Psychiatric

Amphetamine-Related Psychiatric Disorders
Article Last Updated: Jan 29, 2008
AUTHOR AND EDITOR INFORMATION
Section 1 of 10 Click here to go to the next section in this topic

* Authors and Editors
* Introduction
* Clinical
* Differentials
* Workup
* Treatment
* Medication
* Follow-up
* Miscellaneous
* References


Author: Michael Larson, DO, Clinical Instructor, Department of Child and Adolescent Psychiatry, Harvard University

Michael Larson is a member of the following medical societies: American Academy of Addiction Psychiatry, American Academy of Child and Adolescent Psychiatry, American Medical Association, and Massachusetts Medical Society

Editors: Denis F Darko, MD, Director, Central Nervous System Clinical Research, Clinical Science, Green Hospital; Francisco Talavera, PharmD, PhD, Senior Pharmacy Editor, eMedicine; Eduardo Dunayevich, MD, Adjunct Assistant Professor, Department of Psychiatry, University of Cincinnati; Clinical Research Physician, Neuroscience, Lilly Research Laboratories; Harold H Harsch, MD, Program Director of Geropsychiatry, Department of Geriatrics/Gerontology, Associate Professor, Department of Psychiatry and Department of Medicine, Froedtert Hospital, Medical College of Wisconsin; Stephen Soreff, MD, President of Education Initiatives, Nottingham, NH; Faculty, Metropolitan College of Boston University, Boston, MA

Author and Editor Disclosure

Synonyms and related keywords: amphetamine-induced psychotic disorders, amphetamine-induced psychosis, amphetamine, amphetamine derivatives, methamphetamine, dextroamphetamine, 3, 4-methylenedioxymethamphetamine, MDMA, cathinone, methcathinone, ecstasy, XTC, methamphetamine, crystal meth, crystal methamphetamine, ice, khat, Catha edulis Forsk, Qat tree, psychosis, delusions, hallucinations, depression, bipolar affective disorder, schizophrenia, sleep disorders, delirium, para-methoxyamphetamine, PMA, 2, 5-dimethoxy-4-bromo-amphetamine, DOB, 3, 4-methylenedioxyamphetamine, MDA
INTRODUCTION
Section 2 of 10 Click here to go to the previous section in this topic Click here to go to the top of this page Click here to go to the next section in this topic

* Authors and Editors
* Introduction
* Clinical
* Differentials
* Workup
* Treatment
* Medication
* Follow-up
* Miscellaneous
* References


Background

The Diagnostic and Statistical Manual of Mental Disorders, Fourth Edition, Text Revision (DSM-IV-TR) describes the following 10 amphetamine-related psychiatric disorders:1

1. Amphetamine-induced anxiety disorder
2. Amphetamine-induced mood disorder
3. Amphetamine-induced psychotic disorder with delusions
4. Amphetamine-induced psychotic disorder with hallucinations
5. Amphetamine-induced sexual dysfunction
6. Amphetamine-induced sleep disorder
7. Amphetamine intoxication
8. Amphetamine intoxication delirium
9. Amphetamine withdrawal
10. Amphetamine-related disorder not otherwise specified

Either prescription or illegally manufactured amphetamines can induce these disorders. Prescription amphetamines are used frequently in children and adolescents to treat attention deficit hyperactivity disorder (ADHD), and they are the most commonly prescribed medications in children. The dose of Adderall(XR) (dextroamphetamine sulfate, dextroamphetamine saccharate, amphetamine aspartate monohydrate, amphetamine sulfate) needed to produce toxicity and psychiatric symptoms in a child is as low as 2 mg. A typical dose is 2.5-40 mg/d. In adults, narcolepsy, ADHD of the adult type, weight loss, and some depression can be treated with amphetamines. However, because of their addicting potential, these drugs are no longer used for weight loss. Although they are controlled substances, abuse is possible, especially in persons with alcoholism or substance abuse.

The substance 3,4-methylenedioxymethamphetamine (MDMA) is a popular recreational stimulant commonly referred to as ecstasy, which was manufactured legally in the 1980s. MDMA has the desired effects of euphoria, high energy, and social disinhibition lasting 3-6 hours. The drug is often consumed in dance clubs, where users dance vigorously for long periods. The drug sometimes causes toxicity and dehydration, as well as severe hyperthermia. Several other amphetamine derivatives are para-methoxyamphetamine (PMA), 2,5-dimethoxy-4-bromo-amphetamine (DOB), methamphetamine (crystal methamphetamine, crystal meth, or "Tina"), and 3,4-methylenedioxyamphetamine (MDA). Crystal meth is the pure form of methamphetamine, and, because of its low melting point, it can be injected.

Khat (Catha edulis Forsk) is the only known organically derived amphetamine. It is produced from the leaves of the Qat tree located throughout East Africa and the Arabian Peninsula. The leaves of the tree are chewed, extracting the active ingredient, cathinone, and producing the desired effects of euphoria and, unlike other amphetamines, anesthesia.

In the midwestern United States, methcathinone, the synthetic form of cathinone, has been produced illegally since 1989, after a student at the University of Michigan stole research documents and began to illegally manufacture the drug. Methcathinone is relatively easy to produce and contains the same chemicals found in over-the-counter (OTC) asthma and cold medicines, paint solvents and thinners, and drain openers (eg, Drano). Its addiction potential is similar to that of crack cocaine.

Amphetamine-related psychiatric disorders are conditions resulting from intoxication or long-term use of amphetamines or amphetamine derivatives. Such disorders can also be experienced during the withdrawal period from amphetamines. The disorders are often self-limiting after cessation, though, in some patients, psychiatric symptoms may last several weeks after discontinuation. Some individuals experience paranoia during withdrawal as well as during sustained use. Amphetamine use may elicit or be associated with the recurrence of other psychiatric disorders. People addicted to amphetamines sometimes decrease their use after experiencing paranoia and auditory and visual hallucinations. Furthermore, amphetamines can be psychologically but not physically addictive.

The symptoms of amphetamine-induced psychiatric disorders can be differentiated from those of related primary psychiatric disorders by time. If symptoms do not resolve within 2 weeks after the amphetamines are discontinued, a primary psychiatric disorder should be suspected. Depending on the severity of symptoms, symptomatic treatment can be delayed to clarify the etiology.

Amphetamine-induced psychosis (delusions and hallucinations) can be differentiated from psychotic disorders when symptoms resolve after amphetamines are discontinued. Absence of first-rank Schneiderian symptoms, including anhedonia, avolition, amotivation, and flat affect, further suggests amphetamine-induced psychosis. Symptoms of amphetamine use may be indistinguishable from those associated with the cocaine use. Amphetamines, unlike cocaine, do not cause local anesthesia and have a longer psychoactive duration.

Amphetamine-induced delirium follows a reversible course similar to other causes of delirium, and it is identified by its relationship to amphetamine intoxication. After the delirium subsides, little to no impairment is observed. Delirium is not a condition observed during amphetamine withdrawal.

Mood disorders similar to hypomania and mania can be elicited during intoxication with amphetamines. Depression can occur during withdrawal, and repeated use of amphetamines can produce antidepressant-resistant amphetamine-induced depression. Of interest, low-dose amphetamines can be used as an adjunct in the treatment of depression, especially in patients with medical compromise, lethargy, hypersomnia, low energy, or decreased attention.

Sleep disturbances appear in a fashion similar to mood disorders. During intoxication, sleep can be decreased markedly. In withdrawal, sleep often increases. A disrupted circadian rhythm can result from late or high doses of prescription amphetamines or from chronic or intermittent abuse of amphetamines. Individuals who use prescription amphetamines can easily correct their sleep disturbance by lowering the dose or taking their medication earlier in the day than they have been. Insomnia is the most common adverse effect of prescription amphetamines.

Amphetamine-related disorder not otherwise specified is a diagnosis assigned to those who have several psychiatric symptoms associated with amphetamine use but who do not meet the criteria for a specific amphetamine-related psychiatric disorder.

Pathophysiology

The pathophysiology of amphetamine-related psychiatric disorders is difficult to establish, because amphetamines influence multiple neural systems. In general, chronic amphetamine abuse may cause psychiatric symptoms due to dopamine depletion in the striatum.

Amphetamine-induced psychosis often results after increased or large use of amphetamines, as observed in binge use or after protracted use. Prescription amphetamines induce the release of dopamine in a dose-dependent manner; low doses of amphetamines deplete large storage vesicles, and high doses deplete small storage vesicles. This increase in dopaminergic activity may be causally related to psychotic symptoms because the use of D2-blocking agents (eg, haloperidol) often ameliorates these symptoms. Amphetamine-induced psychosis has been used as a model to support the dopamine hypothesis of schizophrenia, in which overactivity of dopamine in the limbic system and striatum is associated with psychosis. However, negative symptoms commonly observed in schizophrenia are relatively rare in amphetamine psychosis.

MDMA causes the acute release of serotonin and dopamine and inhibits the reuptake of serotonin into the neuron. MDMA has neurotoxic properties in animals and, potentially, in humans. Reports suggest that MDMA use is associated with cognitive, neurologic, and behavioral abnormalities, as well as hyperthermia, but these reports are confounded by the association with other factors (eg, heat, exertion, poor diet, other drug use). Serotonergic damage has been suggested to lead to cognitive impairment.

Delirium caused by amphetamines may be related to the anticholinergic activity, as observed in different classes of drugs, such as tricyclic antidepressants, benzodiazepines, sedatives, and dopamine-activating drugs. Rapid eye movement during the first phase is decreased during intoxication, and a rebound elevation of rapid eye movement occurs during withdrawal; this effect eventually alters the circadian rhythm and results in sleep disturbances.

Frequency
United States

Psychosis, delirium, mood symptoms, anxiety, insomnia, and sexual dysfunction are considered rare adverse effects of therapeutic doses of prescription amphetamines. Dextroamphetamine has a slightly increased rate of these adverse effects because of its increased CNS stimulation.

Data about the frequency of amphetamine-related psychiatric disorders are unreliable because of comorbid primary psychiatric illnesses.

Intravenous (IV) use occurs more frequently in people of low socioeconomic status than in those of high socioeconomic status.

The rates for past month and past year use of methamphetamine did not change from 2004 to 2005, but the lifetime rate declined from 4.9% to 4.3%. Comparing 2002 with 2005, decreases were seen in lifetime use (5.3% to 4.3%) and past year use (0.7% to 0.5%), but not past month use (0.3% in 2002 vs 0.2% in 2005). Although the number of past month users has remained steady since 2002, the number of methamphetamine users who were dependent on or abused some illicit drug did rise significantly during this period, from 164,000 in 2002 to 257,000 in 2005.2

International

The first amphetamine epidemic occurred after World War II in Japan, when leftover supplies intended to counteract fatigue in pilots were made available to the general public. This even resulted in many cases of amphetamine psychosis. Of interest, both German and American troops used these preparations during World War II, as did Japanese kamikaze pilots.

Khat, which is primarily used in Ethiopia for cultural and religious purposes, has been well studied. A house-to-house survey of 10,468 adults showed a lifetime prevalence of khat use of 55.7%. Daily use occurred among 17.4%, and 80% indicated they used khat to increase concentration during prayer.3 Khat dependency has been associated with people of Muslim religion and with people of low socioeconomic status.

Mortality/Morbidity

The Drug Abuse Warning Network (DAWN) Annual Medical Examiner Data for 2005 showed 10% of all drug-related hospital emergency department visits were stimulant-related. DAWN data indicated that 26% of all drug-related deaths in Oklahoma City were due to methamphetamine, making it the city's most frequent drug-related cause of death in 1998.

* In high doses, prescription amphetamines can produce cardiovascular collapse, myocardial infarction, stroke, seizures, renal failure, ischemic colitis, and hepatotoxicity. Death related to MDMA can occur from malignant hyperthermia, which leads to kidney failure and cardiovascular collapse. Heart attacks, seizures, subarachnoid and intracranial hemorrhage, and strokes may also result in death. The rate of suicide and accidents can increase during periods of toxicity and withdrawal.
* In high doses, prescription amphetamines and amphetamine derivatives increase sexual arousal and disinhibition, increasing the risk of exposure to sexually transmitted diseases.
* Memory impairment can result after long-term use of high doses of amphetamines because of damage to serotonin-releasing neurons. In the emergency department patients with amphetamine-related disorders are one third more likely than patients with cocaine-related disorders to be transferred to an inpatient psychiatric ward. This difference may partly be because amphetamine withdrawal lasts longer then cocaine withdrawal, and amphetamines are more psychogenic than cocaine.
* Amphetamine withdrawal is consistent with a major depressive episode, though lasting less then 2 weeks and involving decreased energy, increased appetite, craving for sleep, and suicidal ideation.

Race

Amphetamine-related psychiatric disorders most commonly occur in white individuals.
Sex

* With IV use, amphetamine-related psychiatric disorders most commonly occur in men, with a male-to-female ratio of 3-4:1.
* With non-IV use, amphetamine-related psychiatric disorders occur equally in men and women.

Age

* Amphetamine-related psychiatric disorders most frequently occur in people aged 20-39 years who are inclined to abuse amphetamine derivatives at rave parties and dance clubs.
* Adolescents have developed a method for abusing prescription amphetamines in which prescription tablets are crushed into a powder and inhaled nasally.


CLINICAL
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* Authors and Editors
* Introduction
* Clinical
* Differentials
* Workup
* Treatment
* Medication
* Follow-up
* Miscellaneous
* References


History

Amphetamine-related psychiatric disorders can be confused with psychiatric disorders caused by organic, medical, neurologic, and/or psychological etiologies. The causes of amphetamine-related psychiatric disorders usually can be determined by assessing the patient's history and the family's genealogy.

The DSM-IV-TR provides criteria helpful for determining if the patient is in a state of intoxication or withdrawal. The criteria helps clinicians distinguish disorders occurring during intoxication (eg, psychosis, delirium, mania, anxiety, insomnia) from those occurring during withdrawal (eg, depression, hypersomnia).

* Developmental history: The developmental history provides information about the patient's in utero exposure to medications, illicit drugs, alcohol, pathogens, and trauma.
*
o As children, patients may have had prodromal symptoms of psychiatric disorders, such as social isolation, deteriorating school performance, mood liability, amotivation, avolition, anhedonia, sleep disturbances, sexual paraphilias, poor interest, psychomotor retardation, demoralization, social isolation, and suicidal thoughts and behaviors.
o Delinquency, truancy, educational failure, early use of drugs and alcohol, oppositional behavior associated with conduct disorder, and participation in the rave party scene are developmental behaviors that suggest an amphetamine-related psychiatric disorder.
* Psychiatric history: Two issues are emphasized:
*
o Determine whether a psychiatric disorder or symptoms ever occurred when the patient was not exposed to amphetamines.
o Determine whether the patient ever had a psychiatric disorder or symptoms similar to the present symptoms in relation to any other drug or medication.
* Recent history: The patient's history of amphetamine abuse is the most important factor and is determined by asking the following questions:
*
o When did the patient's amphetamine use start?
o How often does the patient use amphetamines?
o How much does he or she use?
o Is the patient currently intoxicated or in withdrawal from amphetamines?
o Does the patient frequently attend rave parties?
o Has the patient recently increased his or her amphetamine use or started to binge?
* Substance abuse history: Potentially abused substances include the following:
*
o Alcohol
o Marijuana
o Cocaine
o Lysergic acid diethylamide (LSD)
o OTC sympathomimetics
o Steroids
* Family history: A family history of a psychiatric disorder may suggest a primary psychiatric disorder. A diagnosis of amphetamine-related psychiatric disorder might still be possible if the patient has no family history of psychiatric disorder.
* The DSM-IV-TR criteria for amphetamine intoxication are as follows:
*
o The patient has recently used an amphetamine or related substance, such as methylphenidate.
o Clinically significant maladaptive behavioral or psychological changes developed during or shortly after the patient used amphetamines or a related substance. Such changes include the following:
+ Euphoria or affective blunting
+ Changes in sociability
+ Hypervigilance
+ Interpersonal sensitivity
+ Anxiety, tension, or anger
+ Stereotyped behaviors
+ Impaired judgment
+ Impaired social or occupational functioning
o Two or more of the following conditions develop during or shortly after the patient used amphetamines or a related substance:
+ Tachycardia or bradycardia
+ Pupillary dilatation
+ Elevated or lowered blood pressure
+ Perspiration or chills
+ Nausea or vomiting
+ Evidence of weight loss
+ Psychomotor agitation or retardation
+ Muscular weakness, respiratory depression, chest pain, or cardiac arrhythmias
+ Disorientation and memory loss, seizures, dyskinesias, dystonias, or coma
o The symptoms are not due to a general medical condition, and another mental disorder does not account for them better than amphetamine intoxication does.
* The DSM-IV-TR criteria for amphetamine withdrawal are as follows:
*
o The patient has recently ceased or reduced heavy or prolonged use of amphetamines or related substances.
o A dysphoric mood and 2 or more of the following physiologic changes develop within a few hours to several days after the patient ceases or reduces his or her use:
o
+ Fatigue
+ Vivid, unpleasant dreams
+ Insomnia or hypersomnia
+ Increased appetite
+ Psychomotor retardation or agitation
o A complete mental status examination must be performed, with an emphasis on hallucinations, delusions, suicide and/or homicide, orientation, memory, and judgment.
o The aforementioned symptoms cause clinically significant distress or impairment in terms of social, occupational, or other important areas of functioning.
o The symptoms are not due to a general medical condition, and another mental disorder does not account for them better than amphetamine withdrawal does.

Physical

Full physical and neurologic examination should be performed. Initially assess patients for medical stability and then for level of danger.

* During physical examination, assess the patient for medical complications of amphetamine abuse, including hyperthermia, dehydration, renal failure, and cardiac complications.
* During neurologic examination, assess the patient for neurologic complications of amphetamine abuse, including subarachnoid and intracranial hemorrhage, delirium, and seizures.
* Mental status examination should emphasize delusions, hallucinations, suicide, homicide, orientation, insight and judgment, and affect. The mental status examination can be very different for intoxication and psychosis.
* A mental status expected for a patient with amphetamine intoxication is as follows:
*
o Appearance and behavior: Unusually friendly, scattered eye contact, buccal oral gyrations, overly talkative and verbally intrusive
o Speech: Increased rate
o Thought process: Tangential, circumstantial over inclusive and disinhibited
o Thought content: Paranoid
o Mood: Anxious, hypomanic
o Affect: Anxious and tense
o Insight and judgment: Poor
* A mental status expected for a patient with amphetamine psychosis is as follows:
*
o Appearance and behavior: Disheveled, suspicious, paranoid, difficult to engage, and poor eye contact
o Speech: Decreased and rapid
o Thought process: Guarded and internally preoccupied
o Thought content: Paranoid; possible auditory hallucinations
o Mood: Anxious
o Affect: Paranoid and fearful
o Insight and judgment: Poor

Causes

* Amphetamine intoxication, binge pattern use, and long-term exposure
* Comorbid psychiatric disorders
* Abuse of other substances such as alcohol, OTC sympathomimetics, and illicit drugs
* Dehydration
* Fluoxetine (Prozac) - Increases CNS concentrations of amphetamine and potentiates its effects


DIFFERENTIALS
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* Authors and Editors
* Introduction
* Clinical
* Differentials
* Workup
* Treatment
* Medication
* Follow-up
* Miscellaneous
* References


Cannabis Compound Abuse
Cocaine-Related Psychiatric Disorders
Delirium
Depression
Hallucinogens
Hyperthyroidism
Hypothyroidism
Inhalant-Related Psychiatric Disorders
Insomnia
Opioid Abuse
Phencyclidine (PCP)-Related Psychiatric Disorders
Schizophrenia
Toxicity, Heroin
Toxicity, Mushroom
Wernicke-Korsakoff Syndrome

Other Problems to be Considered

AIDS-related complex
Thyrotoxicosis
Syphilis

WORKUP
Section 5 of 10 Click here to go to the previous section in this topic Click here to go to the top of this page Click here to go to the next section in this topic

* Authors and Editors
* Introduction
* Clinical
* Differentials
* Workup
* Treatment
* Medication
* Follow-up
* Miscellaneous
* References


Lab Studies

* The purpose of the workup is to exclude complications of amphetamine abuse and other causes of psychosis and altered mental status.
* Laboratory evaluation should include the following tests:
*
o Finger-stick blood glucose test
o CBC determination
o Determination of electrolyte levels, including magnesium, amylase, albumin, total protein, uric acid, BUN, alkaline phosphatase, and bilirubin levels
o Urinalysis
o Stat urine or serum toxicology screening to exclude acetaminophen, tricyclic antidepressants, aspirin, and other potential toxins: Individuals who abuse drugs may ingest a substance called Urine Luck, or pyridinium chlorochromate (PCC), to produce invalid results on urine drug screens. PCC alters the results for cannabis and opiates but elevates levels of amphetamines.
o Blood test for an alcohol level if the patient appears intoxicated
o HIV and rapid plasma reagin (RPR) tests

Imaging Studies

* In the presence of neurologic impairments, CT or MRI helps in evaluating for subarachnoid and intracranial hemorrhage.

Other Tests

* Perform ECG to evaluate for cardiac involvement.
* Perform EEG if a seizure disorder is considered possible.
* Use of the brief psychotic rating scale (BPRS), Beck Depression Scale, violence and suicide assessment, and other measures may be helpful.
* If persistent psychiatric conditions are noted, neuropsychological testing can be beneficial to assess levels of psychosocial and neurologic function to guide treatment and to assess the need for placement.
* Results of projective testing, such as the Rorschach test and the Thematic Apperception Test, can help in clarifying thought disorders.
* During amphetamine intoxication, the Mini-Mental State Examination (MMSE) can be helpful in measuring cognitive change.

Histologic Findings

Repeated exposure to amphetamines is theorized to alter the morphology of dendrites in the prefrontal cortex and in the nucleus accumbens. Amphetamines may increase the length of dendrites for longer than 1 month. These alterations may help explain the behavioral cravings and psychosis that long-term abuse of amphetamines produces.

TREATMENT
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* Authors and Editors
* Introduction
* Clinical
* Differentials
* Workup
* Treatment
* Medication
* Follow-up
* Miscellaneous
* References


Medical Care

Initial treatment should include medically stabilizing the patient's condition by assessing his or her respiratory, circulatory, and neurologic systems. The offending substance may be eliminated by means of gastric lavage and acidification of the urine. Psychotropic medication can be used to stabilize an agitated patient with psychosis. Because most cases of amphetamine-related psychiatric disorders are self-limiting, removal of the amphetamines should suffice.

* Induced emesis, lavage, or charcoal may be helpful in the event of overdose.
* The excretion of amphetamines can be accelerated by the use of ammonium chloride, given either IV or orally (PO).
o Amphetamine intoxication can be treated with ammonium chloride, often found in OTC expectorants, such as ammonium chloride (Quelidrine), baby cough syrup, Romilar, and P-V-Tussin.
o The recommended dose to acidify the urine is ammonium chloride 500 mg every 2-3 hours.
o The ingredients in OTC cough syrups vary, and the clinician should become familiar with 1 or 2 stock items for use in the emergency department.
o Ammonium chloride (Quelidrine), an OTC expectorant, can be used in the absence of liver or kidney failure.
* Administer IV fluids to provide adequate hydration.
* If the patient is psychotic or if he or she is in danger of harming him or herself or others, a high-potency antipsychotic, such as haloperidol (Haldol), can be used. Exercise caution because of the potential for extrapyramidal symptoms, such as acute dystonic reactions, and neuroleptic malignant syndrome.
* Agitation also can be treated cautiously with benzodiazepines PO, IV, or intramuscularly (IM). Lorazepam (Ativan) and chlordiazepoxide (Librium) are commonly used.
* Administer naloxone (Narcan) in the event of concurrent opiate toxicity. Use caution to avoid precipitation of acute opioid withdrawal in a patient who has used high doses of opioid on a long-term basis.
* Beta-blockers, such as propranolol (Inderal), can be used in the event of elevated blood pressure and pulse. They also may be helpful with anxiety or panic.
* Psychiatric hospitalization may be necessary when psychosis, aggression, and suicidality cannot be controlled in a less restrictive environment.

Consultations

* Neurologist
* Internal medicine specialist
* Psychiatrist: Consult for inpatient substance abuse treatment or further psychiatric stabilization.
* Social services: Social services coordinate outpatient services, such as Alcoholics Anonymous and Narcotics Anonymous meetings and sober houses, and provide appointments. Some large metropolitan areas have groups that specifically focus on crystal methamphetamine abuse in the gay population.

Activity

Patients intoxicated with amphetamines are dangerous, and their activity should be limited (eg, no driving) until their symptoms have resolved.

MEDICATION
Section 7 of 10 Click here to go to the previous section in this topic Click here to go to the top of this page Click here to go to the next section in this topic

* Authors and Editors
* Introduction
* Clinical
* Differentials
* Workup
* Treatment
* Medication
* Follow-up
* Miscellaneous
* References


Several psychiatric conditions can be associated with amphetamine intoxication and withdrawal, all of which may require different management strategies. However, amphetamine-related psychiatric disorders are typically self-limited and usually remit on their own.

Amphetamine-related psychiatric disorders occur most often during intoxication; therefore, treatment should focus on controlling medical and psychiatric symptoms while eliminating the offending substance. Medical therapy involves stabilizing agitation and minimizing psychosis. Gastric lavage directly removes the amphetamines before they have an opportunity to be absorbed. Medication and charcoal eliminate amphetamines from the gastrointestinal and circulatory systems.

If the induced disorders persist and interfere with the patient's social and occupational functioning, treatment should be related to the remaining psychiatric symptoms. Antidepressants, such as sertraline (Zoloft), fluoxetine (Prozac), paroxetine (Paxil), and citalopram (Celexa), can be used to treat depression. Antimanic agents, such as valproic acid (Depakote), carbamazepine (Tegretol), and lithium carbonate, can be used to treat mania. Anxiety can be treated with nonbenzodiazepine drugs, such as beta-blockers and antimanic agents.

Data from recent studies suggest typical antipsychotics (haloperidol thioridazine, Thorazine, etc) may increase amphetamine and cocaine cravings in patients with dual diagnoses of amphetamine and cocaine abuse. Typical antipsychotics should be used for acute stabilization with the intention of switching to an atypical antipsychotic drug (eg, risperidone, quetiapine, olanzapine, aripiprazole, and ziprasidone) for long-term use.

For the purposes of this discussion, specific treatment of amphetamine toxicity is reviewed. For further information, please refer to the articles on Depression, Substance-Induced Mood Disorder, Depressed Type, Bipolar Affective Disorder, Schizophrenia, Anxiety Disorders, and Sleeping Disorders.

Drug Category: Antipsychotics

Clinicians should select a high-potency antipsychotic that is available in tablet, liquid, and IM forms for administration in emergency situations. Antipsychotics help control psychotic symptoms and provide rapid tranquilization of the agitated and psychotic patient.
Drug Name Haloperidol (Haldol)
Description Provides rapid sedation of agitated anxious patient; available PO and IM, allowing for flexible, emergency administration.
Adult Dose 2-5 mg PO/IV/IM
Pediatric Dose 0.5-2 mg PO/IV/IM
Contraindications Documented hypersensitivity; narrow-angle glaucoma; bone-marrow suppression; severe cardiac or liver disease; severe hypotension; subcortical brain damage
Interactions May increase TCA serum concentrations and hypotensive action of antihypertensive agents; phenobarbital or carbamazepine may decrease effects; coadministration with anticholinergics may increase intraocular pressure; encephalopathy-like syndrome associated with concurrent administration of lithium
Pregnancy C - Fetal risk revealed in studies in animals but not established or not studied in humans; may use if benefits outweigh risk to fetus
Precautions Caution in severe cardiovascular disease and in patients receiving anticonvulsants, anticoagulants, or rifampin; may increase prolactin levels; may cause extrapyramidal symptoms of muscle rigidity, inability to walk or talk, akathisia, and dystonia (opisthotonos and oculogyric crisis); extrapyramidal symptoms readily treated with benztropine mesylate (Cogentin), diphenhydramine (Benadryl) PO/IV/IM, or trihexyphenidyl (Artane)

Drug Name Thiothixene (Navane)
Description Blocks postsynaptic blockade of CNS dopamine receptors, inhibiting dopamine-mediated effects. PO and IM forms allow for rapid tranquilization.
Adult Dose 5-20 mg PO/IM single dose or divided throughout day
Pediatric Dose 2.5-10 mg PO/IM single dose or divided throughout day
Contraindications Documented hypersensitivity; lactation; circulatory collapse; comatose; CNS depression by any cause; blood dyscrasias
Interactions Decreases effects of guanethidine; increases toxicity of CNS depressants, anticholinergics, and alcohol
Pregnancy C - Fetal risk revealed in studies in animals but not established or not studied in humans; may use if benefits outweigh risk to fetus
Precautions Increases prolactin levels; increases photosensitivity; caution in cardiovascular disease and history of convulsions or state of alcohol withdrawal (may precipitate seizures); may cause extrapyramidal symptoms of muscle rigidity, inability to walk or talk, akathisia, and dystonia (opisthotonos and oculogyric crisis); extrapyramidal symptoms readily treated with benztropine mesylate (Cogentin), diphenhydramine (Benadryl) PO/IV/IM, or trihexyphenidyl (Artane)

Drug Category: Benzodiazepines

These drugs are primarily used to sedate agitated patients. Availability in PO, IV, and IM forms allowing the drug to be used in emergency situations. Caution must be used in the violent, aggressive patient because benzodiazepines may cause disinhibition.
Drug Name Lorazepam (Ativan)
Description Provides rapid onset and efficacy in sedating aggressive patient; flexible administration in emergency situation.
Adult Dose 5-10 mg PO/IV/IM single dose or divided over 24 h
Pediatric Dose 1-5 mg PO/IV/IM single dose or divided throughout day
Contraindications Documented hypersensitivity; preexisting CNS depression; hypotension; narrow-angle glaucoma
Interactions Toxicity of benzodiazepines in CNS increases with concurrent alcohol, phenothiazines, barbiturates, or MAOIs
Pregnancy C - Fetal risk revealed in studies in animals but not established or not studied in humans; may use if benefits outweigh risk to fetus
Precautions Because of concern of sedation in elderly and debilitated patients, initial doses should be 2 mg; caution in renal or liver failure; paradoxical excitement can occur, resulting in rage behavior; should be used with caution in patients who are depressed and at risk of suicide

Drug Name Chlordiazepoxide (Librium, Libritabs, Mitran)
Description Depresses all levels of CNS, including limbic and reticular formation, possibly by increasing activity of gamma-aminobutyric acid (GABA) activity, major inhibitory neurotransmitter.
Adult Dose 25-50 mg PO and repeat in 2-4 h if necessary
Pediatric Dose Not established
Contraindications Documented hypersensitivity; narrow-angle glaucoma
Interactions Coadministration with alcohols, phenothiazines, barbiturates, and MAOIs increases CNS toxicity; cisapride can significantly increase levels
Pregnancy D - Fetal risk shown in humans; use only if benefits outweigh risk to fetus
Precautions Caution in patients receiving other CNS depressants or with low albumin levels or hepatic failure

Drug Category: Opiate antagonists

These drugs inhibit the action of opiates.
Drug Name Naloxone (Narcan)
Description Used to treat concurrent opiate toxicity. Consider in patients with altered mental status due to opiate overdose. Poorly absorbed PO route and should be administered IM or IV. Available in IV, IM, and SC forms. Use caution to avoid precipitating acute opioid withdrawal in patient using opioids long term.
Adult Dose 0.4-2 mg IV/IM/SC/ET
Pediatric Dose Not established
Contraindications Documented hypersensitivity
Interactions Decreases analgesic effects of narcotics
Pregnancy C - Fetal risk revealed in studies in animals but not established or not studied in humans; may use if benefits outweigh risk to fetus
Precautions Caution in cardiovascular disease; naloxone may precipitate withdrawal symptoms in patients addicted to opiates

Drug Category: Beta-blockers

Propranolol (Inderal) is useful in patients who are agitated, anxious, and hyperarousable because of amphetamines. They are temporarily used until the amphetamine is eliminated from the patient's system. For some patients, anxiety can be prolonged, and nonaddictive beta-blockers may be helpful.
Drug Name Propranolol (Inderal)
Description Antihypertensive agent useful in psychiatry to treat anxiety and impulse control. Often well tolerated with minimal effect on hemodynamics of blood pressure and pulse.
Adult Dose Immediate control of anxiety: 40 mg PO 1 dose
Persistent anxiety: 10 mg PO hs to 40 mg bid as initial dose, reaching maintenance dose not to exceed 120-240 mg qd
Pediatric Dose Acute anxiety: 0.5 mg/kg PO 1 dose
Persistent anxiety: 1 mg/kg PO per dosage schedule (0.5 mg/kg bid)
Contraindications Toxicity of benzodiazepines in CNS increases with concurrent alcohol, phenothiazines, barbiturates, or MAOIs; cardiogenic shock; sinus bradycardia; bronchial asthma; heart failure
Interactions Coadministration with aluminum salts, barbiturates, NSAIDs, penicillins, calcium salts, cholestyramine, and rifampin may decrease effects; calcium channel blockers, cimetidine, loop diuretics, and MAOIs may increase toxicity; may increase toxicity of hydralazine, haloperidol, benzodiazepines, and phenothiazines
Pregnancy C - Fetal risk revealed in studies in animals but not established or not studied in humans; may use if benefits outweigh risk to fetus
Precautions Not indicated for hypertensive emergencies; use with caution in impaired renal or liver function; may reduce intraocular pressure and should be used with caution in glaucoma because withdrawal can cause rebound increase in intraocular pressure

Drug Category: Expectorants

Expectorants are used to acidify the urine and increase amphetamine excretion when intoxication from amphetamines has resulted in psychiatric and medical complications. These agents are available in PO form, and the patient must be able to swallow or receive a nasogastric tube.
Drug Name Ammonium chloride (Quelidrine)
Description Commonly used as OTC expectorant; acidifies urine at high doses. Safe and easy to use.
Adult Dose Acidification of urine: 500 mg PO/IV q2-4h
As expectorant: 300 mg PO/IV q2-4h
Pediatric Dose Not established
Contraindications Documented hypersensitivity; severe hepatic and renal dysfunction; primary respiratory acidosis
Interactions May reduce aspirin, chlorpropamide, ephedrine, methadone, pseudoephedrine, spirolactone, and para aminosalicylic acid
Pregnancy B - Fetal risk not confirmed in studies in humans but has been shown in some studies in animals
Precautions Caution in hepatic and renal impairment

Drug Category: Adsorbents

These agents, given through a nasogastric tube into the stomach, absorb intentionally and accidentally ingested substances to prevent their further absorption into the systemic circulation.
Drug Name Activated charcoal suspension (Actidose-aqua, Inst-Aqua, Liquid-Char)
Description Bottles and tubes. Use long after amphetamine ingestion can reduce systemic levels by adsorbing amphetamines recirculating through gastric mucosa.
Adult Dose Bottle: 25-50 mg PO; dose depends on size of patient
Tube: 15-50 mg PO; dose depends on size of patient
Pediatric Dose Bottle: 25-50 mg PO; dose depends on size of patient; should begin with 15 mg in children and increase to 50 mg in adolescents; safe and well tolerated
Tube: 15-50 mg; dose depends on size of patient; should begin with 15 mg in children and increase to 50 mg in adolescents; safe and well tolerated
Contraindications Documented hypersensitivity; poisoning or overdosage of mineral acids and alkalies
Interactions May inactivate ipecac syrup if used concomitantly; effectiveness of other medications decreases with coadministration; do not mix charcoal with sherbet, milk, or ice cream (decreases adsorptive properties)
Pregnancy A - Fetal risk not revealed in controlled studies in humans
Precautions Not effective in ethanol, methanol, or iron-salt poisoning; induce emesis before administration; after emesis with ipecac syrup, patient may not tolerate for 1-2 h; can administer in early stages of gastric lavage; without sorbitol, gastric lavage returns black


FOLLOW-UP
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* Authors and Editors
* Introduction
* Clinical
* Differentials
* Workup