New Designer Drugs





In recent years, there has been an emergence of numerous novel drugs. Such toxicity may occur in both adolescents and adults. This article discusses the opioid epidemic and several emerging opioids, including buprenorphine, loperamide, fentanyl, fentanyl derivatives, and others. Kratom, a plant occasionally used for opiate detoxification, along with the sedatives etizolam and phenibut, will be discussed. Lastly, this article discusses the phenethylamines and marijuana.


Key points








  • In recent years, several novel drugs of abuse have emerged.



  • Fentanyl overdose is common, and presents similar to other opioid toxicity.



  • Etizolam and phenibut can result in sedative hypnotic toxicity.



  • Kratom is commonly being used to help with treat opiate addiction; toxicity may result in cholestatic jaundice.



  • Marijuana toxicity, including central nervous system depression, may follow unintentional pediatric exposure.




Introduction


Throughout history, numerous trends and epidemics have occurred in recreational drug use, ranging from the opium trades in the 18th and 19th centuries, to the wide-spread use of psychoactive drugs such as marijuana and lysergic acid (LSD) in the 1960s. Although drug use among adolescents has remained relatively stable overall, there has been an explosion of drug use in the United States and world-wide, including emerging opioids, kratom, designer stimulants (eg, phenethylamines and synthetic cathinones), and cannabinoids (marijuana and synthetic cannabinoids) across age groups. In addition to increasing rates of usage, there is a greater variety of drugs available. At the end of 2018, nearly 900 novel psychoactive substances were identified by the United Nations Office of Drugs and Crime (UNODC), which represents a profound increase from the 273 substances identified in the 1961 and 1971 United Nations Drug Conventions. This article summarizes some of the drug trends.


Illicit drug use is common among adolescents, and increases with age. Per the US Centers for Disease Control and Prevention (CDC), in 2017, 2% of adolescents aged 12 and 13 years reported use of an illicit drug in the previous month compared with 14.8% of those aged 16 or 17 years. Unlike the overall population where illicit drug use is much more common in males than females, among individuals age 12 to 17 years, boys use only slightly more than girls. In 2018, 67,367 drug overdose deaths occurred in the United States, with opioids accounting for nearly 70% of these fatalities. In addition, there were nearly a million nonfatal overdoses treated in US emergency departments. In 2017, there were 92,945 nonfatal drug-related emergency department visits for children aged 0 to 14, and an additional 100,666 emergency department visits for teenagers between 15 and 19 years old.


The Monitoring for the Future study is an anonymous longitudinal study evaluating drug use and attitudes regarding drug use among adolescents. In 2020, more than 11,000 adolescents from 112 unique public and private schools competed the survey. Adolescents in eighth grade, tenth grade, and twelfth grade reported rates of use of any illicit drug (including marijuana) in 21.3%, 37.3%, and 46.6% in their lifetime. Patterns of specific drugs are listed in Table 1 . Interestingly, perceptions about the dangers of drug use have largely decreased over the past 20 years for many, but not all drugs. Eighth, tenth, and twelfth graders reported perceived harm from regular marijuana use at rates of 73.3%, 65.9%, and 57.4% in 1999, compared with 53.1%, 39.6%, and 30.2% respectively, in 2019. However, perceived danger of some drugs did not change significantly. For example, in 1999, 78.9%, 86.5%, and 73.6% of eighth graders felt regular use of heroin without a needle was unsafe, respectively, compared with 70.5%, 81.8%, and 75.5% of high school seniors in 2019, respectively.



Table 1

Frequency of drug use among eighth, tenth, and twelfth grades, expressed as a percentage of those responding, according to the monitoring for the future study






































































Eighth Grade Tenth Grade Twelfth Grade
Any illicit drug 21.3 37.3 46.6
Any illicit drug other than marijuana 12.5 13.2 17.5
Cocaine 1.6 1.6 4.1
Ethanol
Any use 25.6 46.4 61.5
Been drunk 10.1 28.8 41.7
MDMA (Ecstasy) 1.7 2.6 3.6
Narcotics
Heroin 0.5 0.3 0.4
Non-heroin Not available Not available 5.3
Amphetamines
Amphetamine 8.9 7.0 7.3
Methamphetamine 1.1 0.8 1.7
Vaping 22.7 38.7 44.3


Discussion


Opiates


Opiates are naturally occurring chemicals that bind to the opiate receptor, and include opium, morphine, and codeine. In contrast, an opioid is any xenobiotic that has activity at the opiate receptors. Such drugs include the semisynthetic opioids, such as oxycodone or hydrocodone, as well as the synthetic opioids, such as fentanyl or methadone. In addition, more recently, several novel synthetic opioids have been created including U47700, MT-45, U-50488, and numerous fentanyl derivatives, such as acetylfentanyl and carfentanil. Prior to 2013, sporadic outbreaks of fentanyl and fentanyl analogs were reported as contaminants in the US heroin supply. Since 2014, however, fentanyl became more widely detected, and the first illicit pills containing fentanyl were reported. Furthermore, fentanyl purposefully contaminating the heroin market has become commonplace, largely driven by illicit production in Mexico and China. In recent years, the United States has encountered an explosion of drug overdose deaths, largely driven by opiates. Between June 2019 and May 2020, more than 81,000 Americans died of drug overdose deaths, which is the highest number documented in any 12-month period of time. This increase is largely driven by synthetic opioids, especially fentanyl.


Opioids continue to be used medically and recreationally. Although their use is often for legitimate analgesic purposes, they are frequently abused also. Approximately one-quarter of patients prescribed opioids for chronic pain misuse them, and approximately 10% of such patients develop an opioid abuse disorder. Opioids are the most common drug of addiction in the United States. Regardless of whether they are used medicinally or recreationally, all mu agonists can produce analgesic effects at lower doses, but at higher doses, can produce toxicity including central nervous system (CNS) depression, miosis, and respiratory depression. Because of a lack of tolerance, children may be particularly susceptible to the effects of opiates, and may exhibit respiratory depression or respiratory arrest following consumption of a therapeutic dose for an adult.


Treatment of opiate overdose is primarily focused on reversing respiratory depression. Pharmacologic treatment in the emergent setting is best accomplished with the administration of naloxone. Naloxone can be administered via numerous routes, including intranasal (with an atomizer), intravenous, intramuscular, or subcutaneously. When administering intravenously, typical dosing recommendations start at 0.01 mg/kg intravenously or intramuscularly, repeated up to 0.1 mg/kg until adequate response is achieved. It is best to start at a low dose and titrate upwards, especially if the individual is thought to have chronic opiate use, to avoid precipitating withdrawal. The naloxone should be titrated until the patient is breathing and arousable. If repeat doses of naloxone are indicated, a continuous infusion may be warranted. Such an infusion is typically started at two thirds of the last reversal dose administered each hour.


Fentanyl and fentanyl derivatives


One of the most wide-spread novel opiates is fentanyl and its numerous derivatives. Fentanyl was first routinely detected in the illicit community in 2014. Since that time, it has increased greatly. Although fentanyl is often prescribed medicinally, it has been abused via injection, smoking, and oral consumption. In addition, illicit fentanyl can be mixed with other drugs, including heroin or cocaine. Fentanyl is approximately 50 times more potent than heroin, and approximately 100 times more potent than morphine. For example, a lethal dose of heroin for an average-sized man is equivalent to about 30 mg, compared with a 3 mg dose of fentanyl. Other fentanyl derivatives include carfentanil (10,000 times as potent as morphine), acetylfentanyl (also known as desmethylfentanyl, 5–15 times as potent as morphine), and ocfentanil (90 times as potent as morphine). Both fentanyl and fentanyl analogs are full agonists at the mu opioid receptor.


Buprenorphine


Buprenorphine is a highly lipophilic, partial agonist at the mu opioid receptor, which is often used in the management of opioid use disorder. Buprenorphine has a half-life of approximately 37 hours, and has a binding affinity to the mu opioid receptor more than 1000 times that of morphine. , Buprenorphine also has activity at other opioid receptors, including the kappa and delta receptors, but at much lower affinity than the mu receptor. Because naloxone is poorly absorbed orally, buprenorphine is often combined with naloxone in a 4:1 ratio of buprenorphine: naloxone to prevent diversion. , If one takes the buprenorphine: naloxone as prescribed, the patient will absorb the buprenorphine and get the desired effects, as the naloxone is not well absorbed. However, if one were to crush and inject the buprenorphine/naloxone, in an effort for surreptitious use, the patient will not experience the desired high from the buprenorphine, as the naloxone will be absorbed and will counter the effects of the buprenorphine. Being a partial agonist, in theory, limits respiratory depression, making it safer in overdose. While buprenorphine can be given intravenously for analgesia, it is typically administered orally or sublingually when treating opioid use disorder. Until recently, buprenorphine prescribing has been very regulated, with providers needing a special “X-waiver.” Recently there has been a desire to remove the X-waiver, in an effort to increase prescribing of medication-assisted therapy.


Unlike methadone, which requires administration in a clinic, buprenorphine can be administered in an individual’s home or other desired setting. , Life-threatening toxicity in adults remains rare. , However, despite the theoretic ceiling effect on respiratory depression, cases of life-threatening toxicity have been described following exploratory ingestion in children. Cases of delayed toxicity have been reported in children, and naloxone administration required after 8 hours was not rare. Respiratory depression should be treated with naloxone as described previously.


Loperamide


Loperamide is a synthetic over-the-counter opioid medication that acts as an agonist at the mu, kappa, and delta opioid receptors. In addition, it inhibits calmodulin and calcium channels, which contribute to its activity as an antidiarrheal agent. Recently, however, loperamide has been misused as an alternative for opioids. , Drug exposure calls to poison control centers have increased substantially in recent years, likely representing an increase in frequency of its abuse.


Despite being quite lipophilic, loperamide is a substrate of P-glycoprotein, which is an efflux pump located in the small intestine and the blood-brain barrier. The activity of P-glycoprotein functionally limits most of the penetration of loperamide to enter the brain. However, in order to overcome the effect on P-glycoprotein and achieve high central concentrations, individuals often use large doses of loperamide and overpower the effects of P-glycoprotein. , Furthermore, some individuals use P- glycoprotein inhibitors, such as piperidine (found in black pepper), omeprazole, or CYP3A4 or CYP2C8 inhibitors (eg, ranitidine or grapefruit juice) to impair loperamide metabolism and thus increase the amount of loperamide crossing the blood-brain barrier.


The primary toxicity of involves cardiac function. Because loperamide is an inhibitor of both voltage-gated sodium channels and potassium channels regulating delayed rectifier currents, intraventricular conduction delay and prolongation of the QT interval may result. , Intraventricular conduction delay (QRS above 100 milliseconds) should be treated with intravenous sodium bicarbonate, and any prolongation of the corrected QT interval (QTc exceeding 500 milliseconds), should be treated with intravenous magnesium. Torsade de pointes should be managed in standard manner, including intravenous magnesium or cardioversion. Naloxone can be used at standard doses for loperamide-induced respiratory depression. Patients who have arrhythmias, and those with new electrocardiographic changes on the electrocardiogram (EKG), which are presumed to be caused by the loperamide should be admitted to a monitored setting and observed until resolution of toxicity.


Miscellaneous opioids


The novel opioid U47700 (Trans-3,4-dichloro N-[2-(dimethylamino)cyclohexyl]-N-methylbenzamide) is a nonfentanyl derived emerging opioid, which can be consumed via multiple routes, including oral, insufflation, or injection. It is a potent agonist at the mu opioid receptor, and is often referred to as colloquially by the street name “pink.” This opioid is approximately 7.5 times as potent as morphine, and is responsible for numerous deaths throughout the United States. , It has been found in most states in the United States, and is classified as a schedule I drug according to the US Drug Enforcement Administration (DEA). The drug U47700 has been reported to be sold as itself, as well as being found as an adulterant in nonpharmaceutical grade tablets sold as “Norco” (acetaminophen-hydrocodone). In addition, it has been reportedly to be sold on the Internet with the label of “research chemical,” presumably in a misguided effort to avoid legal restrictions.


The drug MT-45 is another novel opioid that has become abused recently. Also known as IC-6, it was originally developed by Dainippon Pharmaceutical Company in Japan, but is listed as a schedule I narcotic by the DEA. MT-45 is structurally distinct from most opiates, and will result in a false-negative opioid screen on most urine drug of abuse screens. Furthermore, because the drug has a low miotic potential, toxicity may not be recognized as a classic opioid toxidrome.


Sedative Hypnotics


Benzodiazepines are xenobiotics that bind to the GABA-A receptor, resulting in hyperpolarization and subsequent decrease in neuronal excitation. Since the prototypical benzodiazepine, chlordiazepoxide, was developed in the 1960s, numerous other benzodiazepines or benzodiazepine derivatives have emerged. In recent years, illicit use of alprazolam has increased. Although alprazolam is available with a prescription, its illicit use remains common, especially among adolescents. Recreationally, alprazolam is often referred to as “Xanibars,” “Xanny Bars,” or “planks” owing to their shape. They are typically available in 2 mg tablets, but can be broken and are occasionally available in smaller doses. In addition, etizolam, a thienodiazepine that is chemically similar to benzodiazepines (and binds the same receptor), has emerged. Etizolam is currently illegal in the United States, although it is available with a prescription in other countries, such as Japan and Italy, and can commonly be purchased on the Internet in the United States. The illicit sale often describes etizolam as a “research chemical,” presumably in an attempt to try to circumvent laws. The typical therapeutic dose ranges between 0.5 to 2 mg per day, with a half-life of 5 to 7 hours, although it is metabolized to an active metabolite, alpha- hydroxyetizolam, which has a longer half-life than the parent drug. Because it is metabolized via CYP3A4 and CYP2C19, slow metabolizers of these isoenzymes may be at increased risk for toxicity.


In addition, because etizolam has less effect at the alpha -1 subunit of the GABA-A receptor, etizolam produces less sedation than alprazolam or diazepam, despite being 5 to 10 times more potent as an anxiolytic than diazepam. The primary toxicity observed includes CNS depression, ataxia, dysarthria, and respiratory depression. Numerous deaths have been reported involving etizolam. However, most of these deaths involve mixed drug ingestions, frequently including opioids or pregabalin.


The use of etizolam is expected to result in a negative benzodiazepine test on most routine drug-of-abuse screens. However, comprehensive confirmatory testing is available. Treatment is largely supportive, although flumazenil may be able to reverse the effects of etizolam if clinically indicated. Flumazenil is typically dosed at 0.01 mg/kg intravenously, with a maximal dose of 0.2 mg. The use of flumazenil needs to be weighed against the risk of precipitating a life-threatening withdrawal.


Phenibut ( beta phenyl- gamma aminobutyric acid) is a sedative hypnotic frequently used for its anxiolytic and sedative properties. Although the drug was originally developed in the 1960s in Russia, its use in the United States has increased significantly in recent years. The United States Food and Drug Administration banned its retail sale in 2019, although it is still able to be easily obtained online and is available as either a powder or tablet. Phenibut primarily exerts its activity at the GABA receptors, with more agonism at the GABA-B receptor, compared with the GABA-A receptor. , In addition, it is an agonist at the dopamine receptor and blocks beta phenethylamine (PEA), an endogenous anxiogenic chemical.


The primary toxicity of phenibut involves a combination of sedative and stimulant effects, owing to the mixed actions at the GABA and dopamine receptors. Consequently, sedation or agitation can be encountered, as can tachycardia. Patients who purchase phenibut online may exhibit higher rates of toxicity than those who take it at therapeutic doses during clinical trials. In addition, chronic users of phenibut may develop physical dependence. , Abrupt discontinuation may result in withdrawal symptoms. Such withdrawal symptoms may include hypertension, tachycardia, seizures, and encephalopathy.


Kratom


Kratom, a drug derived from the tropical tree Migragyna speciose , has long been used in Africa and Southeast Asia for management of fatigue, diarrhea, and opiate withdrawal. At low doses (1 to 5 g of plant product), kratom produces mild stimulant effects, in which individuals report increase alertness and an increase in physical energy. , At higher doses (5 to 15 g plant product), the primary manifestation is opiate-like. Kratom contains multiple indole alkaloids, including mitragynine and 7-hydroxymitagynine, which are partial agonists at the mu opioid receptor. In addition, mitragynine is an agonist at the alpha-2 adrenergic receptor, and an antagonist at the serotonin receptors. Its use has increased recently, especially in the United States, among individuals with opiate use disorder. Such individuals have used kratom, anecdotally, to help minimize use of other opiates, which are perceived more dangerous. Kratom can be consumed orally as a pill or capsule, or the leaves may be dried and chewed or used in a tea.


Between 2010 and 2015, calls to US poison control centers regarding kratom increased from 26 in 2010 to 263 in 2015. In 2019, US poison control centers received 1357 calls regarding kratom. At present, while kratom is illegal in several countries, the DEA has listed kratom as a drug or chemical of concern, but has not officially banned its use on a federal level.


Most calls to poison control centers regarding kratom are associated with little to no toxicity. However, there are scattered case reports associating kratom with drug-induced liver injury (DILI), primarily of a cholestatic pattern. , , Nonetheless, a detailed review of kratom-induced liver injury found that not only is the latency time to the development of DILI unclear, the prevalence is not clearly known, and definitive causality has not been established. In addition, kratom may be associated with seizures or death, but these cases are often confounded with ingestions of other drugs. In 2019, The Centers for Disease Control and Prevention (CDC) found that kratom was a cause of death in nearly 100 people over a 17-month period. The CDC analyzed reports of more than 27,000 unintentional drug overdoses; 152 of those people were found to have kratom in their system, and kratom was listed as a cause of death in 91 of them.


Phenethylamines


Amphetamine and methamphetamine were first produced in the 1800s. In the early 1900s, Merck produced 3, 4-methylenedioxy-N-methamphetamine (MDMA), although the drug was never marketed. Years later, MDMA, which has now known more commonly as ecstasy, has been used recreationally. Such drugs are collectively referred to as phenethylamines. In the 1960s, numerous substitutions on the phenethylamine ring were made to create a series of different drugs within this class. More recently, several different phenethylamines have been manufactured, including those with fused rings (eg, 2C-B), and the N-benzylphenethylamine (NBOMe) substances, in which a benzyl group substitutes for a nitrogen atom. Substitutions of the 2, 4, or 5 position on the ring frequently result in increased hallucinogenic properties. In contrast, the phenethylamines that only have a halogen substitution on the ring tend to produce effects similar to amphetamine.


Any of the phenethylamines can cause sympathomimetic toxicity, including tachycardia, hypertension, diaphoresis, and agitation. Fever and rhabdomyolysis can result from increased neuromuscular agitation. In addition, both the 2C class and the NBOMe class of phenethylamines bind numerous serotonin receptors, including the 5HT2 receptor. Such serotoninergic agonism is responsible for the increased hallucinogenic effects of these phenethylamines, compared with other phenethylamines, such as amphetamine. In addition, the serotonin agonism can result in seizures and serotonin syndrome. ,


Treatment is largely supportive, and is focused on ensuring adequate airway protection. Benzodiazepines should be titrated until resolution of neuromuscular excitation. Although benzodiazepines can be given for tachycardia and hypertension, once the patient is sedated, in general, additional benzodiazepines are not necessary if only mild hyperadrenergic vital signs persist. Sedation should ideally be titrated until the patient is lightly arousable. If fever and neuromuscular excitation persist either intermittently or persistently despite sedation, endotracheal intubation and paralysis with a nondepolarizing neuromuscular blocker should be instituted. Urine output should be monitored, and fluid resuscitation should occur. Seizures are best treated with benzodiazepine. Electrolytes, including sodium, as well as creatinine kinase, should be checked, and patients with hyperadrenergic features should also receive an electrocardiogram. Although a urine drug screen can be performed, most of the novel phenethylamines will result in a negative amphetamine screen.


Marijuana


Cannabis is a collective term that refers to any substance derived from the plant Cannabis sativa . Cannabis contains more than 400 unique chemicals, including more than 60 cannabinoids. Although numerous cannabinoids exist, the most relevant cannabinoids include cannabinol, cannabidiol (CBD) and tetrahydrocannabinol (THC). The plant Cannabis sativa commonly grows in tropic areas, but the plants have been able to be cultivated indoors in artificial environments. Marijuana is typically derived from the flowerheads and leaves of the plant, whereas hashish contains the resin, and hash oil contains a concentrated resin extract. These products can be consumed via numerous routes including traditional smoking, vaping, or oral consumption. Although nicotine is the most commonly utilized xenobiotic among adolescents who vape, cannabis has been reported in up to one-third of these adolescents.


In recent years, the concentration of THC in cannabinoids has increased substantially. In the 1960s, a typical dose of marijuana contained 10 mg of THC. In contrast, some joints currently may contain 150 mg of THC, and possibly even up to 300 mg if laced with hashish oil. The use of marijuana remains common among adults and adolescents. Among adolescent trauma patients, nearly half used marijuana. Calls to poison control centers involving illicit drug exposures in children under age 10 years increased significantly between 2006 and 2016. Among this population, marijuana use was common, and increased with time.


There are several cannabinoid receptors, including the CB1 and CB2 receptor. The CB1 receptor is primarily found throughout the nervous system and smooth muscle and the myocardium, whereas the CB2 receptors are primarily in mononuclear cells, smooth muscle, vascular endothelium, and the myocardium. Tetrahydrocannabinol is an agonist at both the CB1 and CB2 receptors. In contrast, CBD has weak affinity for the CB1 receptors and no direct effect on the CB2 receptors. Consequently, CBD does not produce the same degree of intoxication as THC. When smoked, approximately half of the THC is absorbed through the lungs, and quickly reaches systemic circulation. In contrast, following oral consumption, only 25% to 30% of the THC reaches systemic circulation, and peak concentrations may not occur for up to 2 hours. There are a few conditions (Lennox-Gastaut syndrome and Dravet syndrome), for which there are moderate data for the use of marijuana. However, most use is recreational or for less-well established conditions.


Endogenous cannabinoids control neural circuits in the prefrontal cortex and hippocampus. In adolescents, the use of marijuana has been demonstrated to affect these circuits, resulting in impaired neurocognitive functioning. The use of marijuana can result in significant impairment in driving performance, and can last up to 7 hours. This impairment is more common in occasional users than regular users, suggesting a tolerance may develop. In addition, legalization may be associated with an increase in prevalence, particularly among trauma patients.


Following legalization of marijuana, there has been an increase in children with unintentional exposures. The ingestion of edible marijuana products by children may result in significant toxicity, including CNS depression, ataxia, encephalopathy, and respiratory depression.


Summary


In recent years, several novel drugs have emerged. Although many of these classes of drugs are not new, different agents have emerged. Opioids are perhaps one of the most dangerous classes of drugs abused, and most of the designer opioids present with the typical opiate toxidrome. Other drugs, such as phenibut and marijuana, are not new, but have had significantly increase in use recently. This article highlighted these drugs, with a focus on their clinical presentation and treatment.


Clinics care points





  • Use of illicit drugs, including opiates, is common among adolescents.



  • Loperamide, an anti-diarrheal agent is commonly abused among opiate-addicted individuals seeking detox, and is associated with cardiac toxicity, including QT and and QRS prolongation.



  • Emerging opiates include fentanyl and its derivatives, U47700, and MT45.



  • Etizolam is similar to benzodiazepines, and produces central nervous system and respiratory depression, similar to benzodiazepines.



  • Phenibut can produce either sedative effects or stimulant effects.



  • Kratom is derived from a plant, and is commonly used to treat opiate withdrawal. Low doses are associated with mild stimulant effects, although higher doses are associated with opiate-like effects.



Disclosure


The authors have nothing to disclose.




References

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Jul 11, 2021 | Posted by in EMERGENCY MEDICINE | Comments Off on New Designer Drugs

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