Polysubstance use
Polysubstance use | |
---|---|
Caffeinated alcoholic beverages, such as these caffè corretto cocktails based on espresso and liquor are widespread and legal. | |
Specialty | Psychiatry[1] |
Complications | Combined drug intoxication, drug overdose[1] |
Polysubstance use or poly drug use refers to the use of combined psychoactive substances. Polysubstance use may be used for entheogenic, recreational, or off-label indications, with both legal and illegal substances. In many cases one drug is used as a base or primary drug, with additional drugs to leaven or compensate for the side effects, or tolerance, of the primary drug and make the experience more enjoyable with drug synergy effects, or to supplement for primary drug when supply is low.[2]
Common combinations
The most common psychoactive substances are alcohol, caffeine, cannabis, and nicotine (tobacco, and nicotine replacement therapy). Some other common polysubstance combinations are:
- Alcohol combined with cannabis — known as cross-fading and may easily cause spins in people who are drunk and smoke potent cannabis.
- Ayahuasca: DMT combined with MAOIs.
- Caffeinated alcoholic drinks
Combination drugs
Some common combinations that are used recreationally include
- Dimenhydrinate (8-chlorotheophylline/diphenhydramine) — used to treat motion sickness and nausea
- Adderall (dextroamphetamine sulfate/amphetamine sulfate/dextroamphetamine saccharate/amphetamine aspartate monohydrate) — treatment of attention deficit hyperactivity disorder (ADHD) and narcolepsy.
Drug synergy
Ayahuasca
Some substances, such as the powerful psychedelic drug DMT, are not psychoactive when ingested alone. Ayahuasca, or pharmahuasca, notably consists of DMT combined with MAOIs that interfere with the action of the MAO enzyme and stop the breakdown in the stomach of chemical compounds, which make the DMT psychoactive. The MAOIs are also psychoactive and thus produce a polysubstance effect with the DMT. However, the MAOIs may cause combined drug intoxication with the majority of all psychoactive substances and are therefore usually only combined with DMT.
TOMSO
TOMSO is a lesser-known psychedelic drug and a substituted amphetamine. TOMSO is inactive on its own; it is activated with the consumption of alcohol.
Proprietary blends
Pre-workout
Some ingredients such as caffeine, creatine and β-alanine are found in nearly all pre-workout blends, but each branded product is a "proprietary blend" with an average of 18 different ingredients, the exact composition and proportions of which can vary widely between different products.[3][4] Additionally legal psychoactive substances occasionally used in these proprietary blends that are typically legal include 5-HTP, tyrosine, and yohimbine. Although these products are not banned, the Food and Drug Administration (FDA) warns consumers to be cautious when consuming pre-workout.[5]
Combined drug intoxication
Combined drug intoxication use often carries with it more risk than use of a single drug, due to an increase in side effects, and drug synergy. The potentiating effect of one drug on another is sometimes considerable and here the licit drugs and medicines – such as alcohol, nicotine and antidepressants – have to be considered in conjunction with the controlled psychoactive substances. The risk level will depend on the dosage level of both substances. If the drugs taken are illegal, they have a chance of being mixed (also known as "cutting") with other substances which dealers are reported to do to increase the perceived quantity when selling to others to increase their returns. This is particularly common with powdered drugs such as cocaine or MDMA which can be mixed with relative ease by adding another white powdery substance to the drug. This cumulative effect can lead to further unintended harm to health dependent on what is being covertly added.
Dangerous combinations of drug classes
Concerns exist about a number of pharmacological pairings, especially:
- Antidepressants
- Depressants combined with depressant. For example:
- Benzodiazepines can cause death when mixed with other CNS depressants such as opioids, alcohol, or barbiturates.[6][7][8]
- GHB combined with alcohol can lead to a long-lasting coma-like state (‘G-sleep’) or even death, because it is hard to dose GHB.
- Depressants combined with stimulants. For example:
Scheduling
Within the general concept of multiple drug use, several specific meanings of the term must be considered. At one extreme is planned use, where the effects of more than one drug are taken for a desired effect. Another type is when other drugs are used to counteract the negative side effects of a different drug (e.g. depressants are used to counteract anxiety and restlessness from taking stimulants). On the other hand, the use of several substances in an intensive and chaotic way, simultaneously or consecutively, in many cases each drug substituting for another according to availability.[10]
Research
The phenomenon is the subject of established academic literature.[11]
A study among treatment admissions found that it is more common for younger people to report polysubstance use.[12]
See also
- Alcohol licensing laws of the United Kingdom
- Ban on caffeinated alcoholic drinks in the United States
- Counterfeit drug
- Designer drug
- Drug checking
- Drug overdose
- Flavored tobacco
- Gateway drug theory
- Harm reduction
- Illegal drug trade
- Mickey Finn (drugs)
- Over the counter drug
- Pharmacology
- Polysubstance dependence
- Psychopharmacology
- Psychotomimetism
- Purple drank
- Recreational drug use
- Responsible drug use
References
- ^ a b Anthony, James; Barondess, David A.; Radovanovic, Mirjana; Lopez-Quintero, Catalina (2017). "Part 1: Psychiatric Comorbidity – Polydrug Use: Research Topics and Issues". In Sher, Kenneth J. (ed.). The Oxford Handbook of Substance Use and Substance Use Disorders: Volume 2. Oxford Library of Psychology. Oxford and New York: Oxford University Press. pp. 27–59. doi:10.1093/oxfordhb/9780199381708.013.006. ISBN 9780199381708. LCCN 2016020729.
- ^ "Polydrug use | www.emcdda.europa.eu". www.emcdda.europa.eu.
- ^ Harty PS, Zabriskie HA, Erickson JL, Molling PE, Kerksick CM, Jagim AR (August 2018). "Multi-ingredient pre-workout supplements, safety implications, and performance outcomes: a brief review". Journal of the International Society of Sports Nutrition. 15 (1): 41. doi:10.1186/s12970-018-0247-6. PMC 6083567. PMID 30089501.
- ^ Jagim AR, Harty PS, Camic CL (January 2019). "Common Ingredient Profiles of Multi-Ingredient Pre-Workout Supplements". Nutrients. 11 (2): 254. doi:10.3390/nu11020254. PMC 6413194. PMID 30678328.
- ^ Office of the Commissioner (2019-02-09). "FDA 101: Dietary Supplements". FDA.
- ^ Serfaty M, Masterton G (1993). "Fatal poisonings attributed to benzodiazepines in Britain during the 1980s". Br J Psychiatry. 163 (3): 386–93. doi:10.1192/bjp.163.3.386. PMID 8104653. S2CID 46001278.
- ^ Buckley NA, Dawson AH, Whyte IM, O'Connell DL (1995). "[Relative toxicity of benzodiazepines in overdose.]". BMJ. 310 (6974): 219–21. doi:10.1136/bmj.310.6974.219. PMC 2548618. PMID 7866122.
- ^ Drummer OH; Ranson DL (December 1996). "Sudden death and benzodiazepines". Am J Forensic Med Pathol. 17 (4): 336–42. doi:10.1097/00000433-199612000-00012. PMID 8947361.
- ^ Pergolizzi, Joseph; Breve, Frank; Magnusson, Peter; LeQuang, Jo Ann K.; Varrassi, Giustino (2022-02-22). "Cocaethylene: When Cocaine and Alcohol Are Taken Together". Cureus. 14 (2): e22498. doi:10.7759/cureus.22498. ISSN 2168-8184. PMC 8956485. PMID 35345678.
- ^ a b "EMCDDA Annual Report 2006 ch. 8".
- ^ Scholey AB, Parrott AC, Buchanan T, Heffernan TM, Ling J, Rodgers J (June 2004). "Increased intensity of Ecstasy and polydrug usage in the more experienced recreational Ecstasy/MDMA users: a WWW study" (PDF). Addict Behav. 29 (4): 743–52. doi:10.1016/j.addbeh.2004.02.022. PMID 15135556.
- ^ "Polydrug Use Among Treatment Admissions: 1998." OAS Home: Alcohol, Tobacco & Drug Abuse and Mental Health Data from SAMHSA, Office of Applied Studies. Web. 29 Sept. 2011. [1]
Bibliography
- Martin, Christopher S.; Chung, Tammy; Langenbucher, James W. (2017). "Part 1: Defining and Characterizing the Nature and Extent of Substance Use Disorders – Historical and Cultural Perspectives on Substance Use and Substance Use Disorders". In Sher, Kenneth J. (ed.). The Oxford Handbook of Substance Use and Substance Use Disorders: Volume 1. Oxford Library of Psychology. Oxford and New York: Oxford University Press. pp. 27–59. doi:10.1093/oxfordhb/9780199381678.013.001. ISBN 9780199381678. LCCN 2016020729.
- Anthony, James; Barondess, David A.; Radovanovic, Mirjana; Lopez-Quintero, Catalina (2017). "Part 1: Psychiatric Comorbidity – Polydrug Use: Research Topics and Issues". In Sher, Kenneth J. (ed.). The Oxford Handbook of Substance Use and Substance Use Disorders: Volume 2. Oxford Library of Psychology. Oxford and New York: Oxford University Press. pp. 27–59. doi:10.1093/oxfordhb/9780199381708.013.006. ISBN 9780199381708. LCCN 2016020729.
- Hernández-Serrano, Olga; Gras, Maria E.; Font-Mayolas, Sílvia; Sullman, Mark J. M. (2016). "Part VI: Dual and Polydrug Abuse – Chapter 83: Types of Polydrug Usage". In Preedy, Victor R. (ed.). Neuropathology of Drug Addictions and Substance Misuse, Volume 3: General Processes and Mechanisms, Prescription Medications, Caffeine and Areca, Polydrug Misuse, Emerging Addictions and Non-Drug Addictions. Cambridge, Massachusetts: Academic Press, imprint of Elsevier. pp. 839–849. doi:10.1016/B978-0-12-800634-4.00083-4. ISBN 978-0-12-800634-4.
External links
- "The Science of Drug Use: A Resource for the Justice Sector". www.drugabuse.gov. North Bethesda, Maryland: National Institute on Drug Abuse. 26 May 2020. Retrieved 23 December 2021.
- School-Based Drug Abuse Prevention: Promising and Successful Programs (PDF). Ottawa, Ontario: Public Safety Canada. 31 January 2018. ISBN 978-1-100-12181-9. Archived (PDF) from the original on 19 May 2021. Retrieved 23 December 2021.
{{cite book}}
:|website=
ignored (help) - Sacco LN, Finklea K (3 May 2016). "Synthetic Drugs: Overview and Issues for Congress" (PDF). Washington, D.C.: Congressional Research Service. Archived (PDF) from the original on 8 December 2021. Retrieved 23 December 2021.