Severe Toxicity to the New Psychoactive Substances 3-Hydroxyphencyclidine and N-Ethylhexedrone: an Analytically Confirmed Case Report.

INTRODUCTION: 3-Hydroxyphencyclidine (3-HO-PCP) is a new psychoactive substance (NPS) and a hydroxy derivative of phencyclidine (PCP), and N-ethylhexedrone (Hexen) is a synthetic cathinone. We describe an analytically confirmed case of acute toxicity related to the use of both 3-hydroxyphencyclidine and N-ethylhexedrone. CASE REPORT: A 56-year-old male was brought to the Emergency Department by ambulance with hyperthermia (39.9 °C), sinus tachycardia (150 beats per minute), reduced consciousness, ocular clonus, and vertical nystagmus. He was treated with cooled intravenous (IV) fluids and IV benzodiazepines. Following 1 hour of treatment, his temperature fell to 37.7 °C, he developed rhabdomyolysis (creatine kinase peaked at 5999 IU (normal range < 229 IU)): he was managed with supportive measures and was discharged after 25 hours. The patient admitted regular use of Hexen and recent use of 3-HO-PCP. Analysis of urine and serum identified 3-hydroxyphencyclidine and metabolites, N-ethylhexedrone and metabolites, and clephedrone and metabolites. DISCUSSION: This is a case of analytically confirmed toxicity to 3-HO-PCP and N-ethylhexedrone. The acute toxicity reported in this patient is consistent with the use of 3-HO-PCP, but there were sympathomimetic and serotonergic features potentially consistent with the cathinone N-ethylhexedrone. The description of the acute toxicity of NPS, such as these, is vital to aid medical toxicologists and emergency medicine physicians treating patients who use them.

Intoxication with 3-MeO-PCP alone: A case report and literature review.

RATIONALE: 3-Methoxyphencyclidine (3-MeO-PCP) is a new psychoactive substance derived from phencyclidine. Although it can lead to severe intoxications, the main manifestations and optimal management have not been well characterized. Here, we report 2 cases of 3-MeO-PCP intoxication in the same patient, and summarize the manifestations of this intoxication reported in literature. PATIENT CONCERNS: A 17-year-old male purchased a bag of 3-MeO-PCP on the Internet but took an oral dose (200 mg) that corresponds to the less active isomer 4-MeO-PCP. He developed high blood pressure (158/131 mm Hg), tachycardia (100 bpm), and neurological manifestations (confusion, hypertonia, nystagmus, and then agitation). A maculopapular rash appeared, although this may have been related to the administration of midazolam. Hyperlactatemia (2.6 mmol/L) was the main laboratory finding. Seven days later, he returned to the emergency department after sniffing 50 mg of 3-MeO-PCP. High blood pressure, tachycardia, and neurological manifestations (psychomotor impairment and dysarthria) were present but less severe than after the first intoxication. DIAGNOSIS: In the first intoxication, the blood and urine 3-MeO-PCP concentrations were, respectively, 71.1 ng/mL and 706.9 ng/mL. Conventional toxicity tests were all negative. In the second intoxication, biological samples were not available. INTERVENTIONS: In the first intoxication, treatment consisted of intravenous hydration and midazolam. The patient was transferred to an intensive care unit for monitoring. After the second intoxication, he was monitored for 12 hours. OUTCOMES: The patient's condition improved quickly in both cases. LESSONS: These cases provide additional information on the manifestations of 3-MeO-PCP intoxication. These manifestations are mainly cardiovascular (high blood pressure, tachycardia) and neurological. The fact that second (50 mg) intoxication was less severe than the first (200 mg) is suggestive of a dose-effect relationship for 3-MeO-PCP. The first case also emphasizes the risk of dosing errors caused by the similarity between the names "3-MeO-PCP" and "4-MeO-PCP."

The risk of emerging new psychoactive substances: The first fatal 3-MeO-PCP intoxication in The Netherlands.

Structural analogs of classic drugs, also called designer drugs, are a booming market due to the easy accessibility on the internet and their legal status. One of those 'legal highs' is an analog of phencyclidine, namely 3-methoxyphencyclidine (3-MeO-PCP). Very few fatalities have been reported where 3-MeO-PCP contributed to the death of an individual. We present the first fatal case in the Netherlands and one of the few worldwide. Postmortem biological samples and the presumed abused unknown substance, sold as ant poison, were obtained. 3-MeO-PCP was detected, and the resulting concentration was 152 µg/l in whole blood. The presumed taken unknown sample was identified as 3-MeO-PCP and thus linked to the victim. The cause of death was a combination of 3-MeO-PCP, amphetamine, and alcohol. Improved diagnostic skills are necessary to face these emerging novel psychoactive substances also in light of public health and social risks.

Fatality Following Ingestion of Tetrahydrofuranylfentanyl, U-49900 and Methoxy-Phencyclidine.

Novel psychoactive substances (NPS), and specifically novel opioids, continue to cause adverse events, including death, within drug-using populations. As the number of opioid-related overdoses continues to increase, laboratories have identified the emergence of new fentanyl analogues and other synthetic opioid-related drugs. Tetrahydrofuranylfentanyl (THFF) has been identified in Europe and the United States as an emerging novel opioid, causing death in at least 15 drug-using individuals to date. THFF is structurally similar to furanylfentanyl, a previously characterized novel opioid responsible for numerous adverse events, including death. In this case report, THFF, U-49900 and methoxy-phencyclidine were identified in postmortem blood and urine specimens collected after a suspected overdose. As part of the death investigation, an unknown substance was collected from the scene and analytically confirmed as THFF and U-49900. To further assist laboratories in identifying THFF ingestion, metabolic profiling was conducted using pooled human liver microsomes. Characterized metabolites were then confirmed in the specimens collected during this investigation. In total, seven metabolites were identified for THFF, most notably THF-norfentanyl and hydroxyl-THFF. THF-norfentanyl provides utility as a biomarker because it is a unique metabolite of THFF. 4-Anilino-N-phenethylpiperidine (4-ANPP) and its metabolite, hydroxyl-4-ANPP, were identified in microsomal incubations and collected specimens, but usefulness as biomarkers is limited due to commonality between other fentanyl analogues and co-ingestion as a synthesis precursor. To our knowledge, this case report is the first to document a fatality after ingestion of THFF and U-49900 in the United States.

Two Fatal Intoxications Involving 3-Methoxyphencyclidine.

3- and 4-methoxyphencyclidine (3-MeO-PCP, 4-MeO-PCP), structural analogs of phencyclidine (PCP), were among the first legal PCP alternatives to show up on the novel psychoactive substances (NPS) market in Europe in the 2000s. Their structural similarities to PCP and ketamine likely contribute to their demonstrated dissociative anesthetic effects. Limited information exists in the literature about toxic and lethal concentrations of these drugs in biological samples. This case report presents the first two death cases in Washington State in which 3-MeO-PCP was identified. Alkaline drug screen analysis by gas chromatography-mass spectrometry (GC-MS) revealed a peak with a retention time similar to PCP and base peak of m/z 230. Certified reference materials for 3-and 4-MeO-PCP were obtained and the isomers were able to be distinguished based on different retention times and mass spectra. A quantitative GC-MS method was developed and validated for casework, utilizing a dynamic range of 10-1,000 ng/mL and a limit of detection of 1 ng/mL. Postmortem (peripheral/central) blood samples were analyzed using this method and the resulting concentrations were 0.63 and 3.2 mg/L of 3-MeO-PCP. Methamphetamine (0.11 mg/L) was additionally detected in the blood of one of the decedents; while the second decedent was additionally positive for ethanol (0.047 g/100 mL), bupropion (1.8 mg/L), delorazepam, paroxetine and mitragynine. The results presented in this case report are higher than previously reported concentrations in fatal cases, but the presence of polysubstance abuse is consistent with previously reported NPS intoxications. Both of these individuals were in drug rehabilitation facilities prior to their deaths; however, users continue to be drawn to 3-MeO-PCP due to its dissociative effects and its accessibility on the internet.

A non-fatal intoxication and seven deaths involving the dissociative drug 3-MeO-PCP.

INTRODUCTION: 3-methoxyphencyclidine (3-MeO-PCP) appeared on the illicit drug market in 2011 and is an analogue of phencyclidine, which exhibits anesthetic, analgesic and hallucinogenic properties. In this paper, we report data from a non-fatal intoxication and seven deaths involving 3-MeO-PCP in Sweden during the period March 2014 until June 2016. CASE DESCRIPTIONS: The non-fatal intoxication case, a 19-year-old male with drug problems and a medical history of depression, was found awake but tachycardic, hypertensive, tachypnoeic and catatonic at home. After being hospitalized, his condition worsened as he developed a fever and lactic acidosis concomitant with psychomotor agitation and hallucinations. After 22h of intensive care, the patient had made a complete recovery. During his hospitalization, a total of four blood samples were collected at different time points. The seven autopsy cases, six males and one female, were all in their twenties to thirties with psychiatric problems and/or an ongoing drug abuse. METHODS: 3-MeO-PCP was identified with liquid chromatography (LC)/time-of-flight technology and quantified using LC-tandem mass spectrometry. RESULTS: In the clinical case, the concentration of 3-MeO-PCP was 0.14µg/g at admission, 0.08µg/g 2.5h after admission, 0.06µg/g 5h after admission and 0.04µg/g 17h after admission. The half-life of 3-MeO-PCP was estimated to 11h. In the autopsy cases, femoral blood concentrations ranged from 0.05µg/g to 0.38µg/g. 3-MeO-PCP was the sole finding in the case with the highest concentration and the cause of death was established as intoxication with 3-MeO-PCP. In the remaining six autopsy cases, other medications and drugs of abuse were present as well. CONCLUSION: Despite being scheduled in January 2015, 3-MeO-PCP continues to be abused in Sweden. Exposure to 3-MeO-PCP may cause severe adverse events and even death, especially if the user does not receive life-supporting treatment.

Fatal Intoxication Involving 3-MeO-PCP: A Case Report and Validated Method.

We present in this case report a validated method for accurate quantitative analysis of 3-methoxy phencyclidine (3-MeO-PCP) to determine postmortem blood concentrations of this PCP analog. A 29-year-old male with a history of illicit drug use was found unresponsive in his bed with a bag of white powder next to him. Resuscitation efforts were unsuccessful and the individual was pronounced dead 9 minutes after arrival to the hospital. Initial ELISA screening suggested the presence of PCP in the decedent's blood. However, confirmatory testing revealed no detectable PCP. Instead, a large peak corresponding to a m/z 274.218 species with retention time similar to PCP was present on a LC-TOF-MS drug screen, suggesting a possible PCP analog. This mass corresponds specifically to a methoxy-PCP analog, several of which are available for purchase online. Standards for 3-MeO-PCP and 4-MeO-PCP were obtained and injected on the same instrument. Although the 3- and 4-MeO-PCP analogs have identical masses and retention times, they are still distinguishable through their mass spectra. The peak from the decedent's sample matched both the mass spectrum and the retention time of 3-MeO-PCP. A quantitative LC-MS-MS method was subsequently developed and validated for casework. Analysis using this method revealed a concentration of 139 ± 41 µg/L 3-MeO-PCP in the decedent's blood. Diphenhydramine (4.1 ± 0.7 mg/L), marijuana metabolite (presumptive positive, confirmation not performed) and a small amount of amphetamine (<0.10 mg/L) were also found in the decedent's blood. The cause of death was determined to be combined 3-MeO-PCP, diphenhydramine and amphetamine toxicity. The manner of death was certified as an accident.

A Fatality Related to Two Novel Hallucinogenic Compounds: 4-Methoxyphencyclidine and 4-Hydroxy-N-methyl-N-ethyltryptamine.

In this case report, we present an evaluation of postmortem concentration distribution of the hallucinogenic compound 4-methoxyphencyclidine (4-MeO-PCP) in a fatality principally attributed to this drug. Another hallucinogen, 4-hydroxy-N-methyl-N-ethyltryptamine was also detected, but was not quantitated. A man--who had a history of recent 'strange' behavior--was found deceased, on his bed, in his locked room. Toxicology testing, which initially screened positive for phencyclidine (PCP) by ELISA, subsequently detected and confirmed the two hallucinogens by gas chromatography-mass spectrometry. 4-MeO-PCP concentrations were then quantified by a specific secondary testing technique. The peripheral blood concentration was 8.2 mg/L compared with the central blood concentration of 14 mg/L. The liver concentration was 120 mg/kg, the vitreous was 5.1 mg/L, the urine was 140 mg/L and the gastric contents contained 280 mg. PCP was not detected, but therapeutic concentrations of venlafaxine, olanzapine, lorazepam and hydroxyzine were confirmed. The cause of death was certified due to acute mixed drug intoxication, and the manner of death was certified as accident.

Phencyclidine analog use in Sweden--intoxication cases involving 3-MeO-PCP and 4-MeO-PCP from the STRIDA project.

BACKGROUND: 3-Methoxy-phencyclidine (3-MeO-PCP) and 4-methoxy-phencyclidine (4-MeO-PCP) are analogs of and drug substitutes for the dissociative substance PCP ("Angel dust"), a recreational drug that was most popular in the 1970s. In Sweden, use of methoxylated PCP analogs was noted starting in mid-2013, according to statistics from the Poisons Information Centre. The objective of this case series was to present clinical and bioanalytical data from analytically confirmed non-fatal intoxications associated with 3-MeO-PCP and/or 4-MeO-PCP within the STRIDA project. STUDY DESIGN: Observational case series of consecutive patients with self-reported or suspected exposure to new psychoactive substances (NPS) and who require hospital care. PATIENTS AND METHODS: Blood and urine samples were collected from intoxicated patients presenting at emergency departments (ED) or intensive care units (ICU) all over Sweden. NPS analysis was performed by multicomponent liquid chromatographic-tandem mass spectrometric (LC-MS/MS) and LC-high-resolution MS (LC-HRMS) methods. Data on clinical features were collected during Poisons Information Centre consultations and retrieved from medical records. RESULTS: The Poisons Information Centre registered its first call related to methoxylated PCP analogs in July 2013, while analytically confirmed cases first appeared in October 2013. From July 2013 to March 2015, 1243 cases of suspected NPS intoxication originating from ED or ICU were enrolled in the STRIDA project. During the 21-month period, 56 (4.5%) patients tested positive for 3-MeO-PCP and 11 (0.9%) for 4-MeO-PCP; 8 of these cases involved both substances. The 59 patients were aged 14-55 (median: 26) years and 51 (86%) were men. Co-exposure to other NPSs and/or classical drugs of abuse was common with only 7 cases (12%) indicated to be 3-MeO-PCP single-substance intoxications; prominent clinical signs seen in the latter cases were hypertension (systolic blood pressure ≥ 140 mmHg; 7 cases), tachycardia (≥ 100/min; 5 cases), and altered mental status (4 cases) including confusion, disorientation, dissociation, and/or hallucinations. Mixed-drug users displayed not only the same clinical features, but also more sympathomimetic effects including agitation (38%) and dilated pupils (33%). Patients testing positive for 3-/4-MeO-PCP were typically under medical care for 1-2 days (85%), and 37% of all cases were graded as severe intoxications (Poisoning Severity Score 3). Besides standard supportive therapy, 49% of the patients were treated with benzodiazepines and/or propofol. CONCLUSION: Laboratory analysis constitutes an important basis for the assessment of NPS hazard and availability. The adverse effects noted in cases of acute intoxications involving 3- and/or 4-MeO-PCP resembled those of other dissociatives such as PCP, ketamine, and methoxetamine. However, similar to intoxications involving other NPS, poly-substance use was found to be common.

Phencyclidine Intoxication Case Series Study.

BACKGROUND: Phencyclidine (PCP) is a synthetic compound derived from piperidine and used as an anesthetic and hallucinogenic. Little has been recently published regarding the clinical presentation of PCP intoxication. PCP use as a recreational drug is resurging. OBJECTIVE: Our objective was to describe clinical findings in patients presenting to the emergency department (ED) under the influence of PCP. METHODS: This was a case series study conducted at a tertiary care center with an annual census of 100,000 patients/year. Emergency physicians, residents, physician assistants, and research assistants identified patients with possible PCP intoxication. Self-reported PCP use, report by bystanders or Emergency Medical Services (EMS) staff, was used in this process. A structured data collection form was completed, documenting both clinical and behavioral events observed by the treating team during the ED visit. RESULTS: We collected data on 219 patients; 184 were analyzed; two patients were excluded secondary to incomplete data. The mean age of patients was 32.5 years (±7 years) with 65.2 % being males. PCP use was self-reported by 60.3 % of patients. Of the 184 patients, 153 (83.1 %) received a urine drug screen (UDS); 152 (98.7 %) were positive for PCP. On arrival, 78.3 % of patients were awake and alert, and 51.6 % were oriented to self, time/date, and place. Mean physiological parameters were the following: heart rate 101.1 bpm (±24.3), RR 18.9 bpm (±3.4), BP 146.3 (±19.4)/86.3 (±14.0) mmHg, 36.9° C (±0.5), and pulse oximetry 98.2 % (±1.9). Clinical findings were the following: retrograde amnesia in 46 (25 %), horizontal nystagmus in 118 (64.1 %), vertical nystagmus in 90 (48.9 %), hypertension in 87 (47.3 %), and agitation in 71 (38.6 %). Concomitant use of at least one other substance was reported by 99 (53.8 %) patients. The mean length of stay in the ED for all subjects was 261.1 (±172.8) minutes. Final disposition for 152 (82.6 %) patients was to home. Of the 184 patients, 14 (7.6 %) required admission; 12 were referred to Crisis Response Center. CONCLUSION: Patients with PCP intoxication tended to be young males. The prevalent clinical signs and symptoms were the following: retrograde amnesia, nystagmus, hypertension, and psychomotor agitation. Co-use of other substances was the norm. Most patients presenting to the ED with PCP intoxication do well and can be discharged home after a period of observation.

The evolving high: new designer drugs of abuse.

Over the past decade, emerging drugs of abuse and synthetic derivatives of more traditional agents have flooded the market. While Europe was the first to experience a surge in the use of drugs such as synthetic cathinones and cannabinoids, poison centers throughout the United States have seen a dramatic rise in calls related to these new designer drugs of abuse. In the majority of cases, care is largely supportive but significant medical and traumatic complications may occur. Providers must be aware of the ever-changing trends in abuse, so that they may optimally care for poisoned patients.

Out with the old, in with the new? Case reports of the clinical features and acute management of two novel designer drugs.

Methoxydine (4-MeO-PCP) and Methoxetamine (3-MeO-2-Oxo-PCE) are both commercially produced designer drugs with structural and biochemical similarities to phencyclidine (PCP). Although phencyclidine toxicity is well documented, its recreational use in present times is rare. With the advent of new designer drugs being available widely through internet sites, Acute Physicians should be aware of the clinical features and management of these potential toxins. We present a case of methoxydine ingestion (which to our knowledge has not been previously documented in any medical journals) and a case of methoxetamine ingestion, and discuss their history, contrasting clinical features and acute management.

Use of haloperidol in PCP-intoxicated individuals.

CONTEXT: Emergency medical workers often experience violence while performing their job functions. Phencyclidine (PCP)-intoxicated patients are often violent and difficult to control physically. A chemical restraint is frequently needed to assist in protecting both patients and staff from agitated persons. OBJECTIVE: This study evaluated haloperidol as a chemical restraint in PCP-intoxicated patients. METHODS: This is a retrospective case series of all PCP-positive patients who received haloperidol for behavioral control from April 2008 to April 2011 at a single large (944 bed), urban, tertiary-care hospital. All patients receiving haloperidol and having a toxicology screen positive for PCP were identified using an electronic medical record. Identified cases were then manually reviewed by investigators for adverse events. RESULTS: Subjects included 59 adult patients who were acutely agitated requiring chemical restraint or sedation with haloperidol, and who tested positive for PCP. There were 20 females and 39 males, ranging in age from 19 to 54 years. Patients received haloperidol via the PO, IM, or IV routes in doses ranging from 1 to 10 mg. There were two adverse events (mild hypoxia and mild hypotension) found during chart review; neither were serious nor required change in patient disposition. CONCLUSIONS: In this study, haloperidol does not seem to cause harm when used in the management of PCP-intoxicated patients. Caution must always be exercised in the use of chemical restraint; further prospective study is warranted.

[Phencyclidine--angel dust]. / Fensyklidin--englestøv.

BACKGROUND: For the first time in ten years, phencyclidine (PCP) has been confiscated in Norway. Physicians should be aware of this substance when treating intoxications. METHODS: Relevant literature was identified by search in Medline. This review presents the pharmacological properties and effects of phencyclidine as well as symptoms and treatment of phencyclidine intoxication. RESULTS AND INTERPRETATION: Phencyclidine exhibits hallucinogenic, depressant and stimulant properties. Phencyclidine interacts as an antagonist to the N-methyl-D-aspartate (NMDA) receptor in the central nervous system. Severe NMDA receptor hypofunction can elicit clinical symptoms similar to a schizophrenic episode.

[An expert study of acute poisoning by phencyclidine derivatives]. / Ekspertnoe issledovanie ostrogo otravleniya proizvodnymi fentsiklidina.

Described are the results of a complex study of different objects and beverages for the content of synthetic drugs in them, i.e. phencyclidine and tenocyclidine, by using the methods of planar and gas chromatography, UV-spectrometry and mass spectrometry/gas chromatography.

Common drugs of abuse--Part II.

Drug abuse affects a significant number of individuals of all ages. Health care practitioners must be knowledgeable about both the physiological effects of such drugs and the impact of drug-seeking behavior on their patients.