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Introduction to Addiction

Introduction to Addiction. Sean Koon, MD California Academy of Family Physicians And California Society of Addiction Medicine April 14, 2005. Goals. Explain the medical model of addiction Explain what makes some chemicals addictive (and others not) ?

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Introduction to Addiction

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  1. Introduction to Addiction Sean Koon, MD California Academy of Family Physicians And California Society of Addiction Medicine April 14, 2005

  2. Goals • Explain the medical model of addiction • Explain what makes some chemicals addictive (and others not) ? • Explain what makes some people become addicted (and others not) ? • What keeps them from stopping when “enough is enough”? • When they do stop, why do some people relapse “after they’ve been doing so well” ?

  3. Medical Model of Addiction • Expression of addiction (phenotype) is based on a genetic predisposition (genotype) that is influenced by environmental factors • Well-studied biological mechanism • Treatment compliance is similar to other chronic medical conditions (diabetes, hypertension, asthma) • Follows a relapsing and remitting course • Most effectively managed as a chronic disease • Both medical and behavioral interventions are used

  4. Similarities withOther Chronic Diseases (Type II Diabetes, HTN, Asthma) • Genetic impact is similar • The contributions of environment and personal choice are comparable • Medication adherence and relapse rates are similar. • Long term maintenance treatments proven most effective.(McLellan, JAMA 2000)

  5. Genetics: Pedigree • Monozygotic twins have higher concordance of addiction than dizygotic twins (the more genes you share, the more similar your addiction propensity) • Men whose parents were alcoholics have an increased likelihood of alcoholism even when adopted and raised by non-alcoholic parents from birth

  6. Genetics: The Genome • The minor (A1) allele of the TaqIA D2 dopamine receptor gene has been linked to severe alcoholism and polysubstance dependence • A single nucleotide polymorphism in the gene encoding fatty acid amide hydrolase has been associated with increased recreational and problem use of drugs or alcohol

  7. Genetics: The Genome • A Leu7Pro polymorphism of the neuropeptide Y gene has been correlated with increased alcohol consumption • Single nucleotide polymorphisms of the gene encoding the mu-opioid receptor correlates with an increased likelihood of heroin abuse • Genes that affect metabolism of drugs/alcohol/nicotine affect propensity for dependence

  8. Pathophysiology • Why and how do people get addicted to drugs ? • Why are some chemicals addictive and others not ?

  9. Pathophysiology • Within our bodies we have very precise mechanisms for maintaining homeostasis (e.g. pituitary hormones, thyroid, insulin/glucagon, etc.) • These mechanisms titrate necessary chemicals within the body to obtain this balance

  10. Pathophysiology • If something is needed from outside of the body, systems of craving and satiation are necessary • The urgency of the need is promoted by the intensity of the craving At this moment are you more thirsty or hungry (or neither?)

  11. How it Works: The Reward Pathway • Many parts of the brain work together to maintain this homeostasis • The “mesolimbic” pathway uses reward (often a sense of well-being or pleasure) to promote life sustaining and life fulfilling behaviors (eating, drinking, sex, nurturing, etc.) • Addiction occurs by dysregulation of this natural function

  12. MESOLIMBIC REWARD SYSTEM

  13. So, if we all have this reward pathway, why don’t all substance users develop addiction ? • Why are some chemicals addictive and others not ?

  14. Drugs of addiction are identifiable by their ability to stimulate dopamine secretion in this pathway Addicts are identifiable by their unique response to addictive chemicals by hypersecretion of dopamine in this brain pathway The Reward Pathway

  15. Dopamine release in the Nucleus Accumbens

  16. Cocaine Preventing Dopamine Re-Uptake in the Nucleus Accumbens

  17. Opiate Action on the Nucleus Accumbens Promotes Dopamine Release

  18. Cannabis Action on the Nucleus Accumbens Promotes Dopamine Release

  19. How and when does a person “get addicted” ?

  20. The “Switch” • “continued repetition of voluntary drug taking begins to change into involuntary drug taking, ...at which (point) the behavior is driven by compulsion to use the drug.” (Leshner, 2000) • The progression from social drinking to abuse to dependence ranges from 3-15 years in duration in susceptible persons • Average age of the “switch” is mid- thirties, but can vary

  21. The “Switch” • Frequent drug use in a person with biological predisposition alters the hedonic set-point and creates a starvation or craving response. • The drug loses its pleasurable effects but becomes pathologically “wanted” • Cravings may continue or even increase despite satiation or drug use

  22. Chronic Use: Hedonic Homeostatic Dysregulation Hedonic Set Point is Altered with Chronic Drug Use “Feel good” Normal Affective Response to Drugs/Alcohol Initially use to get high… Now use to “get normal” Hedonic Scale “Cravings” “Feel bad” Altered Dysregulated Set-Point following chronic drug use (Koob, Science, 1997) Slide from Pating,D.

  23. So, why don’t they just stop when they start to suffer consequences ?

  24. Hedonic Homeostatic Dysregulation • The reward pathway is intimately connected, via neural pathways, to our judgment and emotional areas (via projections to the prefrontal cortex and limbic system respectively) • Judgment can be aligned or distorted to favor the restoration of homeostasis • The brain begins to treat the chemical as necessary for homeostasis and thus survival

  25. Hedonic Homeostatic Dysregulation The patients are logically aware they do not “need” the drug, but survival drives tend to take precedence over logic and judgment Continued substance use slowly takes “survival precedence” over life goals, self esteem, relationships, stability, safety, and health

  26. So how is it that drugs with completely opposite effects can be equally addictive? Each Substance of Abuse Has Both Primary and Secondary Actions

  27. Action Sites of Marijuana

  28. Action Sites of Cocaine

  29. Action Sites of Opiates

  30. Substance Abuse and Moods • Addictive substances can mimic mood disorders directly and indirectly • All addictive substances can cause anxiety and depression indirectly via the secondary effect of life chaos • They also mimic many psychiatric disorders directly

  31. Substance Abuse and Moods • Psychosis: • stimulants, hallucinogens • alcohol or sedative withdrawal • Bipolar d/o: stimulants • Insomnia: alcohol (midnight awakening), stimulants, occasionally (short acting) sedative withdrawal • Depression: • alcohol, sedatives, MJ • withdrawal from stimulants, ecstacy • Anxiety: Stimulants, MJ (panic) • withdrawal from alcohol or sedatives • Paranoia: MJ, stimulants (intoxication or w/d)

  32. Mood Disorders • Chicken and the Egg: “Do I drink or use because I’m depressed/anxious/bipolar or is it vice-versa ?” • History will help delineate when this occurred • Was there evidence of a mood disorder pre-experimentation? • Were there problems with mood during periods of abstinence? • Do they get better or worse when you detox them?

  33. Relapse How can people relapse after they’ve quit for such long periods of time?

  34. Craving and Relapse • During repeated drug use patients become biologically hypersensitized to: • The Drug of Choice • Other addictive drugs • Stimuli associated with drug use • Stress induced craving • This hypersensitization is long-lasting due to adaptive and structural changes in the reward pathway

  35. Craving and RelapseFunctional Changes • Long lasting changes in the functional activity of the mesocorticolimbic dopamine system, in glutamate and dopamine transmission in the nucleus accumbens • Long lasting adaptive changes in gene expression and protein activation, especially “Fos” proteins (these occur through activation of the cAMP cascade via D1 dopamine receptors in the VTA)

  36. Craving and RelapseStructural Changes • Changes in caliber of dopamine dendrites and cell bodies in the VTA (opioids) • Increase in density/number of dendritic branches in Nucleus accumbens (stimulants) • Decrease in neurofilament proteins

  37. Craving and Relapse • By these and likely other mechanisms, the patient remains hypersensitized to the rewarding effects of the drug ANDexhibit the PRIMING and CONDITIONING effects

  38. Craving and Relapse • Priming: An introduction of even a tiny amount of the drug can cause intense cravings and imminent relapse • Conditioning: During substance use, patients also become hypersensitized to environment cues associated with use (associated smells, sights, location, sounds, stressors, people, etc.) • These cues (or “triggers”) can cause dopamine release AS IF A SMALL AMOUNT OF THE DRUG WERE TAKEN • Due to the stable biological changes, both priming and conditioning effects can persist for years

  39. The “Formula” for Addiction • Genetic or biological predisposition • A specialized response to addictive chemicals • Risk factors (mood disorders, life trauma, environmental factors, drug availability) • Practice (“experimentation”) • The “Switch”: hypersensitization and hedonic dysregulation

  40. The Crisis of Addiction • When addicts initially choose to use, they are often unaware of their genetic propensity • Their initial experimentation is often acceptable and typical for their subculture or society at large (or even recommended as in the case of rx meds) • Continued use can cause severe consequences to self, others, and community, though these consequences often only occur after addiction has taken hold • Once addiction is fully developed, the use of drugs and the behaviors that follow can become out of control At the same time, chemically dependent persons remain completely responsible for their continued use of drugs AND the resultant behaviors

  41. Timeline of Untreated Addiction Experimentation The “Switch” Maintenance LOSS • Predisposing factors: • Genetics • Co-morbid conditions • Environment Multiple crises with brief periods of abstinence

  42. Chemical Dependency as a Chronic Condition Complex outcomes in CD treatment: relapse is common, success is measured by retention in recovery, decreased morbidity, life improvement Abuse Early Abstinence Sobriety Stable Maintenance

  43. Primary Care Workshop California Academy of Family Physicians and California Society of Addiction Medicine April 14, 2005

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