenty four hours and fifty percent of the drug is removed from the body in twelve hours. Cocaine’s high on the other hand, lasts from twenty to thirty minutes and fifty percent of the drug is removed from the body in one hour.
 

* Both cocaine and methamphetamine, when injected intravenously or smoked, can cause an almost immediate rush which is followed by a high.
 

* When ingested nasally, which is referred to as snorting, neither methamphetamine nor cocaine cause a rush or a high. A similar effect is produced when methamphetamine is ingested orally.

Are the Physiological Effects Similar?
 

* Both methamphetamine and cocaine can cause immediate effects of irritability, anxiety, increased heart rate, blood pressure, body temperature and possible death. Methamphetamine’s and cocaine’s short-term effects also can include increased activity, respiration, and wakefulness, and decreased appetite.
 

* Chronic use of cocaine or methamphetamine can cause dependence and possibly stroke.
 

* In either case, cocaine or methamphetamine can lead to psychotic behavior. These behaviors are characterized by hallucinations, paranoia, violence, and mood disturbance.
 

* Some data suggests that violence is more common among methamphetamine users than among cocaine users. Drug craving, paranoia, and depression can occur in addicted individuals who try to stop using either methamphetamine or cocaine.
Is there a difference in neurotoxicity?
 

* Neurotoxicity refers to the toxic damage these drugs can incur on the brain, specifically on neuron transmission. Neurons are responsible for the processing and transferring of information. Methamphetamine can be neurotoxic in animal species ranging from mice to monkeys. Methamphetamine specifically damages neurons that produce serotonin and dopamine. Since the usual doses taken by humans are comparable to the doses causing neurotoxicity in animals, it is reasonable to believe that this also causes the same effect in humans.
 

* On the other hand, cocaine does not cause neurotoxic damage to dopamine and serotonin neurons.
 

Transmission of HIV/AIDS
 

Whether discussing methamphetamine or cocaine, a risk for HIV/AIDS still exists and must be considered when engaging in any type of sexual behavior.

Introduction
 

Cocaine is a intensely powerful addictive stimulant that acts directly on the brain. Cocaine was first extracted from the leaf of the Erythroxylon coca bush, which is endemic in South America, West Indies and Indonesia. Cocaine is one of the most commonly abused drugs and the majority of the individuals who use cocaine are also users of other drugs. The drug can generate a feeling of euphoria, hyperactivity and mental alertness. It can be rapidly highly addictive leading to relentless mental and physical problems.

The neuro-stimulating properties of the coca leaves are thought to have played some role in the development of the Inca People. Soon, the Spanish invaders quickly discovered the euphoric effects of the coca plant and introduced the plant to the Europeans, who also developed a great liking for the plant and its stimulating effects.
 

History
 

The plant was used for medicinal purposes as early as the 15th Century in Europe. In the 18th Century, concentrated forms of cocaine became available and it was soon discovered that the plant extract had some medical benefits. The drug was then widely used as a topical local anesthetic and because of its mental stimulating properties, was also used to treat depression. The use of cocaine in tonics and elixirs became widespread and it was also added to coca cola.
 

However, soon it was soon observed that drug was addictive and had profound effect on the psyche of the individual. Because of cocaine’s potent side effects, in the early part of the 20th Century, the Pure Food and Drug Act was introduced, which required that all cocaine be labeled in all medical products. However, this did not limit the use of cocaine and addiction to cocaine reached endemic proportions. In 1914, the Harrison Narcotics Act was introduced and banned the nonprescription use of cocaine products and labeled cocaine as a narcotic.
 

The Harrison Narcotics Act did nothing to diminish the use of cocaine and over the next 50 years, cocaine became the number one illicit drug used in North America. In the 70s and 80s, a new cheaper formulation of cocaine became available on the market and it has today become the favorite drug among teenagers and socially deprived individuals. By the mid-1980s, the emergency rooms were again becoming full with individuals with cocaine-related problems. Physicians again re-affirmed the abuse potential of cocaine.
 

Today, cocaine is classified as a Schedule II drug — it has towering potential for abuse and can only be administered by a doctor for legitimate medical uses. Today, the medical use of cocaine is limited to topical anesthesia of the upper respiratory tract and eye because the vasoconstrictive properties of cocaine are desirable during these procedures. However, it is not available in majority of the hospitals in North America, because safer and better agents are available.
 

Addiction Potential
 

Cocaine is an addictive psycho-stimulant with euphoric effects. The addictive properties of cocaine are thought to be due to brain dopamine D2-receptor stimulation. Dopamine is released as part of the brain’s reward system and is implicated in the high that is typical of cocaine consumption. Patient dependence depends on a number of different factors, including genetics, social and environmental factors, preexisting medical and mental conditions.

There are two fundamental forms of cocaine: powdered and "freebase." The powdered form easily dissolves in water whereas freebase is a mixture that has not been neutralized by an acid. The freebase form is usually smoked or snorted.
Warning signs of cocaine use include a change in behavior, acting isolated, careless about personal appearance, loss of interest in school, family, friends and frequently needing money. Physical exam may reveal red eyes, runny nose, frequent sniffing, change in eating and sleeping patterns and a change in friends

Cocaine induces an artificial “high” that gives its user a feeling of limitless ability and energy. When users come down, they are usually depressed, nervous, and crave for more. Todate, it has been impossible to predict who will become addicted and when the fatality will occur.
 

Frequency of Use
 

In the US, as of 2005, according to the Office of National Drug Control Policy, more than 3 million people in the United States are considered long-term cocaine users. Cocaine abuse is also widespread universally and has become a major public health issue in North America. Data suggest that the prevalence of cocaine use in the world is approximately 13 million people, or 0.23% of the global population. Cocaine use is also increasing in a number of Latin American countries, including the countries that are the main producers of cocaine.
 

All races and both genders are known to use cocaine. Individuals between the ages of 18-30 are the most frequent users. Men not only are more heavy users but also account for more overdose and toxicity from cocaine.
 

Routes of Intake
 

Cocaine may be inhaled (snorting), injected or smoked. Irrespective of the method of intake, cocaine is still a potentially deadly agent. Most individuals report that the psychotic features and habituation are more rapid and pronounced after smoking cocaine, compared to other methods. The “high” generated with smoking is instant but of a shorter duration, but the addiction potential is the same by all routes. Like all illicit drugs, injection of drugs carries with it the potential for transmission of HIV/AIDs. This becomes of more concern when the needles and other injection paraphernalia are shared.
 

A common route of transportation of cocaine is by swallowing cocaine packed in condoms. Body stuffers usually hide packages of cocaine in the rectum, vagina or mouth. These individuals usually get away until the packages rupture and cocaine intoxication becomes obvious.
 

Street cocaine is often accidentally/intentionally contaminated during the preparation process in order to dilute the cocaine used and increase profits. Commonly used cocaine adulterants may include local anesthetics, phenytoin, sugars, amphetamines, phencyclidine, phenylpropanolamine, quinine, talc, and others.
 

Mortality/Morbidity
 

Data from the Drug Abuse Warning Network (DAWN) indicate that there are about 4-5000 cocaine related deaths annually in the US. Cocaine-related deaths are rare and not always due to high dose intoxication. The lethal dose of cocaine remains unknown. Fatalities are multifactorial, and, often the cause remains unknown. Occasionally, massive exposure of cocaine occurs in body packers and results in rapid death.
 

However, the majority of cocaine users are prone to serious long term medical complications. These complications may include seizures, abnormal heart rhythms, heart attacks, stroke, blindness, liver and kidney failure, lung fibrosis and heart failure.
 

Symptoms
 

Cocaine has numerous physiological and psychological side effects. The adverse effects of cocaine’s appear almost immediately after a single dose, and fade away within a few minutes or hours. Cocaine can cause intense vasospasm of blood vessels, dilate pupils, increase the heart rate and blood pressure and can also generate a febrile response.
 

The psychological effects include euphoria, decreased fatigue, extreme hyperactivity and mental lucidity. The sense of sight, sound and touch are over amplified. During the cocaine euphoria, the need for food, sleep and personal hygiene are significantly absent. The majority of individuals report that cocaine aids them completing simple chores swiftly, whereas others experience mental confusion and are unable to carry out any tasks

The quicker the cocaine is absorbed, the more intense is the “high”, however, the duration of action is short lived. The euphoria from snorting may last 15-30 minutes, while that from smoking may last 5-10 minutes. Increased utilization can diminish the period of stimulation due to development of tolerance. High doses of cocaine and/or extended use can generate an aggressive paranoid behavior, tremors, vertigo, muscle twitches, extreme restlessness and auditory hallucinations.
 

When addicted individuals discontinue using cocaine, they frequently become depressed. This may lead to additional cocaine use to lessen the depression. Extensive cocaine snorting is known to cause ulceration of the nasal mucous membrane and even perforate the nasal septum. Cocaine-related deaths are often a consequence of cardiac arrest or seizures followed by respiratory arrest.
 

When both cocaine and alcohol are consumed, the adverse risks are increased by several folds. Combination of cocaine and alcohol in the liver is known to generate a substance called cocaethylene, which is known to potentiate cocaine’s euphoric effects and also increasing the danger of sudden death.
 

Treatment of Acute Intoxication
 

Patients with cocaine poisoning may exhibit severe CNS and cardiovascular dysfunction, leading to a loss of airway protective reflexes, cardiovascular collapse, and mortality. The goals of pharmacotherapy are to neutralize toxicity, reduce morbidity, and prevent complications.
 

The immediate control of mental agitation is critical in preventing the mortality associated with cocaine overdose. Benzodiazepines are the mainstay of therapy and may be used generously until sedation is accomplished. Avoid physical restraints in patients with psychomotor agitation because they may interfere with heat dissipation. Seizures should be aggressively treated because they may worsen hyperthermia, rhabdomyolysis, hypoxia, and acidosis. In some cases, ventilatory support and neuromuscular blockade may be required

Body packers and body stuffers may require critical care monitoring. The body packers pack their gastrointestinal tract with bags of cocaine. However, occasionally the cocaine-containing package ruptures or the packages may cause gastrointestinal obstruction.
 

All symptomatic body packers and body stuffers require intensive therapy. Charcoal may have to be introduced in the stomach to bind the cocaine and prevent absorption and surgery may be required to remove the packages.
 

Asymptomatic patients may be treated with laxatives and bowel irrigation to remove the cocaine bags. Surgical removal may also be indicated in patients with bowel obstruction.
 

Some individuals may suffer a Cocaine washout syndrome (cocaine crash syndrome) which is characterized by sudden and severe exhaustion with mental slowness, depression, suicidal ideation, anxiety and increased appetite, lasting as long as 18 hours after the last consumption. Cocaine washout syndrome is usually self-limited, and only requires supportive therapy.

Once the acute phase is stabilized, patients may require further therapy to treat the complications of cocaine. It is highly recommended that these individuals enter into a rehabilitation therapy program.
 

Treatment approaches to Addiction
 

Treatment of cocaine addicts is a multi million dollar business. Treatment programs are available throughout North America. The treatment is complex and involves changing the mind as well as altering the psychological, social, familial and environmental factors
 

Pharmacological Approaches
 

There are no approved medications currently available to specifically treat cocaine addiction. Few emerging compounds currently being investigated to assess their safety and efficacy in treating cocaine addiction include disulfiram, terguride, topiramate and modafanil. Additionally, baclofen, a GABA-B agonist, has shown promise in a few individuals who use excessive cocaine. The use of anti depressant drugs has been recommended during the early phase of cocaine abstinence, because of the moderate depression that occurs.
 

Behavioral Interventions
 

Many types of behavior therapies have been used to treat cocaine addiction, and involve both residential and outpatient approaches. Behavioral therapies are frequently the only available effective treatment for cocaine addiction. However, amalgamation of both medical and behavior treatments are more effective in the treatment of cocaine addiction.
 

Behavior therapy which has been shown to be beneficial includes vocational rehabilitation, career counseling, contingency administration and cognitive-behavioral treatment. Therapeutic communities (TCs), or residential programs with intended lengths of stay of 6 to 12 months, present another option to those in need of treatment for cocaine addiction. TCs concentrate on remobilization of the individual to society, and can incorporate on-site vocational rehabilitation and other helpful services.

Enrollment in deterrence programs, such as Narcotics Anonymous, may be of benefit for some patients.

The body’s reaction to the removal of a substance it has become dependent on is called withdrawal. Withdrawal causes craving for more of the substance being removed. The period of time when the body is trying to overcome its addiction is called detoxifica-tion (detox). Detox is the first step in overcoming a substance addiction such as drugs or alcohol. Detox is a pertinent step for the patient is to be successfully rehabilitated.
 

Opiate drugs such as heroin and methadone, and prescription medications including Hydrocodone, Oxycontin, Xanax, Vicodin and Lortab, require medical detox supervision. There are however, other illegal drugs such as marijuana, crystal methamphetamine, and cocaine that do not require medical detox. Since there is psychological dependence associated with these drugs, it would be wise to complete a period of stabilization. The process of drug detox requires the patient to be closely monitored by keeping vital signs, giving support and administering medications if needed. There are numerous withdrawal symptoms or side effects when a patient stops or dramatically reduces drugs after heavy or prolonged use. Those side effects include: sweating, shaking, headaches, drug cravings, nausea, vomiting, abdominal cramps, diarrhea, sleeplessness, confusion, agitation, depression, anxiety, and other behavioral changes.
There are two commonly used drugs to enable the patient to feel relief from these symptoms. First, Klonepin, which reduces physical symptoms, and Buprenophex, which is an anticonvulsant. These drugs must also be monitored as cessation produces withdrawal symptoms. Generally, the time period for drug detox is three to seven days under medically monitored supervision.
 

Alcohol detox, like drug detox, is usually accomplished in an inpatient medical facility. Duncan Raistrick identifies the key to a successful, planned detoxification is preparation. Raistrick goes further to detail that the first job of therapy is to bring the patient to a point of readiness to change their drinking behavior. Second, patients need to be given accurate information about what to expect during detoxification.
 

There are two withdrawal categories: minor, meaning early withdrawal and major, meaning late. The severity of withdrawal depends greatly on the duration of alcohol used. Alcohol Withdrawal Syndrome (AWS) falls into three main categories: central nervous system (CNS) excitation, excessive function of the autonomic nervous system (ANS), and cognitive dysfunction.5 Richard Saitz, M.D., M.P.H., states, since alcohol enhances gamma-aminobutyric acid’s (GABA) inhibitory effects on signal-receiving neurons, neuronal activity is lowered. This lowering leads to an increase in excitatory glutamate receptors. Tolerance occurs as GABA receptors become less responsive to neurotransmitters, which in turn requires more alcohol to produce the same inhibitory effect. During detox, the GABA is ineffective and unable to suppress the excitatory glutamate receptors. Detox is intended to relieve physical symptoms such as: shaking or tremors, headaches, vomiting, sweating, restlessness, loss of appetite, sleeplessness, Delirium Tremens (DT’s), hyperactivity, and convulsions. Alcohol detox medications are similar to drug detox medications: Buprenophex, certain benzodiazepines and anticonvulsant medications. Alcohol detox completion can take from three to fourteen days.
 

Norman S. Miller notes that medical management of alcohol and drug withdrawal during detoxification often is not sufficient to produce sustained abstinence from recurrent use. Therefore, further addiction treatments are needed to prevent relapse to alcohol and drug use following treatment of withdrawal.
 

In conclusion, drug and alcohol detoxification can effectively prepare the addicted abuser for rehabilitation and treatment.
 

Some physicians believe the withdrawal phase is related closely to the drug addiction - the worse the withdrawal, the more likely the continued use of the chemical to prevent withdrawal. Several factors are key to successful detoxification.
 

1. Acknowledge that there is a problem and decide to do something about it.
2. Get rid of all the drugs and paraphernalia.
3. Drop friends and associates that are tied to our drug problem.
4. Seek and accept spousal support, or support from friends, or relatives.
5. Prepare for symptoms with the support of a professional.
6. If tranquilizer drugs are needed for a few days or longer, they must be handled sensitively, as one addiction can easily replace another.

Xanax is a Central Nervous System (CNA) depressant known as benzodiazepine, which is commonly prescribed by physicians to treat panic attacks, nervousness, and tension. Xanax, also known as alprazolam, is considered to be a Schedule IV controlled substance under the Controlled Substance Act (CSA). Xanax has been used as a tranquilizer since the 1960s. With strong opposition to the use of benzodiazepines in the 1970s, there was a 25 percent drop in the number of prescriptions written and today, with approximately 3 million Americans (1.6% of the adult population) having used benzodiazepine on a daily basis for at least 12 months, they are the most controversial of all psychotropic medicines.

According to the United States Department of Justice Drug Enforcement Agency (DEA) and under the CSA, all controlled substances are rated on a five-schedule system. Schedule V, the lowest, for the potential for abuse and dependency and I, the highest. Xanax is a Schedule IV. All Schedule IV controlled substances have the following attributes: a low potential for abuse, a currently accepted medical use in treatment in the United States, and if abused, may lead to limited physical dependence or psychological dependence. Other examples of drugs included in schedule IV are Darvon®, Talwin®, Equanil®, Valium®, and Xanax®.

Although there are many benefits to taking Xanax and other Schedule IV drugs, many patients are becoming addicted and therefore require an intervention and drug treatment program to overcome their addictions. The patient’s body can also build up a tolerance to the drug and require larger doses if taken for long periods of time. With these increases in Xanax use come physical and psychological dependencies. Xanax is not drug to quit cold turkey. The Journal of Postgraduate Medicine stated that up to 25 percent of patients who stop taking their medication experienced withdrawal symptoms such as: nausea, vomiting, dizziness, headache, anxiety, irritability, insomnia, chills, lethargy, fatigue, moodiness, crying, dystonia, paresthesia, tremor, vivid dreams, and myalgias.

The National Institute on Drug Abuse found during a two-year treatment outcome study that 15 percent of heroin users also used benzodiazepines daily for more than one year, and 73 percent used benzodiazepines more often than weekly. Studies also indicate that from 5 percent to as many as 90 percent of methadone users are also regular users of benzodiazepines.

With this information in mind, the Xanax abuse treatment involves careful monitoring and counseling in an in-patient or outpatient treatment facility. The American Psychiatric Association’s (APA) report on benzodiazepines revealed that 11 to 15 percent of the adult population has taken a benzodiazepine one or more times during the preceding year, but only 1 to 2 percent have taken benzodiazepines daily for 12 months or longer. However, in psychiatric treatment settings and in substance-abuse populations, the prevalence of benzodiazepine use, abuse and dependence is substantially higher than that in the general population. Treatment encompasses a patient’s thought process, behavior, and helps them to cope with everyday life. Patients suffering from Xanax addiction should be tapered off gradually. There are basic outpatient plans available for discontinuation of the drug including: gradual discontinuance over a six to 12 week schedule, monitoring and helping the patient to feel in control of their dosage, and supplying a helpline when the patient needs reassurance. Other plans include inpatient treatment centers and 12-step programs such as Narcotics Anonymous, and drug treatment exchanges such as, Clonidine, propranolol, or carbamazepine. Although these substitutes can be dangerous, an inpatient setting where dosages can be physician monitored until the patient can reach a zero dose of the benzodiazepine is recommended.

In conclusion, Xanax and other benzodiazepines can be addictive drugs that are hard to discontinue however, they are also drugs of great benefit to patients who suffer from anxiety, depression, fear of open spaces (agoraphobia), premenstrual syndrome, and panic attacks. The patient and the physician should work together to regulate long-term usage, monitoring side effects, and any signs of abuse.