Neurological Correlates of Brain Reward Circuitry Linked to Opioid Use Disorder (OUD): Do Homo Sapiens Acquire or Have a Reward Deficiency Syndrome?

Overview

Journal J Neurol Sci

Publisher Elsevier

Specialty Neurology

Date 2020 Sep 21

PMID 32957037

Citations 24

Authors

Mark S Gold

David Baron

Abdalla Bowirrat

Kenneth Blum

Affiliations

Soon will be listed here.

Abstract

The extant literature confirms that an array of polymorphic genes related to- neurotransmitters and second messengers govern the net release of dopamine in the Nucleus Accumbens (NAc) in the mesolimbic region of the brain. They are linked predominantly to motivation, anti-stress, incentive salience (wanting), and wellbeing. Notably, in 2000 the Nobel Prize was awarded to Carlsson, Greengard, and Kandel for their work on the molecular and cellular function of dopaminergic activity at neurons. This historical psychopharmacological work involved neurotransmission of serotonin, endorphins, glutamate, and dopamine, and the seminal work of Blum, Gold, Volkow, Nestler, and others related to neurotransmitter function and related behaviors. Currently, Americans are facing their second and worst opioid epidemic, prescribed opioids, and easy access drive this epidemic of overdoses, and opioid use disorders (OUDs). Presently the clinical consensus is to treat OUD, as if it were an opioid deficiency syndrome, with long-term to life-long opioid substitution therapy. Opioid agonist administration is seen as necessary to replace missing opioids, treat OUD, and prevent overdoses, like insulin is used to treat diabetes. Treatment of OUD and addiction, in general, is similar to the endocrinopathy conceptualization in that it views opioid agonist MATs as an essential core to therapy. Is this approach logical? Other than as harm reduction, is using opioids to treat OUD therapeutic or harmful in the long term? This historical Trieste provides a molecular framework to understand the current underpinnings of endorphinergic/dopaminergic mechanisms related to opioid deficiency syndrome and generalized reward processing depletion. WC 249.

Citing Articles

Solving the Global Opioid Crisis: Incorporating Genetic Addiction Risk Assessment with Personalized Dopaminergic Homeostatic Therapy and Awareness Integration Therapy.

Zeine F, Jafari N, Baron D, Bowirrat A, Pinhasov A, Norling B J Addict Psychiatry. 2024; 8(1):50-95.

PMID: 39635461 PMC: 11615735.

Is There a Natural, Non-addictive, and Non-anti-reward, Safe, Gene-based Solution to Treat Reward Deficiency Syndrome? KB220 Variants vs GLP-1 Analogs.

Modestino E, Bowirrat A, Baron D, Thanos P, Hanna C, Bagchi D J Addict Psychiatry. 2024; 8(1):34-49.

PMID: 39618491 PMC: 11606528.

Addressing cortex dysregulation in youth through brain health check coaching and prophylactic brain development.

Blum K, Braverman E, Gold M, Dennen C, Baron D, Thanos P INNOSC Theranostics Pharmacol Sci. 2024; 7(2):1472.

PMID: 38766548 PMC: 11100020. DOI: 10.36922/itps.1472.

Opioid use disorder: current trends and potential treatments.

Lee Y, Gold M, Blum K, Thanos P, Hanna C, Fuehrlein B Front Public Health. 2024; 11:1274719.

PMID: 38332941 PMC: 10850316. DOI: 10.3389/fpubh.2023.1274719.

Chronic oral methylphenidate plus fluoxetine treatment in adolescent rats increases cocaine self-administration.

Senior D, McCarthy M, Ahmed R, Klein S, Lee W, Hadjiargyrou M Addict Neurosci. 2024; 8.

PMID: 38274857 PMC: 10809890. DOI: 10.1016/j.addicn.2023.100127.

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