Uitgebreide informatie over MDMA (engels)

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Uitgebreide informatie over MDMA (engels)

Berichtdoor Tijdloos op 05 jul 2013 03:49

Een stukje extra informatie over MDMA (achtergrond) info erbij nu:

Background
The substance 3,4-methylenedioxymethamphetamine (MDMA [ie, ecstasy, XTC, Adam, E, X, clarity, Stacy]) is an amphetamine derivative that has gained significant popularity in recent years and has become the recreational drug of choice for many adolescents and young adults. The drug has various addictive psychoactive properties, and its abuse has led to an alarming increase in emergency department (ED) visits worldwide. This designer drug must be recognized by the ED physician because of its tremendous abuse potential and unpredictable toxicity. At the root of its widespread popularity is the mistaken belief that it is a safe drug with little toxicity and a long duration of action. Individuals who take MDMA describe a sense of euphoria, loss of inhibition, a feeling of closeness and/or empathy, and increased sensuality.

The first synthesis of MDMA was by Köllisch in 1912 at a German pharmaceutical company, Merck and Company, with the German patent 274350. At the time of patent application, no use was specified for MDMA and it was called "methylsafrylamin" in the annual report. MDMA was discovered while in the pursuit of hemostatic substances, not appetite suppressants. The erroneous association is due to MDA, 3,4-methylenedioxyamphetamine, a close analogue studied for its antidepressive and appetite suppressant effects developed in 1949-1957 by Smith, Kline, and French.

In 1927, Max Oberlin at Merck noticed the chemical similarity between MDMA and ephetonine-like and adrenalin-like substances. He conducted the first pharmacologic testing and noted that MDMA did not have pure sympathetic effects because it was devoid of the local effects on the eye. In 1978, Shulgin and colleagues reported human study results concerning the pharmacokinetic and psychotropic effects of MDMA. Before MDMA became a Schedule I drug, some therapists used MDMA as an experimental therapeutic aid in marriage counseling and psychoanalysis due to its enactogenic effects, the ability to “touch within” and for increasing self-awareness.

Inevitably, as public awareness grew, some members of the public began to use MDMA for recreational purposes, and its use began to increase on the streets. Recreational MDMA use began insidiously among middle class professionals and was confined to small groups. However, as the potential for huge profits appeared, MDMA soon spread to a younger crowd and became prevalent in bars, clubs, and college campuses across the country. During the early 1980s, this subculture of house music and house parties was found in major cities throughout the United States; at the same time, MDMA use spread throughout Europe in hideaways such as Ibiza, Spain, and the famed underground club scene in London.

In 1985, published reports stated that MDMA and its demethylated metabolite 3,4-methylenedioxyamphetamine (MDA) had long-term neurotoxic effects in laboratory animals. As a result of the study and concern over MDMA's increasing recreational use, the Drug Enforcement Agency placed MDMA in the Schedule I category of the Controlled Substance Act, hence declaring the drug illegal. Despite its illegal status as of 1986, the use of MDMA has continued to increase and has risen dramatically since the arrival of the "rave" phenomenon.

Raves occur in dance halls and clubs. Typically, young adults ingest tablets of MDMA and dance all night to electronic music and laser lights. People gather by the thousands and dance for many hours in hot crowded venues or clubs; they may present to the ED, usually complaining of symptoms of dehydration and hyperthermia. While most improve with supportive treatment alone, the patient should be evaluated for signs of hyperthermia, dehydration, hyponatremia, seizures, hypertensive crises, cardiac dysrhythmias, and possible signs of serotonin syndrome.

MDMA use has increased dramatically, becoming a global phenomenon. The misconception that MDMA is a safe drug continues to be a major problem. Many of the myths concern the fact that it was once legal as a psychotherapeutic adjunct and that it has few adverse effects. The medical community's awareness of MDMA has increased, and conclusive evidence indicates that significant morbidity and mortality are associated with its use. Physicians must be able to recognize these symptoms and to treat and educate patients accordingly.

Pathophysiology
MDMA is a member of a family of amphetamine derivatives known as MDA. Structurally, MDMA is similar to the stimulant methamphetamine and the hallucinogen mescaline. Like other amphetamines (in particular, dopamine and norepinephrine), it causes catecholamine release from presynaptic vesicles. However, MDMA also is a selective serotonergic neurotoxin that causes massive release of serotonin (ie, 5-hydroxytryptamine [5-HT]) and is postulated to inhibit its uptake. In animal models, it has been demonstrated to cause long-term destruction of 5-HT axons and axon terminals. No randomized clinical human studies exist, and one always must be cautious when extrapolating animal study data and applying it to human models. However, studies demonstrate lowered concentrations of the 5-HT metabolite 5-hydroxyindoleacetic acid (5-HIAA) in the cerebrospinal fluid of regular MDMA users. This correlates with a similar decrease reported in primates with brain damage induced by MDMA.

The effects of MDMA can be described as those of a hallucinogenic amphetamine, combining some effects of amphetamine (ie, speed) with that of LSD (ie, acid). However, many of the effects are dose dependent, and auditory and/or visual hallucinations are not commonly observed. Much of the abuse potential lies in its pleasurable subjective effects (eg, empathy, euphoria, disinhibition, increased sensuality). Hence, MDMA is often described as the “hug drug,” due to the amplified desire to be touched and socialize.

MDMA is available as a tablet, capsule, powder, and liquid; however, it most commonly is used in tablet form. These tablets often are engraved with various motif symbols and brands, ranging from birds (eg, doves) and animals (eg, blue elephants), numbers (eg, 8 1/2), cartoon characters (eg, Bugs Bunny), and cars (eg, Ferrari). It usually is swallowed, although reports of smoking, snorting, and injecting MDMA have been found. Following oral intake, its duration of action is 8-24 hours with a half-life of 12-34 hours, though this can depend on the purity of the drug ingested.

About 75% is renally excreted unchanged, the rest is metabolized in the liver, specifically by the hepatic enzyme CYP 2D6 and catechol –O-methyl transferase (COMT).[1] Of note, a small subset of the population is either missing the liver enzyme CYP2D6 and COMT genotypes. Others have decreased function due to inhibition from medications such as the protease inhibitor ritonovir, which may be implicated in severe toxicity such as serotonin syndrome, hepatitis, disseminated disseminated intravascular coagulation, hyponatremia, and fatalities caused by the inability to metabolize MDMA.[2]

Each tablet contains approximately 50-100 mg of MDMA and costs approximately $20-25. Effective doses are 1-2 mg/kg, and initial effects occur in 30-60 minutes. Peak effects occur at 90 minutes and may persist 4-8 hours. Tolerance to the psychoactive properties of MDMA develops rapidly, and an increase in adverse effects is reported because of frequent use. Repeated doses cause sympathomimetic responses to predominate and can result in amphetamine-like toxicity. Severe hyperthermia has been reported at doses of 4-5 mg/kg.

One of the problems in assessing the causes and effects of MDMA toxicity is determining the purity of the ingested substance. Synthesis of MDMA is relatively simple, and it often is produced in illicit laboratories or clandestine locations, such as basements and garages. In addition to the less than ideal quality control measures, these synthesized tablets also may be cut or mixed with other psychoactive substances. Substances found mixed with MDMA include heroin, ketamine, and ephedrine (ie, herbal ecstasy).

General medical adverse effects
The acute effects of MDMA have an initial onset of 30 minutes after oral intake and are characterized by anxiety, tachycardia, and elevated blood pressures. Associated symptoms include diaphoresis, bruxism, jaw clenching, paresthesias, dry mouth, increased psychomotor activity, and blurred vision. Within 1 hour, these sympathomimetic effects are replaced by feelings of relaxation, euphoria, and increased empathy and communication. While overt auditory and/or visual hallucinations are uncommon, patients report increased sensory tactile enhancement and mild visual distortions, such as halos. These effects plateau for up to 90 minutes and then diminish over 3-4 hours.

Many users attempt to prolong these effects by taking additional doses of the drug. However, when too much additional MDMA is consumed in a single session, individuals report unpleasant symptoms of autonomic hyperarousal associated with feelings of restlessness, paranoia, and anxiety. Tolerance to the psychoactive properties of MDMA develops rapidly, and the user is unable to restore the euphoric effects with repeated doses. Instead, sympathomimetic effects predominate, placing the patient at risk for cardiovascular instability, arrhythmias, and hyperthermia. In addition, following the acute effects of MDMA, users often report a 24- to 48-hour period characterized by lethargy, anorexia, and dysphoria. This period of lethargy is known as the blues or colloquially “suicide Tuesday” after weekend ecstasy use and is dangerous because other drugs often are co-ingested to help ease the "crash" after psychostimulant administration.

Cardiovascular effects
Autonomic hyperactivity is a major feature in patients presenting with MDMA toxicity and is dose-dependent. Typically, MDMA has only 1/10 the CNS stimulant effect of amphetamine. The proposed mechanism is the amphetamine-induced catecholamine and 5-HT surge that causes tachycardia, hypertension, and hyperthermia. Hyperthermia is especially dangerous because many cases involve patients dancing for prolonged periods with inadequate fluid intake in crowded dance halls with hot temperatures and poor ventilation.

As with any amphetamine, the risk of cardiac dysrhythmias and cardiovascular collapse is always a possibility. Fatal dysrhythmias have been reported following MDMA use, resulting in ventricular fibrillation and asystole. Individuals with underlying cardiac and/or pulmonary disease and preexisting conditions such as Wolff-Parkinson-White syndrome are especially at risk for heart failure and fatal arrhythmias.

Serotonin syndrome
Serotonin syndrome is a condition in which central 5-HT receptor hyperstimulation results in classic findings of hyperthermia, mental status changes, autonomic instability, and altered muscle tone and/or rigidity. MDMA causes massive serotonin release, and numerous case reports link MDMA toxicity to the serotonin syndrome. The mechanism is unclear, but a direct effect by MDMA on the thermoregulatory centers may be potentiated by sustained physical activity, high temperatures, and inadequate fluid intake as observed at rave parties. Vigorous dancing for long hours in these conditions can predispose patients to hyperthermia, dehydration, and muscle breakdown leading to rhabdomyolysis. Further complications include disseminated intravascular coagulation (DIC), hepatotoxicity, and acute renal failure. Most cases of toxicity have been idiosyncratic and did not depend on massive overdoses.

Hyponatremia
Various cases of seizure and death secondary to hyponatremia have been reported. The occurrence of hyponatremia after MDMA use is multifactorial, stemming from increased water intake, excessive sweating with physical exertion, and the release of vasopressin leading to the syndrome of inappropriate antidiuretic hormone secretion (SIADH). In severe cases of hyponatremia, patients can develop cerebral edema with subsequent seizures and, possibly, coma. These patients invariably show high urine osmolarity and continued sodium excretion despite low serum osmolality and hyponatremia, which is consistent with the criteria for diagnosis of SIADH. In the ED, always consider hyponatremia with resultant cerebral edema in any patient with known MDMA ingestion who presents with an altered mental status or seizure.

Neurologic effects
MDMA, like other amphetamines, can lead to a variety of fatal neurologic outcomes, including subarachnoid hemorrhage, cerebral infarction, or intracranial bleeds. Underlying mechanisms involve the short-term hypertensive surges and subsequent disruption of cerebral blood vessels, especially in patients with congenital arteriovenous malformations or cerebral angiomas. While these fatalities are rare, always consider amphetamine use as a possible cause of stroke.

Hepatotoxicity
Growing evidence suggests that MDMA may harm the liver. Hepatotoxicity ranges from asymptomatic liver injury with confirmation of elevation of the liver function tests to fulminant acute hepatic failure. Different patterns of liver injury are recognized, including benign lesions, viral hepatitis, extensive or focal hepatic necrosis, total loss of liver parenchyma and function with accompanying encephalopathy, cerebral edema, and multiorgan system failure.

In the setting of grade III or IV hepatic encephalopathy, without a liver transplant, the mortality rate is more than 50%. The presentation of MDMA hepatotoxicity varies. The timing of ingestion and onset of symptoms, as well as doses, do not seem to correlate with the clinical severity, and recurrence can also occur due to chronic use. Chronic use of MDMA leads to fibrotic changes that are related to an increase of collagen I production by the stellate cells.

Histopathologically, hepatotoxicity associated with hyperthermia demonstrates a picture of centrolobular necrosis and microvesicular steatosis. Without hyperthermia present, hepatotoxic changes noted are consistent with acute cholestatic hepatitis with eosinophils and macrophage infiltrates. The reasons for the different patterns of injury are still not completely understood, although theories include hyperthermia, increased efflux of neurotransmitters, oxidation of biogenic amines, mitochondrial impairment, apoptosis, and genetic polymorphisms.[3]

CYP2D6 catalyzes the metabolism of MDMA in the liver via O-demethylenation pathway. So atypical responses to MDMA may be related to genetic polymorphisms of this isoenzyme. Subjects known to be slow metabolizers had elevated levels of MDMA and lower levels of the demethylenated product after being administered two 100-mg doses with a 24-hour interval period in a clinical trial. Clinically, a slow metabolizer may be at greater risk for developing acute MDMA toxicity.

Finally, MDMA is synthesized, and often the source as well as well as the purity of the drug is unknown. One must consider whether the liver toxicity was caused by MDMA, another psychoactive compound contained in the ecstasy tablet, a contaminant, or coingestion of another drug. Nevertheless, MDMA may exert harmful effects on the liver and may cause significant damage, especially when combined with other hepatotoxic substances.

Long-term neuropsychiatric effects
Recent literature suggests the possibility of long-term psychiatric complications involving regular use of MDMA. The long-term effects may be related to the decrease in serotonin reuptake transporter (SERT) function and numbers. Recovery of SERT may take weeks and months; ultimately, chronic use may lead to permanent serotonergic damage of the axons and terminals sparing the cell bodies. Patients have reported symptoms of depression, anxiety, panic attacks, and insomnia after ending MDMA use. Further studies report that patients using MDMA have difficulty concentrating and short-term memory impairment. Although much of the focus in the ED involves managing the acute toxic effects of MDMA, educate patients that long-term neurologic and psychiatric complications may occur.

Epidemiology
Frequency
United States
Although various estimates have been given on the extent of current illicit MDMA use in the United States and western Europe, the exact prevalence remains unknown. According to the 2004 National Drug Use and Health, more than 11 million persons aged 12 years and older have reported using MDMA at least once in their lifetimes.[4] Drug Abuse Warning Network (DAWN) data have shown a steady increase in emergency department (ED) visits from MDMA abuse. The DAWN estimates have shown a greater than 800% increase since 1995 from 421 ED visits to 4,026 in 2002 and another 167% increase in 2005 with 10,752 ED visits. These numbers are collected from participating hospitals in major metropolitan areas throughout the United States and reflect trends of drug abuse and not national numbers.[5]

According to a 1993 National Institute on Drug Abuse survey, 2% of all US college students admitted to taking MDMA in the previous 12 months. An interview study of Stanford University undergraduate students reported that 39% had taken MDMA at least once in their lives. A Tulane University survey of more than 1200 students revealed that 24% had used MDMA.[6]

Some critics have described MDMA as having the "greatest growth potential among all illicit drugs" in the United States, with tens of thousands of new users introduced to the drug scene every month, particularly within the context of raves. In support of this statement, a 1999 national study reported statistically significant changes regarding MDMA use among 10th and 12th graders. Use of MDMA increased from 3.3% in 1998 to 4.4% in 1999 among 10th graders. The percentage of 12th graders using MDMA rose from 3.6% in 1998 to 5.6% in 1999. Lifetime use increased from 5.8% in 1998 to 8% in 1999.

However, there is some good news, recent data from the annual NIDA Monitoring the Future survey has shown a decline in MDMA use in middle school and high school students. Between 2001 and 2005, annual ecstasy use was down 52% in 8th graders, 58 % in 10th graders, and 67% in 12th graders.[4] The 2004 National Survey on Drug Use and Health estimates that the number of current adolescent and adult MDMA abusers in the United States declined from 676,000 in 2002 to 450,000 in 2004.

Government raids on MDMA also have shown a drastic increase in MDMA drug trafficking. In the late 1990s, government seizures of MDMA increased by 450%. In 1997, 400,000 tablets were seized, and, in 1999, 3.3 million tablets were seized. The US government's projected numbers for the next few years are between 7 and 8 million tablets.

International
A 1992 Harris Opinion Poll for the British Broadcasting Corporation (BBC) in Great Britain presented data that 31% of people aged 16-25 years admitted using MDMA. In a survey of school children across England, 6% of those aged 14-15 years reported using MDMA. In 1996, the popular British press reported that an estimated 500,000-1,000,000 young people in Great Britain use MDMA every weekend.

Throughout the 1990s, raves have become increasingly common, spreading throughout Europe, Spain, Portugal, Australia, and even India and Asia. One published report from 1998 estimated that 3% of the adult European population had tried ecstasy. Although the exact numbers in other countries are not known, MDMA truly has become a global phenomenon and is continuing to spread because of its easy availability and the misconception that it is a relatively safe drug.

Mortality/Morbidity
MDMA toxicity has been associated with seizures, hyperthermia, coagulopathies, arrhythmias, heart failure, stroke, and renal and/or liver failure.

Most MDMA-related fatalities have been attributed to symptoms of heat stroke and hyperthermia. Many of these patients exhibited features of the serotonin syndrome. Hyperthermia results from the catecholamine surge caused by MDMA and is exacerbated in the setting of raves. Increased body temperatures with vigorous dancing in crowded hot clubs can cause dehydration, DIC, rhabdomyolysis, and acute renal failure. MDMA users are informed at raves to keep adequate hydration and take cooling measures as needed.

Recent studies in rats have shown that high ambient temperatures enhance MDMA-induced locomotor activity suggesting that the high temperatures seen at raves may serve as an incentive to users to prolong and enhance their "high."[7] This, in turn, puts them at higher risk for hyperthermia and the serotonin syndrome.

Another major cause of morbidity and mortality is abnormal fluid, electrolyte balance, or both. MDMA stimulates vasopressin release, resulting in SIADH. This, in conjunction with too much water intake during profuse sweating and salt loss (eg, during raves), can lead to severe hyponatremia with subsequent cerebral edema and seizures.

Although uncommon, several cardiovascular toxicities have been documented ranging from arrhythmias to heart failure. Surprisingly, MDMA-induced myocardial infarction is rarely reported. Despite the low frequency of cardiovascular-related deaths from MDMA, it must be emphasized that any amphetamine has the potential to induce fatal arrhythmias. This is especially true in patients with underlying cardiac/pulmonary disease and in those who co-ingest other drugs/stimulants.

Intracerebral hemorrhage has also been reported but is uncommon. Patients with underlying conditions such as arteriovenous malformations and cerebral angiomas have an increased risk. Elderly patients and those with a history of hypertension also have an increased risk of intracerebral hemorrhage following MDMA use.

Hepatitis and liver failure have been reported, although whether MDMA has a direct toxic effect to the liver is unclear. Interestingly, a subset of the population may be at risk for liver toxicity. These patients are missing a liver enzyme called CYP2D6, which is necessary to metabolize MDMA. It is deficient or totally absent in 5-10% of whites and African Americans and in 1-2% of Asians.

Race
MDMA is now a global phenomenon and is used all over the world. Traditionally, use has been associated with white males; however, the demographic has changed with the popularity of raves and now includes large percentages of Asian, African American, and Hispanic persons.

Sex
MDMA use is most common among single white males aged 16-25 years. However, with the advent of raves, MDMA use has increased across all ethnic, age, and gender boundaries.

Age
Typically, most users are aged 16-25 years. However, incidence of MDMA use in younger age groups is increasing. Reports also document MDMA toxicity among patients in the fifth and sixth decades of life.



The patient, friends, emergency medical services (EMS), or the authorities may provide history regarding the possibility of drug abuse. These patients usually present on weekends, often late at night or in the early morning hours after many hours of dancing at raves. Emergency Medical Services (EMS) or the authorities can provide information as to the setting in which they were found (eg, clubs, raves, bars). Sometimes, patients may be carrying MDMA tablets with motif symbols and rave paraphernalia such as neon glow sticks and "smart drinks," which are blended fruit juices with amino acids. However, in the absence of any history, always consider sympathomimetic drugs, such as amphetamines and cocaine, in any young patient who presents with altered mental status and autonomic hyperactivity.

Typically, patients present to the ED either immediately after an ingestion, indicating an acute adverse reaction, or, more commonly, after the euphoric high has subsided and they have tried repeated dosing or co-ingestion with other drugs. Often, patients have mixed toxidromic presentations because of co-ingestion with alcohol, marijuana, ketamine, gamma-hydroxybutyrate (GHB), heroin, or cocaine.

Central nervous system
Change in mental status, seizures
Anxiety, paranoia
Increased psychomotor activity, restlessness
Hyperthermia, hot flashes
Headache
Ataxia
Blurred vision, halos
Syncope
Cardiovascular
Palpitations
Chest pain
Gastrointestinal
Dry mouth
Nausea, vomiting
Abdominal cramping
Anorexia
Skin
Diaphoresis
Piloerection
Other - Pregnancy (Studies have shown that prenatal exposure to MDMA in pregnant rats induces transient and long-term neurochemical and behavioral modifications in dopaminergic and serotonergic functions.[8] )
Urinary retention, difficulty voiding
Sexual dysfunction
Dental - Bruxism (jaw clenching) is frequently observed in MDMA users resulting in enamel erosion and dental decay with consequent tooth fracture and gum recession.[/quote][/quote]

Physical
Physical examination findings demonstrate sympathomimetic hyperstimulation on various organ systems in the body; they can help focus on the most likely toxidrome; keep in mind that polysubstance abuse is the rule rather than the exception.

Pay particular attention to vital signs. MDMA toxicity results in tachycardia, hypertension, and hyperthermia. Obtain a rectal temperature along with frequent serial checks on the patient's neurologic status.

Head, ears, eyes, nose, and throat
Mydriasis
Nystagmus
Decreased visual acuity
Bruxism (ie, teeth grinding)
Trismus, jaw clenching
Eroded enamel
Dry mouth
Central nervous system
Hyperthermia
Increased psychomotor agitation
Hypervigilance
Agitation, anxiety
Ataxia
Hallucinations (very rare)
Hypertensive crisis (can lead to symptoms of stroke)
Cardiovascular
Tachycardia
Dysrhythmias (eg, premature ventricular contractions, supraventricular tachycardias, ventricular tachycardia, ventricular fibrillation)
Respiratory
Respiratory distress (rare; patients are usually polysubstance abusers)
Respiratory failure, aspiration, noncardiogenic pulmonary edema
Other
Diaphoresis
Abdominal cramping
Muscle spasm
Sexual dysfunction (difficulty having orgasm)
Urinary retention

Differential Diagnoses

Alcohol and Substance Abuse Evaluation
Anxiety
Encephalitis
Herpes Simplex
Herpes Simplex Encephalitis
Hypocalcemia
Hypoglycemia
Hyponatremia
Meningitis
Neuroleptic Malignant Syndrome
Panic Disorders
Plant Poisoning, Hypoglycemics
Rhabdomyolysis
Stroke, Hemorrhagic
Stroke, Ischemic
Subarachnoid Hemorrhage
Toxicity, Amphetamine
Toxicity, Anticholinergic
Toxicity, Antidepressant
Toxicity, Benzodiazepine
Toxicity, Cocaine
Toxicity, Hallucinogen
Toxicity, Methamphetamine
Toxicity, Mushrooms
Toxicity, Phencyclidine
Toxicity, Sympathomimetic
Withdrawal Syndromes

Laboratory Studies
If a patient gives a clear history of MDMA ingestion with mild symptoms and is hemodynamically stable, no laboratory studies are indicated. If the history is absent and/or questionable or if the patient exhibits signs of moderate-to-severe toxicity, appropriate laboratory studies include the following:

Obtain a CBC count to exclude infection as a cause of fever and altered mental status.
Measure electrolyte levels and pay particular attention to sodium and renal function.
A bedside glucose determination is always indicated in patients with altered mental status.
Obtain liver function tests (LFTs), prothrombin time, and/or activated partial thromboplastin time. Patients manifesting significant or prolonged hyperthermia require evaluation of hepatic and coagulation studies to exclude DIC.
Perform pregnancy tests in women of childbearing age.
A creatine kinase measurement is helpful to exclude rhabdomyolysis.
Dipstick urinalysis findings can be positive for myoglobinuria.
The urine toxicology screen fails to detect MDMA unless large doses have been ingested. It is nonspecific, and positive test findings only indicate presence of an amphetamine drug class. Confirmation by means of gas chromatography and/or mass spectrometry is strongly recommended when test findings are positive for amphetamines.
Patients complaining of chest pain should undergo electrocardiographic testing and monitoring. Include cardiac enzymes in laboratory studies for chest pain secondary to suspected ischemia.
In addition to the tests listed above, laboratory studies for altered mental status may include serum osmolality, alcohol, and ketones.
Send cultures of blood and urine for testing if signs of infection and fever are present. Consider lumbar puncture to exclude meningitis.

Imaging Studies
Patients demonstrating only mild symptoms without any hemodynamic instability do not require imaging studies. Observation and supportive care is recommended.
Obtain a chest radiograph in patients complaining of chest pain, demonstrating low oxygen saturations, or experiencing respiratory distress.
Patients presenting with a seizure or prolonged mental status changes despite initial resuscitation should undergo cranial CT scan. Metabolic causes such as hyponatremia should be found quickly and corrected cautiously.

Other Tests
Patients complaining of chest pain should undergo electrocardiographic testing and monitoring.

Procedures
Patients complaining of persistent headache may require a head CT and a lumbar puncture to rule out a subarachnoid hemorrhage

Prehospital Care
Prehospital care is primarily supportive.

Address the ABCs, administer oxygen, obtain intravenous access, assess blood glucose level, monitor the patient, and perform frequent vital sign checks and serial assessment of consciousness (eg, AVPU [alert, responds to voice, responds to pain, unresponsive], Glasgow Coma Scale).

Anxiety, extreme agitation, panic reactions, and seizures may require short-acting benzodiazepines (eg, lorazepam) administered intravenously or intramuscularly. Restraints may be necessary if patients exhibit complete loss of control and are dangerous to themselves or others.

Emergency Department Care (OD)
Afbeelding
While most patients with MDMA overdose improve with supportive care, life-threatening complications may result from severe toxicity. Fatalities have been reported because of severe hyperthermia (ie, heat stroke) accompanied by DIC, rhabdomyolysis, and acute renal failure. Death by cerebral edema and seizures secondary to hyponatremia and SIADH has also been reported. As in any amphetamine toxicity, the danger of cardiac arrhythmias and cardiovascular instability always must be entertained. Careful attention to the airway and vital signs is standard in overdoses, and serial neurologic checks are required.

Establish ABCs, provide oxygen, obtain intravenous access, and perform cardiac monitoring.

A bedside glucose determination is indicated in any patient presenting with altered mental status. If a patient is hypoglycemic, administer thiamine and enough glucose to maintain adequate serum glucose concentrations with frequent monitoring.

If verbal contact is possible, providing reassurance is important. Avoid physical or pharmacologic restraints if possible. Place the patient in a calm, quiet room. If severe agitation or disruptive behavior persists, sedation using benzodiazepines and/or physical restraints may be necessary.

If acute toxicity caused by ingestion is known, perform GI decontamination by administering activated charcoal. Orogastric lavage usually is not necessary unless a life-threatening co-ingestant is involved and the patient presents within 1 hour of ingestion. Whole-bowel irrigation may be indicated if body packing of drugs is suspected.

Although respiratory distress is uncommon, endotracheal intubation and mechanical ventilation may be required in patients who cannot protect their airway or have respiratory compromise because of conditions such as seizures, cardiovascular instability, or trauma.

Patients presenting with severe hyperthermia require aggressive cooling measures and adequate fluid resuscitation. Obtain a rectal temperature. Aggressively cool hyperthermic patients to 102°F. Morbidity is directly related to the severity and duration of hyperthermia.

Undress the patient.
Apply evaporative cooling with water and a fan.
Apply ice packs to the groin and axilla.
Iced gastric lavage may be considered.
In extreme cases, the ice-bath immersion may be required for the correction of hyperthermia.
Control shivering with a benzodiazepine.
Antipyretics are not useful.
Dantrolene (1 mg/kg or 80 mg intravenously [IV]) has been used for the treatment of hyperpyrexia after conventional therapy. Dantrolene is typically used to treat malignant hyperthermia, a genetic disorder of the skeletal muscle due to a defect in the ryanodine receptor that allows for massive release of calcium from the sarcoplasmic reticulum during exposures to general anesthetics.

MDMA-induced hyperthermia is thought to be centrally medicated from via serotonin toxicity. Although the mechanism of dantrolene does not seem to correlate with what is known about MDMA-induced hyperthermia, dantrolene was first used to treat hyperthermia in the setting of MDMA-related hyperpyrexia in 1992 due to the similarity of presentation.

A systematic compilation of MDMA case reports suggests that there may be some evidence of benefit in using dantrolene to treat hyperthermia.[9] The study showed decreased morbidity and mortality with rare side effects from the dantrolene itself, especially in patients who present with temperatures above 40°C, especially above 42°C. The biggest caveat with using case series and case reports is recognizing the limitations of reporting and publication biases.

Treat seizures with benzodiazepines. Most seizures are self-limited and respond well to benzodiazepines. Protect the airway and consider phenobarbital or propofol in patients with refractory symptoms. Treat the underlying cause and check electrolytes, especially hyponatremia. Start with fluid restriction, but consider adding hypertonic saline in refractory or severe cases; in these cases, adding 3% saline and furosemide may be indicated but at a rate no greater than 0.5-1 mEq/L/h.

Foley catheter placement is indicated to monitor urine output in patients with rhabdomyolysis. Check urinalysis for myoglobin and creatine kinase for rhabdomyolysis. Recognition and treatment of rhabdomyolysis with fluids, alkalinization of the urine, and furosemide may be indicated to prevent acute renal failure. Alkalinization of the urine with sodium bicarbonate is helpful. Administration of furosemide and mannitol may also be considered.

Obtain cardiac monitoring and ECG in patients complaining of chest pain or palpitations. Order appropriate cardiac enzyme measurements if cardiac injury is suggested. Significant cardiac dysrhythmias may require pharmacotherapy or cardioversion and/or defibrillation.

Initially, manage hypertension with benzodiazepine sedation. In patients with refractory symptoms or signs of end-organ damage, nitroprusside or nitroglycerin can be used to lower the blood pressure.

Always perform pregnancy testing in female patients with overdose. MDMA, like all amphetamines, can be toxic to the fetus and may induce miscarriage or premature labor.

Consultations
A regional poison control center and medical toxicologist can provide valuable information and instructions for handling complex ingestions. Bedside consultation or admission (if necessary) by a medical toxicologist may be beneficial in these situations.
Obtain psychiatric consultation for patients who demonstrate suicidal thoughts or behavior.

Medication Summary
Objectives in pharmacotherapeutic intervention of MDMA toxicity include the following: (1) decontamination with activated charcoal/sorbitol; (2) sedation with benzodiazepines in agitated and anxious patients; (3) treatment of hyperthermia with rapid convection cooling, spraying water onto the body and using an electric fan to circulate the air, attempting to cool the core temperature to 101°F within 30-45 minutes; (4) relief of muscle spasms and/or cramping with benzodiazepines, (5) prevention of rhabdomyolysis with IV fluids (benefit of furosemide or sodium bicarbonate remains controversial); (6) seizure control with benzodiazepines; and (7) stabilization of hemodynamic and/or cardiovascular disturbances with nitroprusside or nitroglycerin.


Benzodiazepines
Class Summary
These agents are important for sedation, muscle relaxation, and seizure management.

Lorazepam (Ativan)

Beneficial for sedative and anticonvulsant effects. Sedation also can lower amphetamine-induced hypertension. DOC for initial treatment of status epilepticus.

Diazepam (Valium, Diazemuls, Diastat)

Depresses all levels of CNS, possibly by increasing activity of GABA; individualize dosage and increase cautiously to avoid adverse effects.

Barbiturates
Class Summary
Class of anticonvulsants useful when phenytoin and benzodiazepines fail.

View full drug information
Phenobarbital (Luminal, Barbita, Solfoton)

Exhibits anticonvulsant activity in anesthetic doses. In status epilepticus, important to achieve therapeutic levels as quickly as possible. IV dose may require approximately 15 min to attain peak levels in brain.

If IM route is chosen, administer into areas such as one of the large muscles (eg, gluteus maximus, vastus lateralis, other areas with little risk of encountering a nerve trunk or major artery); permanent neurologic deficit may result from injection into or near peripheral nerves.

Restrict IV use to conditions in which other routes are not possible, either because patient is unconscious or because prompt action is required; if used to terminate generalized convulsive status epilepticus, administer up to 15-20 mg/kg.

Ventilation and intubation may be necessary; hypotension may require treatment; a trend exists in recommendations to use agents other than phenobarbital (propofol, midazolam, other barbiturates) for refractory status epilepticus.

Alkalinizing agent
Class Summary
These agents are used to facilitate treatment of rhabdomyolysis.

Sodium bicarbonate (Neut)

Useful in alkalization of urine to prevent acute myoglobinuric renal failure; titrate dose to increase pH to 7.45-7.55; onset of action is within minutes and lasts approximately 15-30 min; monitor blood pH to avoid excess alkalosis. Maintain normal serum potassium level because urinary alkalinization impossible if patient is hypokalemic.

Osmotic diuretics
Class Summary
These agents increase osmolarity of glomerular filtrate and induce diuresis. They hinder tubular reabsorption of water, causing sodium and chloride excretion to increase.

Mannitol (Osmitrol)

Alternative diuretic used when urine output is inadequate despite aggressive fluid therapy.

Initially assess for adequate renal function in adults by administering test dose of 200 mg/kg IV over 3-5 min; should produce urine flow of at least 30-50 mL/h of urine over 2-3 h.

In children, assess for adequate renal function by administering test dose of 200 mg/kg IV over 3-5 min; should produce urine flow of at least 1 mL/h over 1-3 h.

Antihypertensives

Class Summary
Design treatment of hypertension to reduce the blood pressure and other risk factors of coronary heart disease. Individualize pharmacologic therapy based on a patient's age, race, known pathophysiologic variables, and concurrent conditions. Design treatment not only to lower blood pressure safely and effectively but also to avoid or reverse hyperlipidemia, glucose intolerance, and left ventricular hypertrophy.

Phentolamine (Regitine)


Alpha1 and alpha2 adrenergic blocking agent that blocks circulating epinephrine and norepinephrine action, reducing hypertension that results from catecholamine effects on alpha-receptors.


Sodium nitroprusside (Nitropress)

Produces vasodilation and increases inotropic activity of heart; at higher dosages, may exacerbate myocardial ischemia by increasing heart rate.

Nitroglycerin (Nitro-Bid, Nitrostat, Deponit)

Decreases coronary vasospasm, which increases coronary blood flow; in addition, induces vessel dilatation, decreasing cardiac workload

Class Summary
Diuretics facilitate diuresis during treatment of rhabdomyolysis.

Furosemide (Lasix)

Increases excretion of water by interfering with chloride-binding cotransport system, which, in turn, inhibits sodium and chloride reabsorption in ascending loop of Henle and distal renal tubule; potent vasodilator of medullary vessels serving to wash out concentration gradient of countercurrent system, resulting in marked diuresis.


Class Summary
Activated charcoal adsorbs MDMA after acute ingestions and limits absorption into systemic circulation. Most beneficial if administered within 4 hours of ingestion.

GI decontamination
Activated charcoal (Liqui-Char, Actidose-Aqua)

Network of pores present in activated charcoal adsorbs 100-1000 mg of drug per gram of charcoal; does not dissolve in water; for maximum effect, administer within 30 min of poison ingestion; may administer as aqueous suspension or combined with cathartic (usually sorbitol 70%) and with presence of active bowel sounds; may need to be repeated (without cathartic) to adsorb large pill masses or drug packages.


Glucose supplement
Class Summary
This agent is used to raise the patient's serum glucose level.

Dextrose (Glucose-D)

Monosaccharide, absorbed from intestine and distributed, stored, and used by tissues. Parenterally injected dextrose is used in patients unable to obtain adequate oral intake; direct oral absorption results in rapid increase of blood glucose concentrations. Effective in small doses; no evidence indicates that it may cause toxicity; concentrated infusions provide higher amounts of glucose and increased caloric intake with minimum fluid volume.

Vitamin supplementation
Class Summary
Vitamins are indicated to correct thiamine deficiency and prevent Wernicke-Korsakoff encephalopathy.


Thiamine (Vitamin B-1)

Supplementation ensures adequate cofactor for maintenance of cellular aerobic respiration. CNS depletion of thiamine may result in Wernicke encephalopathy.

Further Inpatient Care
Admission to an intensive care unit may be needed if evidence suggests presence of significant hyperthermia, altered mental status, seizures, severe hyponatremia, respiratory depression, or acute renal failure secondary to rhabdomyolysis

Further Outpatient Care
Refer the patient for drug abuse counseling and treatment.

Transfer
Patients may require transfer to a psychiatric facility for evaluation and treatment if they exhibit dangerous behavior or psychosis refractory to general supportive measures and are stable without hemodynamic instability and with no evidence of cardiac, cerebral, renal, hepatic, or pulmonary complications.

Complications
Hyperthermia and the risk of serotonin syndrome can result in increased mortality with complications of DIC, rhabdomyolysis, and acute renal failure. Institute general cooling measures and treat rhabdomyolysis with generous intravenous hydration and alkalinization of the urine.
Monitor hyponatremia as a result of SIADH and excessive water intake for resultant cerebral edema and seizures. In severe cases, administration of 3% saline and furosemide may be indicated to correct the hyponatremia but at a rate no greater than 0.5-1 mEq/L/h.
As with any amphetamine, the risk of stroke, cardiac arrhythmia, and heart failure always is possible. The risk is especially high in patients with congenital abnormalities (eg, arteriovenous malformations, cardiomyopathy) or underlying heart and pulmonary disease.
Although the causal relationship between MDMA and liver toxicity has not been shown definitively, case reports document hepatotoxicity resulting in self-limited hepatitis and fulminant liver failure following MDMA use.
Always keep in mind the possibility of other drug ingestions. MDMA users often co-ingest other drugs, and ecstasy tablets can be combined with other drugs. Heroin, ketamine, cocaine, alcohol, and marijuana have been implicated, and the patient may present with a mixed toxidromic clinical picture.

Patient Education
Patient education is essential in communicating the short- and long-term risks of MDMA use. MDMA long has been perceived as a "safe" drug with few adverse effects and a long duration of action. However, tolerance develops quickly, and, with increasing doses, patients place themselves further at risk for complications of sympathetic hyperactivity leading to possible cardiac arrhythmias, hyperthermia, and hemodynamic instability. Patients must be informed of long-term psychiatric implications associated with regular use. Depression, anxiety, paranoia, and insomnia have been reported to last for years after cessation of MDMA use. In addition, studies have demonstrated impairment in concentration and memory associated with MDMA use.
For excellent patient education resources, visit eMedicineHealth's First Aid and Injuries Center and Mental Health Center. Also, see eMedicineHealth's patient education articles Club Drugs, Drug Dependence & Abuse, Substance Abuse, Poisoning, and Activated Charcoal.

Bron waar alles plus meer staat

Leek me handig voor de doorgewinterde MDMA gebruikers die willen weten hoe die cirkel lijkt te gaan. Of de andere geïnteresseerde lezers onder ons!

De vertaling zal hopelijk binnen een aantal weken vervangen worden!

Het is nogal lang geworden om alles erin te zetten, hopelijk heeft iemand er wat aan :)


Vertaling is in de maak!
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Re: Uitgebreide informatie over MDMA (engels)

Berichtdoor Fool op 15 mei 2015 14:56

https://dancesafe.org/drug-information/ ... slideshow/

Een (relatief compacte) uitleg over hoe MDMA werkt, mogelijk neurotoxisch is en een paar interessante feitjes die ik jullie niet kon onthouden. :)
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Re: Uitgebreide informatie over MDMA (engels)

Berichtdoor MeejheM op 09 sep 2015 22:39

Ik lees deze nu pas, en heb er niet veel inhoudelijks op te melden, maar het artikel is zo lang dat het voor 1 post door veel mensen misschien genegeerd wordt omdat het zoveel informatie bevat. mijn voorstel zou zijn de hoofdstukken een flinke titel in een evt afwijkende kleur te geven, en te beginnen met een kleine index.

ik vind het wel interessant, dus heb ik m ff ge- copy-pasted voor later. als je besluit hier iets mee te doen mag je deze post gerust verwijderen, want die is dan achterhaald. ik wil best de inhoud in bbs opmaak teruggeven, ik heb doordeweeks vrij veel tijd.
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Re: Uitgebreide informatie over MDMA (engels)

Berichtdoor Tijdloos op 31 jan 2016 09:42

Had dit toen met haast gemaakt , als je dat wil doen graag! Je hebt gelijk te lange lap tekst kan veel verbeterd worden.
Copy het en stuur via pb als je zin en tijd hebt. Dan haal ik deze 2 posts weg zodat het *klopt* :)
Je naam / credits komen erbij te staan natuurlijk.

Thanks in anycase!
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Re: Uitgebreide informatie over MDMA (engels)

Berichtdoor t3ll4v1st op 15 nov 2016 17:39

Fool schreef:https://dancesafe.org/drug-information/ecstasy-slideshow/

Een (relatief compacte) uitleg over hoe MDMA werkt, mogelijk neurotoxisch is en een paar interessante feitjes die ik jullie niet kon onthouden. :)


DIT!!
Geweldig goed omschreven!
Dit zou eigenlijk verplichte kost moeten zijn voor als je voor het eerst XTC gaat gebruiken :D
Even een kort lesje neurowetenschappen icm. scheikunde.

Wat ik wel mis is de rol van Noradrenaline in het verhaal.
Je hoort namelijk vaak dat bij MDMA de volgende neurotransmittors vrijkomen:
-Serotonine
-Dopamine
-Noradrenaline

Noradrenaline zorgt volgens verschillende bronnen namenlijk voor het euforisch/sympatische gevoel.
De dopamine zort weer juist voor de bleidschap en het genot.

Seratonine wordt dan wel het "gelukshormoon genoemd" in bovenstaande uitleg komt niet direct naarboven dat de seratonine een direct verband heeft met een "gevoel" het werkt wel als activator voor andere breincellen. (welke weer andere stoffen kunnen vrijgeven.)
Omdat je seratonine cellen door bijna al je hersendelen lopen, is het dan niet zo dat seratonine er gewoon voor zorgt dat je brein enorm actief wordt?

Ik merk aan mezelf dat ik de wetenschap achter MDMA en overige drugs eigenlijk net zo intressant vind als het gebruiken zelf :P super intressant om je daar in te verdiepen eigenlijk!
Done (volgorde laatst-eerst): Ketamine/2-CB/MDMA/4-FA/Poppers/Speed/Cocaine/N2O/Hasj/Wiet/Nicotine/Alcohol
To-Do: GHB - LSD - Truffels - Paddo's
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Re: Uitgebreide informatie over MDMA (engels)

Berichtdoor Psychedelibee op 01 dec 2016 00:42

t3ll4v1st schreef:
Fool schreef:https://dancesafe.org/drug-information/ecstasy-slideshow/

Een (relatief compacte) uitleg over hoe MDMA werkt, mogelijk neurotoxisch is en een paar interessante feitjes die ik jullie niet kon onthouden. :)


DIT!!
Geweldig goed omschreven!
Dit zou eigenlijk verplichte kost moeten zijn voor als je voor het eerst XTC gaat gebruiken :D
Even een kort lesje neurowetenschappen icm. scheikunde.

Wat ik wel mis is de rol van Noradrenaline in het verhaal.
Je hoort namelijk vaak dat bij MDMA de volgende neurotransmittors vrijkomen:
-Serotonine
-Dopamine
-Noradrenaline

Noradrenaline zorgt volgens verschillende bronnen namenlijk voor het euforisch/sympatische gevoel.
De dopamine zort weer juist voor de bleidschap en het genot.

Seratonine wordt dan wel het "gelukshormoon genoemd" in bovenstaande uitleg komt niet direct naarboven dat de seratonine een direct verband heeft met een "gevoel" het werkt wel als activator voor andere breincellen. (welke weer andere stoffen kunnen vrijgeven.)
Omdat je seratonine cellen door bijna al je hersendelen lopen, is het dan niet zo dat seratonine er gewoon voor zorgt dat je brein enorm actief wordt?

Ik merk aan mezelf dat ik de wetenschap achter MDMA en overige drugs eigenlijk net zo intressant vind als het gebruiken zelf :P super intressant om je daar in te verdiepen eigenlijk!

Als je een beetje ervaring op doet met verschillende drugs zul je merken dat serotonine echt wel een uniek gevoel geeft, die heel anders dan dopamine of adrenaline aanvoelt.

Heel kort door de bocht zorgt adrenaline voor energie en een mogelijk opgejaagd gevoel. Dopamine zorgt voor euforie en focus. Serotonine zorgt voor een gelukzalig, verliefd en spacy gevoel. De combinatie van die drie zorgt voor hoe je MDMA ervaart.

Nou zorgt bijvoorbeeld speed ook voor het vrijgeven van deze drie stoffen, maar omdat de verhoudingen heel anders liggen is het effect ook totaal anders.
There's more to reality than meets a normal eye.
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