Module 3: Part 2

Question 1

What is PTSD?

Answer 1

• Experience of a severe traumatic event of an exceptionally threatening nature which is likely to cause distress in anyone

Question 2

What are the three main cluster of syndromes?

Answer 2

• Re-experiencing
• Hyperarousal
• Avoidance

Question 3

What are features of reliving?

Answer 3

• Flashbacks
• Recurring memories related to the traumatic event
• Recurring dreams of the event

Question 4

What are features of hyperarousal?

Answer 4

• Difficulty falling asleep
• Irritability and outbursts of anger
• Difficulty concentrating
• Exaggerated startle response (noise, fireworks)

Question 5

What are features of avoidance?

Answer 5

• Efforts to avoid thoughts, feeling associated with the trauma
• Efforts to avoid activities, place and people that arouse recollections of the trauma
• Feeling detached from others
• Reduced interest in participation in important
  activities

Question 6

What is the 4th factor of PTSD according the DSM-2013 four-factor model?

Answer 6

• Negative alterations in cognition and mood
  
  • Persistent negative cognitions about, self,
    others and the world
  • Persistent negative emotional states (anger,
    shame, fear)
  • Diminished interest in significant activities
  • Inability to experience positive emotions.

Question 7

What are different types of trauma?

Answer 7

• Combat trauma
• Torture
• Terrorism
• Rape
• Witnessing violent death of others (war)

Question 8

What are more types of trauma?

Answer 8

• Type I trauma - a single traumatic event (Terr,
  1991)
• Type II trauma - prolonged and repeated
  trauma
• Interpersonal vs natural disaster
• Intergenerational trauma
• Concept of catastrophic trauma (ICD 10,
  1992)

Question 9

What is the aetiology of PTSD?

Answer 9

• Not clear why some people develop PTSD and
  some not
• Heritability 30% (Goldberg et al., 1990)
• Impaired sensitivity of HPA axis (Yehuda et al.,
  1991)
• Reduced hippocampal volume

Question 10

What is the prevalence of PTSD?

Answer 10

• Lifetime prevalence in general population 8%
  (Kessler et al., 1995)
• Lifetime prevalence of PTSD in general
  practice 14% (Gomez-Beneyto et al., 2006)
• 31% of Vietnam war veterans (The
  National Vietnam Veterans Readjustment
  study) had lifetime PTSD (Kulka et al. 1990)
• PTSD more prevalent in victims of
  interpersonal trauma than disaster victims

Question 11

What are features of a PTSD history?

Answer 11

• Current Mental state (triad of symptoms)
• Past psychiatric Hx (first contacts with mental health services, admissions; ?under section)
• Developmental Hx
• Employment Hx
• RIsk of self harm and harm to others

Question 12

What are some comorbidities of PTSD?

Answer 12

• Alcohol abuse/dependence – M-52%; F-27%
  (Kessler et al. 1995)
• Drug misuse – 34%
• MDD -48%
• Physical health problems (stomach ulcer)
  more prevalent than in general population

Question 13

What are some treatments for PTSD?

Answer 13

• Watchful waiting in mild/moderate PTSD for first
  4/52
• Pharmacotherapy
  
  • Mirtazapine, paroxetine, sertraline, olanzapine
• Psychological interventions
  
  • No evidence of benefit of single session debriefing
  • Trauma focussed CBT
  • Eye movement desensitization and reprocessing
    (EMDR)

Question 14

Describe PTSD Management

Answer 14

• Severe PTSD - engagement problems
• Ongoing evaluation of risk to self and others
• Treat comorbidity (substance misuse)
• Physical health checks
• Social support
• Voluntary week/employment
• Carer’s assessment

Question 15

What is the prognosis of PTSD?

Answer 15

• 56% improve after receiving psychotherapy (no
  longer meeting diagnostic criteria for PTSD)
• 38% continue to have some residual symptoms
• Highest remission rates in PTSD survivors of natural
  disasters 60%
• Trauma severity, the lack of social support and
  additional post-trauma life stressors important rrisk
  factors

Question 16

What are the problems with the current DSM diagnostic classification of PTSD?

Answer 16

• Complex PTSD (Herman, 1992)
• Disorder of extreme stress, not otherwise specified,
  DESNOS (Van der Kolk et al. 1996)
• Enduring personality change after catastrophic
  experience, EPCACE (ICD 10)

Question 17

What is Enduring Personality Change After Catastrophic Experience EPCACE?

Answer 17

• a change of at least four years duration in a
  person’s pattern of perceiving, relating to, or thinking about the environment and self following exposure to catastrophic stress

Question 18

What are the main features of EPCACE?

Answer 18

• Permanent hostile and distrustful attitude
• Social withdrawal
• A constant feeling of emptiness and/or hopelessness (may be associated with increased dependency on others, prolonged depressive mood without evidence of depressive disorder before trauma)
• Feeling of being ‘on edge’ or threatened
• Permanent feeling of being changed or different to others

Question 19

What are some conditions for EPCACE?

Answer 19

• No history of existing personality pathology prior
  traumatic experience
• May or may not be preceded by PTSD
• Not related to other mental health disorders or
  organic brain injury

Question 20

What is the aetiology of EPCACE?

Answer 20

• Catastrophic trauma

Question 21

What is Catastrophic trauma?

Answer 21

• catastrophic trauma would involve prolonged exposure to life-threatening circumstances with imminent possibility of being killed (for example exposure to war trauma, concentration camp experience, being tortured, hostage situations and sexual assault)

Question 22

What is PTSD according to ICD-11?

Answer 22

• PTSD – three clusters of symptoms
  remain
• Complex PTSD introduced as a new
  diagnostic category

Question 23

What is complex PTSD (ICD-2018)

Answer 23

• Exposure to an event or series of events of an extremely threatening or horrific nature, most commonly prolonged or repetitive events from which escape is difficult or impossible (torture, slavery, genocide campaigns, prolonged domestic violence,
  repeated childhood sexual or physical abuse)

Question 24

What are other features of Complex PTSD?

Answer 24

• Problems with affect regulation
• Feelings of worthlessness, shame and guilt
• Difficulties with sustaining relationships

Question 25

What are the problems with the definition of Complex PTSD?

Answer 25

• CPTSD criteria overlap with criteria for PD –
  this could lead to diagnostic confusion both
  clinically and in research
• Risk factors (sexual and physical abuse)- the
  same for CPTSD and PD
• ?preference for CPTSD - Stigma attached to
  PD diagnosis
• ?treatment for CPTSD vs treatment for PD

Question 26

What is the ICD 11 criteria of harmful substance use?

Answer 26

• Damage to mental or physical health of the user in absence of Dx of dependence syndrome
• Damage observed over 12 months if episodic use, one month if continuous use
• Harm due to one or more of the following:
  
  • behaviour related to intoxication;
  • direct or secondary toxic effects on body organs and systems
  • or a harmful route of administration.

Question 27

What is dependence?

Answer 27

• Sense of compulsion
• Difficulty in controlling (onset/termination/level of use, all-or-nothing
• Withdrawal state (physical/cognitive state)
• Tolerance
• Progressive neglect despite harmful consequences
• DSM V: Abuse and dependence combined to single disorder, added gambling

Question 28

What increases dopamine levels in ventral striatum (nucleus accumbens)?

Answer 28

• Food
• Sex
• Drugs e.g. cocaine, amphetamine, alcohol, MDMA

Question 29

How does cocaine work?

Answer 29

• Blocks dopamine transporter

- Increases dopamine signalling

Question 30

How does amphetamine?

Answer 30

• Blocks dopamine transporter

- Enhances dopamine release

Question 31

What are different types of dopamine family receptor imaging?

Answer 31

• 11C-PHNO
  Agonist
  DRD3 preferring
  Extra striatal binding
• 11C-raclopride
  Antagonist
  DRD2 > DRD3
  Striatal

Question 32

Where does cocaine increase dopamine in? Ventral or dorsal striatum?

Answer 32

• Dorsal Striatum

Question 33

In alcoholics, which areas does alcohol activate?

Answer 33

• Ventral striatum
• Anterior cingulate
• Ventromedial prefrontal cortex

Question 34

What is the dopamine system modulated by?

Answer 34

• GABA: inhibitory on dopamine neuron

- Opioids: inhibitory on GABA-ergic neuron

Question 35

What are endorphins?

Answer 35

• Natural opiates in the brain
• Exercise and endorphin rush
• Improve mood
• Substance of abuse may increase the release of endorphins which then stimulate the dopamine system

Question 36

How does the μ-opioid receptor activation lead to DA neuronal firing?

Answer 36

• μ-opioid receptors are inhibitory
• when activated, GABA neuron is shut down
• Results in increase in DA neuronal firing

Question 37

What does naltrexone do?

Answer 37

• Block the μ-opiate receptor
• Allows GABA ‘brake’ to function
• Leads to reduced dopaminergic activity

Question 38

Is there more or less opioid receptor availability in alcoholics?

Answer 38

• Less

- Alcoholic dependent individuals have more opioid receptors than control

Question 39

What would contribute to the differences between earlier and recent studies of opioid release?

Answer 39

• Recent imaging has lower availability of mu opioid receptor and early abstinence
• Higher mu opioid receptor availability has been associated with craved and response to naltrexone

Question 40

How does tissue damage lead to inflammation?

Answer 40

• Tissue damage —> Foreign pathogens —> Cytokine release —> Increased permeability —> Immune cells invade —> Inflammation

Question 41

What is inflammation characterised by?

Answer 41

• Rubor
• Calor
• Dalor
• Loss of function

Question 42

How is neuroinflammation different to general inflammation?

Answer 42

• No pain
• Loss of function more significant
• Different immune cells

Question 43

What are triggers of neuroinflammation?

Answer 43

• Classical: Infectious, Autoimmunity, Toxins

- Neurogenic (due to increased neuronal activity e.g. seizures

Question 44

What are microglia?

Answer 44

• CNS macrophages that orchestrate an immune response and exacerbate damage by releasing toxic factors

Question 45

What toxic factors do microglia release?

Answer 45

• Reactive oxygen species
• Prostaglandins- COX-2
• Cytokines - TNF-alpha, IL-1

Question 46

How do you work out Units of alcohol?

Answer 46

• % x Volume (L)

Question 47

What is the daily limit of alcohol?

Answer 47

• 2 units (with 2> alcohol free days)

Question 48

What is a binge?

Answer 48

• 2x daily limit

Question 49

What are the three types of alcohol problems?

Answer 49

• Hazardous drinking
• Problem drinking
• Dependent drinking

Question 50

What is hazardous drinking?

Answer 50

• Numbers are too high (Increased BP), raising risk of problem

Question 51

What is problem drinking?

Answer 51

• Evidence of harmful consequences

- Physical, psychological or social

Question 52

What is dependent drinking?

Answer 52

3 or more of following in the last 12 months

• Craving/Compulsion to use
• Withdrawal symptoms
• Continuing in spite of harm
• Tolerance
• Neglect of other interests
• Difficulty controlling use

Question 53

What structural changes do abstinent ‘Healthy’ alcohol dependent individuals have?

Answer 53

• Atrophy (narrow gyri, widening sulci) - ICAM study

Question 54

What are different types of alcohol-related brain damage?

Answer 54

• Thiamine deficiency: Wernicke’s-Korsakoff syndrome
• Direct neurotoxicity
• Alcoholic liver disease: peripheral inflammation can cross BBB to start neuroinflammation
• Head injury: alcohol —> Increased risk of falls —> Increased risk of head injury —> neuroinflammation —> cognitive dysfunction
• Increased risk of CVD —> Increased risk of stroke

Question 55

What brain areas are affected by alcohol-induced neuroinflammation?

Answer 55

• Caudate
• Putamen
• Hippocampus
• Medulla

Question 56

How does alcohol cause neuroinflammation?

Answer 56

• Alcohol activates Microglia via TLR4 —> Neuroinflammation
• Activated microglia present for 14 days after last alcohol dose in Rat model of dependence
• TLR4 KO mice protected against alcohol induced neuroinflammation
• Post-mortem alcohol dependent brain show increased microglia and increased inflammatory cytokines
• Microglia activation seen during alcohol intake and withdrawal

Question 57

Describe PET imaging in alcohol neuroinflammation

Answer 57

• 11C-PBR28 PET ligand binds to TSPO to detect Microglia (must assess binding affinity of patient as can affect signal)
• Alcohol-dependent have decreased hippocampal binding for PBR28 (Tracer for activated microglia) - Microglia loss or dysfunction?
• Decreased hippocampal TPSO expression associated with decreased memory function

Question 58

What is the relationship between alcohol and Alzheimer’s?

Answer 58

• Peripheral inflammation or high TNFα in Alzheimer’s Disease is associated with deterioration in cognition

Question 59

Describe the amyloid hypothesis of neurodegeneration

Answer 59

• APP cleaved by beta and gamma secretase

- Dynamic equilibrium of Monomers, Oligomers, Protofibrils, Fibrils, Plaques

Question 60

What are the direct actions of alcohol on neuroinflammation and AD?

Answer 60

• Alcohol binds to TLR-4 on Microglia —> activate Microglia —> Cytokine release —> Neuroinflammation

Question 61

What are the indirect actions of alcohol neuroinflammation and AD?

Answer 61

• Thiamine deficiency —> Increased beta-amyloid plaque deposition
  
  • Thiamine-deficit rats have increased amyloid plaque deposition
  • Alcohol dependence is the most common cause of thiamine deficiency
• Fibrillar beta-amyloid binds to TLR-4 activates microglia —> Neuroinflammation —> Neuronal death (AD Sx) —> Cycle
• Systemic inflammation superimposed on Neurodegenerative diseases accelerates disease progression
• TBI
• Withdrawal effects

Question 62

What are the different roles of pharmacotherapies in alcohol addiction?

Answer 62

• Substitution
• Withdrawal
• Abstinence
• To prevent harms e.g. brain damage, infections etc

Question 63

Describe substitution in alcohol addiction treatment

Answer 63

• Diazepam (Benzodiazepine)

Question 64

Describe withdrawal in alcohol addiction treatment

Answer 64

• Diazepam (Benzodiazepine) +/- Acamprosate (anti-glutaminergic)
  
  • Decreased withdrawal symptoms (Gold standard for alcohol withdrawal)
• Carbamazepine (Anticonvulsants) - treat seizures, alternative to BDZ

Question 65

What is the MOA of alcohol?

Answer 65

• Binds to GABA-A receptor —> Acute: Increased GABA, Chronic: GABA receptor desensitised therefore decreased GABA function
• Binds to NMDA receptor —> Acute: NMDA antagonist, Chronic: NMDA receptor upregulation (associated with decreased memory)

Question 66

What is the MOA of alcohol withdrawal?

Answer 66

• Decreased alcohol —> Glutamate acts on Increased Glutamate receptors —> Increased Ca2+ —> Hyperexcitability —> Seizures
• Alcohol withdrawal associated with Increased Ca2+ influx (NMDA), decreased GABA-ergic activity, decreased Mg2+ inhibitory system (NMDA)
• During alcohol withdrawal —> Increased Glutamate
  With treatment —> Decreased glutamate

Question 67

What is multiple detoxification associated with?

Answer 67

• Increased withdrawal symptoms
• Increased risk of relapse
• Impaired cognitive function

Question 68

How does vitamin supplementation help alcoholics?

Answer 68

• Thiamine deficit —> Risk of wernicke’s encephalopathy —> Korsakoff’s syndrome

Question 69

How is abstinence maintained in treatment for alcohol addiction?

Answer 69

• Disulfiram
• Bromocriptine
• Baclofen
• Naltrexone
• Nalmefene
• Acamprosate

Question 70

How do dopamine receptors relate to addiction?

Answer 70

• Now think addicts have high DA
• Low levels of DRD2 associated with ‘drug-liking’ & impulsivity
• Low levels of DRD2 seen in stimulant & alcohol addicts.
  
  • Higher levels of DRD3 subtype in stimulant addiction, no change in alcoholism
• Release of dopamine is blunted or none is apparent.

Question 71

What is the MOA of disulfiram?

Answer 71

• Inhibits alcohol dehydrogenase (Increased acetaldehyde —> N&V)
• Inhibits dopamine beta-hydroxylase in Brain (blocks DA —> NA therefore increased DA)
• S/E: psychosis

Question 72

How does bromocriptine work?

Answer 72

• DA agonist

Question 73

How does Baclofen work?

Answer 73

• GABA agonist —> Increased GABA brake —> Decreased DA

Question 74

How does naltrexone work?

Answer 74

• mu-opiate receptor antagonist —> Increased GABA firing —> Decreased DA
• Decreased relapse rates, decreased pleasurable effects of alcohol, can safely drink

Question 75

How does nalmefene work?

Answer 75

• k-opiate receptor antagonist

- Decreased relapse rates, decreased pleasurable effects of alcohol, can safely drink

Question 76

How does acamprosate work?

Answer 76

• Taurine derivative (MOA unknown)
• Decreased pleasurable effects of alcohol, decreased relapse rate
• Equal efficacy to Naltrexone

Question 77

Which medication and when to start alcohol relapse prevention?

Answer 77

• Starting detox
  
  • Support abstinence : acamprosate, disulfiram
  • Reduce risk of relapse in ‘samplers’ : naltrexone
  • Support abstinence in those with prominent anxiety : baclofen
• Start whilst drinking to reduce drinking
  
  • Nalmefene (naltrexone)

Question 78

What are the different roles of pharmacotherapy in opiate addiction?

Answer 78

• Substitution (main approach for opiate addiction) e.g. methadone, buprenorphine, naltrexone
• Treat Withdrawal
• Maintain abstinence
• To prevent harms

Question 79

What is the aim of substitution?

Answer 79

• Decrease street used
• Decrease crime
• Decreased IV risk

Question 80

How does methadone work?

Answer 80

• Full agonist
• Risk of respiratory depression
• Long half life
• PET: Methadone does not reduce PET signal therefore Methadone dose depends on clinical judgement + clinical trials

Question 81

How does buprenorphine work?

Answer 81

• Partial agonist
• Long half-life
• Heroin gives no further high, no resp depression
• If increased opioid, partial agonist antagonises
• If no opioid, partial agonist activates receptors —> prevent withdrawal
• PET imaging useful to determine dose (no tracer binding beyond 16mg)

Question 82

How does naltrexone work for opiate addiction?

Answer 82

• Opiate antagonist
• No intrinsic activity
• Antagonist effects predominant even if full agonist given

Question 83

How to treat opiate withdrawal?

Answer 83

• Prevent noradrenergic storm

Question 84

How do you maintain abstinence from opiate addiction?

Answer 84

• Naltrexone

Question 85

How to prevent harm in treating opiate addiction?

Answer 85

• Providing clean needles

Question 86

Describe treatment for Nicotine addiction

Answer 86

• Substitution (MAIN APPROACH FOR NICOTINE ADDICTION)
  
  • Nicotine replacement
  • Varenicline (nicotinic partial agonist)
• Treat withdrawal- to prevent complications
  
  • Nicotine replacement
  • Varenicline (nicotinic partial agonist)
• Maintain abstinence
  
  • Varenicline
  • Bupropion (dopaminergic/noradrenergic)

Question 87

What addiction treatments are in development?

Answer 87

• Vaccines
  
  • Still waiting - poor bioavailability
• New approaches
  
  • Reduce stress by antagonising
    
    • NK1
    • Corticotropin releasing hormone/factor
    • Neuropeptide Y
• Modulate appetitive drive by antagonising Orexin, Ghrelin or GL1 agonist

Question 88

What is a drug?

Answer 88

• A chemical which produces a physiological change

Question 89

How are drugs regulated in the UK?

Answer 89

• MHRA Medicines Act —> Drugs with Health benefit
  
  • Controlled by Class: higher class, higher penalties (for possession and supply)
• Misuse of Drugs Act —> Recreational drugs
• Regulated drugs: Age of Sale
• Unregulated: Tea and Coffee

Question 90

What the types of drugs in the UK?

Answer 90

• Depressants: Alcohol, Opioids, Benzodiazepines, Ketamine
• Stimulants: Cocaine, Amphetamine, Ecstasy
• Psychedelics: LSD
• Cannabis

Question 91

What is the difference between classes and schedules?

Answer 91

• Classes determine legality

- Schedules determine its medical use

Question 92

What are different types of harms of drugs?

Answer 92

• Harms from Route of Use (Infection- Sepsis, Skin popping, Needle marks, Tooth loss)
• Harms from drugs (acute toxicity & chronic effects)
• Harms from addiction to drugs

Question 93

What are the acute effects of harms from drugs?

Answer 93

• Respiratory depression: Opioids (esp mixed with alcohol/BSZ
• Hyperthermia: Stimulants (esp MDMA)
• Hypothermia: Ketamine, Alcohol
• Hyponatraemia: MDMA
• Cardiac symptoms: Cocaine, Amphetamine
• Hepatitis: MDMA
• Confusion/Delirium: Depressants (esp Ketamine)
• Paranoia/Delusion states: Stimulants (cocaine), Cannabis
• Anxiety attacks: Stimulants, Cannabis, Psychedelics

Question 94

Describe the ISCD Drug Harms Model (2010)

Answer 94

• All drugs harms classified into 16 variables, Examined 20 drugs, Each criterion scored out of 100 related to highest chosen
• Results: Alcohol is the most harmful drug - Alcohol is 3x more harmful than cocaine
• No correlation between UK Drugs Act and Harmfulness of the Drug

Question 95

Which drugs have the highest related drug deaths in the UK?

Answer 95

Tobacco then Alcohol

Question 96

How much does alcohol cost the UK to treat?

Answer 96

• 3 billion pounds

Question 97

How many men or women need to stop smoke to prevent one case of Schizophrenia?

Answer 97

• 5000 men or 7000 women

Question 98

What brain regions are activated in response to palatable food or food-associated cues?

Answer 98

• Amygdala (Emotional response)
• NAcc (motivation, drive)
• Dorsal striatum (habitual behaviour, learning association)
• Orbitofrontal cortex (salience evaluation)
• VTA
• Lateral hypothalamus

Question 99

What do the people with high food addiction scores correlate with?

Answer 99

• Heightened ventromedial PFC activation to the anticipation of a chocolate milkshake
• Greater Positive and Negative Urgency reflecting proneness to act impulsively during intense mood states
• Greater temporal impulsivity to money (delay discounting)

Question 100

GHADD Summary 1

Answer 100

• Anticipatory food reward/food cue reactivity engages mesocorticolimbic brain regions
• Predicts food intake
• Influenced by nutritional state, appetitive gut hormones (including ghrelin, GLP-1) and bariatric surgery
• Ghrelin stimulates and GLP-1/PYY attenuates food cue reactivity in humans mimicking effects of fasting and food intake
• Gastric bypass surgery increases GLP-1 and PYY and attenuates food cue reactivity and hedonics

Question 101

GHADD Summary 2

Answer 101

• Food intake +/- gastric bypass surgery attenuate reward-limbic responses during monetary reward anticipation and negative emotional reactivity ?via gut hormones
• Similar neural networks processing food and alcohol or cigarette cues
• Reviewed pre-clinical and clinical data for effect of GLP-1 to decrease and ghrelin to increase consumption of drugs of abuse
• Previewed proof-of-concept Gut Hormone in Addiction Study for GLP-1 and ghrelin systems as targets to prevent relapse in smoking and alcohol dependence by modulating addictive behaviours, as well as in obesity
• Preliminary data says that GLP-1 analogue Exendin-4 attenuates high energy food cue reactivity in ex-smokers and abstinent alcohol dependence
• Preliminary data that Exendin-4 attenuates alcohol cue reactivity in humans with obesity and alcohol dependence
• Gut hormone based therapies may have potential for treating drug craving and preventing relapse in addicted populations and obesity.

Question 102

What are novel psychoactive substances (NPS)?

Answer 102

• Psychoactive drugs not prohibited by UN Drug Convention but may pose a public health threat compared to those listed in the convention (UK Home office, Legal Definition)

Question 103

What is the most commonly used illicit drug in the UK?

Answer 103

• Cannabis

Question 104

Describe what was going on in 2008 regarding heroin and crack

Answer 104

• Good treatment penetration
• Low HIV rates
• Aging cohort who established their drug use a decade or more earlier
• Young people NOT initiating heroin or crack cocaine

Question 105

What was the first wave of NPS?

Answer 105

• Mephedrone
• Cathinone (amphetamine like effects)
• Widely available, cheap
• Rapid market penetration
• Snorted, injected, swallowed
• Outside organised crime structures

Question 106

What were the three waves of NPS?

Answer 106

• (1) Methadrone —> (2) Synthetic Cannabinoids —> (3) Synthetic Opioids (big problem in US)

Question 107

What are synthetic drugs?

Answer 107

• Drugs which aim to mimic the traditional psychoactive drugs

Question 108

What new changes are seen regarding NPS?

Answer 108

• New availability: street —> online —> social media apps
• New users: Clubbers | Gay men (chemsex) | Young professionals (as undetectable) | Psychonauts | Prisoners esp. Spice
• New health frontline: Young people view NHS Drug Treatment services as Heroin users therefore present to Mental Health or A&E
• New harms: Harms similar to ‘traditional drugs’ | New harms e.g. Hallucinogen Persisting Perception Disorders, Ketamine Bladder,

Question 109

How do synthetic cannabinoids compare with natural cannabinoids?

Answer 109

• Natural cannabis contains THC (main psychoactive component, CB1) and cannabidiol (anti-psychotic effect, CB2)
• SCRAs bind to same receptor with higher potency | SCRAs lack cannabinoids (may explain more psychosis)

Question 110

What are the demographics of SCRA users?

Answer 110

• Prisoners
• Homeless
• Mental Health patients
• Professionals

Question 111

How does the illicit drug market respond to the rise of NPS?

Answer 111

• Increase purity of cocaine and MDMA
• Now legality not an issue, traditional illicit drugs can directly compete with NPS
• Signs that organised crime taking over NPS supply?

Question 112

What drugs feature in the Third Wave NPS?

Answer 112

• Benzodiazepine NPS (Xanax)

- Opioid NPS (Fentanyl analogues)

Question 113

Describe Yellow Card strategies

Answer 113

• Report Illicit Drug Reactions (RIDR)

- RIDR Quarterly Dashboard

Question 114

What were the challenges to the ICCAM Study?

Answer 114

• Recruitment
• Retention
• Loss to follow-up
• Co-morbidity
• Multiple dependencies

Question 115

What were the strengths of the ICCAM Study?

Answer 115

• Double-blind
• Placebo-controlled
• Cross-over design- increased power but possibility of drop-outs and missing data
• Multi-faceted data-rich data set
• Baseline and follow-up sessions allow possibility of assessing predictive value

Question 116

What were the design limitations of the ICCAM Study?

Answer 116

• Pseudo-randomised
• Abstinent (not current) users, applicability
• Single dose
• Multi-dimensional data gives potential problem of false positives due to multiple comparisons (high chance of Type I error)
  
  • Need for hypothesis-driven research questions

Question 117

What is the BOLD signal?

Answer 117

• The ratio change in oxyhaemoglobin to deoxyhaemoglobin in the blood
• An indirect measure of neuronal activity

Question 118

Why fMRI in addiction?

Answer 118

• Can locate disturbances at a population (“Biomarkers” of Addiction)
• Substances of addiction can interfere with neuronal processes that govern behaviour

Question 119

What is the dopamine reward deficiency syndrome?

Answer 119

• Hypothesis suggests Addiction is a deficit of dopamine circuitry for non-drug awards
• E.g. non-drug awards no longer elicit a normal response only substances of abuse can produce a normal reward response

Question 120

What are the brain areas involved in addiction?

Answer 120

• Nucleus Accumbens
• Mesolimbic pathways
• Amygdala
• Orbitofrontal cortex

Question 121

Describe fMRI and Reward

Answer 121

• Addicts in drug-deprived state devaluate non-drug awards
• Methods: Nicotine dependent and deprived subjects, guess correct —> win money, after smoke or not? $
• When those who cannot resist smoking, win money —> weak bilateral Ventral Striatal response (less interest)
• When those who can resist smoking, win money —> strong bilateral Ventrial Striatal response

Question 122

Describe the ICCAM Study

Answer 122

• Patients receive either placebo, mu antagonist, D3 antagonist or NK1 antagonist at each visit (4 visits)
• Follow up appointments to see who relapsed or remained abstinent

Question 123

What were the main neuroimaging markers being investigated in the ICCAM Study?

Answer 123

• Reward sensitivity
• Reponse inhibition
• Emotional responses

Question 124

How did the alcohol and polydrug compare to the controls? (Impulsivity, anxiety)

Answer 124

• Both alcohol and poly-drug dependent individuals were more impulsive in questionnaire measures of impulsivity and delay discounting task
• Scored higher on anxiety, depression and stress
• Poly drug group had greater incidence of childhood trauma
• Both alcohol and PD had higher negative urgency
• Both alcohol and control group had same sensation seeking but polydrug was higher

Question 125

Spatial working memory imp

Answer 125

• Alcohol showed significant spatial working memory impairment
  (No different in number of errors or strategy for task completion)
• PD showed no significant difference to control in SWM impairment
• Significant WM/GM loss in alcohol group which is necessary for spatial working memory

Question 126

Impairment in decision making during Gamble Task

Answer 126

• No difference in risk or money being bet
• Alcohol and PD take longer to make the right decision
• PD make worse choices in quality of decision

Question 127

Describe reward response

Answer 127

• Can measure both reward anticipation and reward recepit
• Ventrial striatum/NAcc recruitment in line with its role in encoding predictive value of reward cues
• Ventral striatal BOLD response to reward predicting cues (anticipation period) is often used as an index of incentive motivation for rewards
• Majority of studies show blunting of reward response in striatal regions in addiction

Question 128

What areas are activated in the MID anticipatory phase of the ICCAM Study

Answer 128

• Ventrial Striatum
• Insular
• Thalamus
• Some visual cortical activation
• SMA/ACC
• Reduction of striatal response in Alcohol/PD control compared to control

Question 129

What does striatal response correlated with in ICCAM Study?

Answer 129

• Striatal response negatively correlates with impulsivity measures (more likely to get striatal blunting, the more impulsive)
• More anxious, the more striatal blunting
• ?More anxious, more impulsive, the more addicted
• No correlation with months abstinent

Question 130

Describe the effect of Naltrexone on striatal response

Answer 130

• Naltrexone does make a difference in striatal response
• D3 antagonist reverses striatal blunting in ventral striatum and in ventral pallidum (this area has high number of D3 receptor)
• PD with primary opiate dependence didn’t respond but primary alcohol dependence did have a normalised response
• NK1 repector antagonist increases striatal response in alcohol group not in PD group

Question 131

What is the relationship between striatal response and abstinence at baseline?

Answer 131

• Those with higher level of striatal response at baseline were more likely to be abstinent

Question 132

What are neural substrates of response inhibition?

Answer 132

• Motor action: Activation of premotor cortex and putamen, inhibiton of globus pallidus, disinhibition of thalamus and activation of primary motor cortex (M1)
• Response inhibition: IFC responsible for generating the No-Go signal which leads to inhibition of thalamus and of motor responses in the primary motor cortex (via Subthalamic nucleus and globus pallidus)

Question 133

What is MDMA?

Answer 133

• Ecstasy AKA 3,4-Methyl​enedioxy​methamphetamine
• Typical dose: 60-120mg
• Effect after 20-60 mins
• Peak after 60-90 mins
• Duration: 3-5 timer

Question 134

What are the effects of MDMA?

Answer 134

• Increased energy

- Euphoria

Question 135

How does MDMA work?

Answer 135

• It blocks the SERT on the pre-synapatic hormone
• Serotonin works on the 5HT2A pre-synaptic receptor
• It inhibits the resynthesis of serotonin

Question 136

Describe fMRI work with MDMA

Answer 136

• 25 healthy volunteerrs (5 females)
• Double-blind, placebo-controlled. Two scans, 7 days apart
• 100mg MDMA-HCL orally administered 45 mins before
• 60 mins functional scanning
• Resting state ASL and BOLD state were tested

Question 137

What were the results of the fMRI MDMA study?

Answer 137

ASL: Decreases in CBF (cool) after MDMA vs Placebo
(Cluster corrected p < 0.05)

• As subjective intensity increases, right amygdalal and right hippocampal CBF under MDMA decreases
• Less activity in left temporal lobe, less negative effect

Question 138

Describe MDMA and Functional Connectivity

Answer 138

• Connectivity in Resting State Network (mPFC and post. cingulate cortex) decreased
• Decreased mPFC-Hipp connectivity correlated with subjective intensity and positive mood ratings

Question 139

Describe MDMA and recollection of best memories

Answer 139

• Make vividness of positive memories stronger

- Increased emotion of positive memories

Question 140

• Describe MDMA and worst memories

Answer 140

• Worst personal memories become less negative

- Bad memories were less salient

Question 141

What does increase in serotonin do to the amygdala response to negative emotional states?

Answer 141

• Increasing serotonin decreases amygdala response to negative emotional states

Question 142

Describe MDMA for PTSD

Answer 142

• MDMA-assisted psychotherapy are positive
• Decreases symptoms of PTSD and still significant after 2 years
• Small samples but are safe to do

Question 143

Where are the serotinergic neuron cell bodies

Answer 143

• Raphe nucleus in the midbrain

Question 144

Do Ecstasy users have more or less SERTs compared to the general population?

Answer 144

• Ecstasy users have fewer SERTs
• Some studies show increase in 5HT2A receptor availability and some decrease
• High number of receptors due to compensatory upregulation for future use

Question 145

Describe reversibility of SERT

Answer 145

• The longer since last MDMA use, the more ‘normal’ SERT binding
• 212 days recovery time in striatum
• Same pattern in amygdala, thalamus and midbrain
• No reversibility in neocortex

Question 146

Describe psychedelics and SERT binding

Answer 146

• No difference in SERT binding between hallucinogen preferring users and controls
• Psychedelics just bind directly to 5HT2A receptors

Question 147

What does chronic MDMA use and acute tryptophan depletion do to the amygdala?

Answer 147

• Increased amygdala activation when processing negative emotional states

Question 148

Describe effects of MDMA on cognition

Answer 148

• MDMA has subtle cognitive effects

- Difficult as it is hard to find users who just use MDMA

Question 149

Name some psychedelics

Answer 149

• DMT
• Psilocybin
• Mescaline
• LSD

Question 150

What is a psychedelic?

Answer 150

• A drug which, without causing physical addiction, craving, major physiological disturbances, delirium, disorientation or amnesia, more or less reliably produces thought, mood, and perceptual changes otherwise rarely experienced except in dreams, contemplative and religious exaltation, flashes of involuntary memory and acute psychosis

Question 151

How do psychedelics work in the brain?

Answer 151

• Post-synaptic 5HT2A agonists

Question 152

Apart from their dopaminergic effect, how do anti-psychotics work?

Answer 152

• Non-selective 5HT2A antagonists

Question 153

What is a peak experience?

Answer 153

• Rare, exciting, oceanic, deeply moving, exhilarating, elevating experiences that generate an advanced form of perceiving reality, and are even mystic and magical in their effect upon the experimenter

Question 154

What are aspects of non-drug related mystical experiences?

Answer 154

• Sense of unity
• Transcendence of time and space
• Deeply felt positive mood

Question 155

How do psychedelics affect CBF

Answer 155

• Decreases CBF

Question 156

How does acute psilocybin affect mPFC?

Answer 156

• Decreases activity in mPFC

Question 157

How does psilocybin affect functional connectivity?

Answer 157

• Decreases PCC to mPFC after psilocybin

- Decreases rumination

Question 158

How does resting state networks change from childhood to adulthood?

Answer 158

• Resting state network becomes more defined and separated

Question 159

Describe psilocybin and recollection of personal autobiographical memories

Answer 159

• Personal autobiographical memories were more vivid, visual

- May be useful for depression as sufferers have difficulty in recalling positive memories (negative bias)

Question 160

What is increased 2A binding associated with?

Answer 160

• Increasing 2A binding related to neuroticism, pessimism in depression and negativism in females

Question 161

How many people in the UK are pathological gamblers?

Answer 161

• 500,000

- 2 million at risk

Question 162

• What is a gambling disorder according to the DSM5?

Answer 162

• Persistent and recurrent problematic gambling behaviour leading to clinically significant impairment or distress as indicated by the individual exhibiting four or more of the following in a 12-month period
• Needs to gamble with increasing amounts of money in order to achieve the desired excitement
• Is restless or irritable when attempting to cut down or stop gambling
• Has made repeated unsuccessful efforts to control, cut back, or stop gambling
• Is often preoccupied with gambling (e.g., having persistent thoughts of reliving past gambling experiences, handicapping or planning the next venture, thinking of ways to get money with which to gamble).

Question 163

When may people gamble?

Answer 163

• When feeling distressed e.g. helpless, guilty, anxious, depressed
• Losing money gambling, often returns another day to get even (chasing one’s losses

Question 164

What is gambling disorder according to ICD-11?

Answer 164

• Impaired control
  ‘
• Increasing priority
• Continuation/Escalation OG Gambling despite negative consequences

Question 165

How many adults (16+) have gambled in the past year?

Answer 165

• 63%

Question 166

What proportion of men and women gamble?

Answer 166

• Men- 66%

- Women- 59%

Question 167

What is problem gambling associated with?

Answer 167

• Gender- men are more likely to experience problems than women across all cultures
• Age- young people are more likely to experience PG problems
• Homelessness- Our study from 2013 shows X10 prevalence rates compared to normal London population.
• IMPULSIVITY – Strong predictor of problems at a young age and high levels of impulsivity in our patient population. ( Slutske et al 2012)
• IMPAIRED FUNCTIONING IN BRAIN REGIONS THAT RELATE TO DECISION MAKING . Ventromedial PFC and Striatum. These are the reward pathway areas that are showing significant differences between PGs and controls. (Petry2015)

Question 168

Describe genetics and PG

Answer 168

• PGs more likely to have a PG parent
• In Treatment seeking samples 10-44% have one or more parents with PG
• Twin studies: genetic risk appears stronger in men than women. ( As with alcohol)

Question 169

Describe the neurobiology of PG

Answer 169

• In both substance misuse and PG there is a DYSFUNCTIONAL REWARD SYSTEM with REWARD ANTICIPATION being disregulated
• Both substance misuse and PG patients display HYPORESPONSIVE REWARD CIRCUITRY
• These findings support the theory of a DOPAMINERGIC DYSFUNCTION in both PG and Substance misuse
• The fMRI studies mentioned are consistent with the PET evidence indicating REDUCED DOPAMINE RECEPTOR LEVELS IN ADDICTION
• However, other studies have reported INCREASED rather than decreased responses to monetary reward in PGs( Hewig et al 2010)

Question 170

Describe functional neuroimaging

Answer 170

• Several fMRI studies of PGs have reported BLUNTED neural responses to monetary gains primarily in

Ventral Striatum and Ventromedial/Dorsolateral PFC

Question 171

What are associated problems with PG?

Answer 171

• Loss of employment
• Crime
• Physical health
• Social isolation
• Pressure on families and carers

Question 172

Describe naltrexone in PG

Answer 172

• Three significant systematic reviews have looked at pharmacological interventions for PG: only 2 RCT studies high enough quality to be included
• Outcome showed that Naltrexone and Nalmefene ( Opioid receptor antagonists) are promising although as yet neither are approved by BNF.
• Naltrexone is a mu kappa opioid receptor antagonist used currently as an adjunct to prevent relapse in both alcohol and drug addiction

Question 173

What is cognitive control?

Answer 173

• The ability to inhibit behaviours

Question 174

What brain areas are involved in cognitive control?

Answer 174

• ACC
• Dorsolateral prefrontal cortex
• Inferior frontal gyrus
• Anterior insular cortex

Question 175

Describe fMRI and cognitive control

Answer 175

• Cocaine addicts in early abstinence: Decreased activation in cognitive network areas involved in overriding prepotent response
  
  • Unable to hold information, plan and inhibit prepotent response (do not press if letter is in your list)
• Chronic cannabis users have decreases activation in cognitive control networks during unaware errors
  
  • Inhibit if word-colour conflict or if immediate repeat and indicate error awareness on next trial if mistake
• Decreases cognitive control associated with increased drug use and increased risk of relapse

Question 176

What is the relation between stress response and drugs of abuse?

Answer 176

• Dysfunctional stress response may be involved in motivation to use drugs of abuse (stress may be prerequisite for risk of relapse

Question 177

Describe fMRI and stress

Answer 177

• Clear gender effects in the neural correlates in stress (F > M) and craving (M > F) - Marc et al

Question 178

How can fMRI predict risk of relapse?

Answer 178

• fMRI activation (during decision-making task) can predict relapse (95%) in early abstinent methamphetamine-dependent patients
  
  • fMRI of abstinent meth addicts predict where stimulus would appear on screen | Compare relapsers and non-relapsers
• In later trials, abstinent have increased activation compared to decreased activation in relapsers
  
  • Multiple trials of Rock, Paper, Scissors | Too taxing for relapsers (engage less) | Abstinent up their game - stay abstinent?
• Neural cue-reactivity can identify individuals at highest risk for future problematic drinking - Dager
  
  • fMRI response to alcohol cues | Transitioners have highest activation vs Moderate or Heavy drinkers

Question 179

How does fMRI facilitate medication development?

Answer 179

• Methylphenidate —> enhanced ability of cocaine addicts to inhibit a response (Increased signal in medial PFC and ACC)
• Modafinil acutely improves performance (neural correlates of this improvement can be mapped using fMRI)

Question 180

What are the limitations of fMRI?

Answer 180

• Artefacts (movement, respiration)
• Cannot infer neurochemistry
• Artificial environment (not represent day to day)