ADHD

Question 1

3 types of ADHD

Answer 1

• inattentive
• hyperactive
• combined

Question 2

general ADHD DSM criteria

Answer 2

• either 6 (or more) inattention symptoms or 6 (or more) hyperactivity/impulsivity symptoms
• some hyperactive-impulsive or inattentive symptoms that caused impairment have been present for at least 6 months and before 12 years of age
• persistent not situational: some impairment from the symptoms is present in two or more settings
• functional impairment: there must be clear evidence of clinically significant impairment in social, academic, or occupational functioning
• the symptoms do not occur exclusively during the course of a pervasive developmental disorder, SZ, or other psychotic disorder and are not better accounted for by another mental disorder

Question 3

inattention DSM

Answer 3

• often fails to give close attention to details or makes careless mistakes in schoolwork, at work, or with other activities
• often has trouble holding attention on tasks or play activities
• often does not seem to listen when spoken to directly
• often doesn’t follow through on instructions and fails to finish schoolwork, chores, or duties in the workplace
• often has trouble organising tasks and activities
• often avoids, dislikes, or is reluctant to do tasks that require mental effort over a long period of time
• often loses things necessary for tasks and activities
• is often easily distracted
• is often forgetful in daily activities

Question 4

hyperactivity/impulsivity DSM

Answer 4

• often fidgets with or taps hands or feet, or squirms in seat
• often leaves seat in situations when remaining seated is expected
• often runs about or climbs in situations where it is not appropriate
• often unable to play or take part in leisure activities quietly
• is often “on the go” acting as if “driven by a motor”
• often talks excessively
• often blurts out an answer before a question has been completed
• often has trouble waiting his/her turn
• often interrupts or intrudes on others

Question 5

ADHD demographics

Answer 5

• peak onset between the age of 3 and 4 - but often diagnosed later than this
• affects 3-5% children, prevalence higher in areas of low SES
• male/female ratio - 4:1 for the hyperactivity/impulsivity type, 2:1 for the inattention type
• comorbidity: 50% of children also show another psychiatric disorder

Question 6

ADHD in adolescence and adulthood

Answer 6

• persists in adolescence for around 50-80% of inds & in adulthood for around 30-50% of inds
• inattentiveness increases, hyperactivity decreases
• persistent ADHD more likely in those with comorbid disorders
• highly associated with criminal activity, substance misuse and long-term unemployment

Question 7

ADHD clusters in families

Answer 7

• increased risk for first and second order degree relatives (Faraone et al., 1995)
• siblings are 3-5 times more at risk (Biederman et al., 1992; Faraone et al., 1993)
• concordance is higher in MZ twins (50-80%) than DZ twins (33%) (Bradley & Golden, 2001)

Question 8

7 candidate genes

durston & konrad (2007)

Answer 8

• 5 are linked to dopaminergic system (esp. DAT-1 and DRD4)
• 2 are linked to the serotonergic system

Question 9

matthews et al. (2014) on the genetic basis of ADHD

further reading

Answer 9

• twin study (burt, 2009) : 70-80%
• family studies (e.g. biederman et al., 1992): 2-8 fold increase for parents and siblings
• adoption studies (sprich et al., 2000) support genetic etiology
• genome studies 4 regions (5p12, 10q26, 12q23, and 16p13) with evidence of linkage (fisher et al., 2002)
• smalley et al. (2002) supported this especially with region 16p13
• but not supported in meta-analysis (neale et al., 2010) finding no genome-wide significant association
• candidate genes more common approach (look at dopamine and serotonin transporters)

Question 10

environmental risk factors

Answer 10

• alcohol and nicotine use by mother during pregnancy
• but mothers themselves more likely to have ADHD and ADHD increases the use of substance
• low birth weight and premature birth
• obstetric complications
• maternal stress
• exposure to lead during childhood

Question 11

endophenotypes

viding & blakemore (2007)

Answer 11

• eritable (correlate with the gene), vulnerability traits that mark a risk for the development of the disorder
• should co-occur with the disorder e.g. should correlate with symptoms, although given heterogeneity of ADHD may be unlikely to be present in all inds
• should be heritable e.g. identical twins should be more similar than non-identical twins
• should show familial susceptibility e.g. non-affected relatives should also exhibit the endophenotype to a greater extent than in the general population

Question 12

cognitive theories

Answer 12

• inhibition
• arousal state regulation
• reward processing

Question 13

inhibition & ADHD

barkeley (1997)

Answer 13

• weak inhibitory control leads to difficulties with: WM, self-regulation of affect/motivation/arousal, internalisation of speech, reconstitution
• beh of those with ADHD is controlled by immediate events and reinforcers due to impaired ability to represent goals, plans and temporal sequence
• issues with planning as don’t have inhibitory control to follow what’s in the environment at that very moment

Question 14

nigg (2005) and EFs in ADHD

Answer 14

• common to find worse performance on EF tasks in ADHD children than controls
• EFs most affected: spatial working memory, response suppression (inhibition measure), signal detection
• meta-analysis
• most effected is not inhibition as Berkeley proposed but it is still an EF
• stroop interference is a measure of inhibition but fairly low down the list

Question 15

reward processing in ADHD

sagvolden et al. (1998)

Answer 15

• ADHD have issues in lots of areas but key area of issue is reward processing in this theory
• this can be seen by reward discounting task: all ppts more likely to go for lower amount if delay is longer but overall ADHD showed greater delay aversion

Question 16

key brain areas of reward system

Answer 16

• orbitofronal cortex
• ventromedial prefrontal cortex
• anterior cingulate cortex
• striatum
• amygdala

Question 17

matthews et al. (2014) on reward processing in ADHD

further reading

Answer 17

sensory/reward theories are bottom-up theories which are often associated with problems with emotions e.g. anger, mood and affect regulation

Question 18

arousal state regulation in ADHD

bellato et al. (2020)

Answer 18

• reduced autonomic arousal during slow tasks & boring situations –> inattention
• impulsivity/hyperactivity may be attempts to up-regulate arousal; self-stimulation –> slower & more variable/less accurate performance
• difficulties in down-regulating arousal during stressful or -ve situations –> challenging behs e.g. tantrums, aggressivity (too much arousal)
• account for behavioural symptoms of ADHD

Question 19

tamm et al. (2012)

RT variability as a marker of arousal regulation

Answer 19

• within-subject fluctuations in performance speed over a short period of time e.g. due to mind wandering
• deviation of RT in controls is pretty stable
• ADHD it is much more variable
• marker of arousal regulation
• lapses of attention as a marker

Question 20

kofler et al. (2013)

RT variability as a marker of arousal regulation

Answer 20

• meta-analysis found increased RT variability in people with ADHD (especially in children, but also in adults): medium-to-large effect
• is the increased RT variability specific to ADHD? - yes, but not entirely. statistically significant differences were found between children with ADHD and those with other clinical conditions. but not in adults
• no differences in RT variability between ADHD presentations - between inattentive, hyperactive, or combined

Question 21

heterogeneity in EF

Answer 21

• some children with ADHD who perform better than TD controls
• cannot say that all children with ADHD have issues with executive control

Question 22

triple route model

sonuga-barke et al. (2010)

Answer 22

• 9 tasks designed to tap three domains (inhibitory control, delay aversion/reward processing and timing)
• number of ADHD patients (including affected siblings) with a ‘deficit’ in each of the neuropsychological domains was calculated using cut-offs based on the lowest 10% of scores in the control group
• 71% of inds with ADHD displayed performance below the cut-offs in something but not necessarily the same one
• of those, more than 70% performed below cut-off in just one of the three domains

Question 23

positive aspects of ADHD

sedgwick (2019)

Answer 23

• some aspects of ADHD are adaptive e.g. they help people to succeed in certain situations
• group of adults with ADHD identified several aspects of ADHD which were considered beneficial, including “cognitive dynamism, courage, energy, humanity, resilience and transcendence”
• other adaptive traits with ADHD are creativity and imaginative problem-solving, sense of humour, perseverance, and acceptance

Question 24

neurobiological theories of ADHD

Answer 24

• delayed brain maturation
• different connectivity
• dopamine dysregulation

Question 25

grey matter

shaw et al. (2007)

Answer 25

• delayed maturational hypothesis
• difference in age when attaining peak cortical thickness - across all cortical regions, ADHD brain developed a bit later
• delay was even more obvious in PFC

Question 26

delayed maturational hypothesis

rubia (2007)

Answer 26

• ADHD symptoms described as age-inappropriate
• symptoms improve in adulthood
• do children with ADHD simply display a delay in brain maturation? - recent findings suggest yes
• delayed maturational hypothesis could specific to ADHD (not found in children with childhood onset SZ or autism)
• so the delayed brain maturation can act as an endophenotype

Question 27

white matter

castellanos et al. (2002)

Answer 27

• structural MRI reveals in brain volume in many areas, especially white matter reduction
• key areas: total cerebral volume, total white matter, frontal white matter, parietal white matter, temporal white matter, smaller subcortical areas (caudate, cerebellum)

Question 28

connectivity

sonuga-barke & castellanos (2007); fair et al. (2010)

Answer 28

• default mode network = ‘a network of brain regions that are active when an individual is not focused on the outside world and the brain is at wakeful rest’
• this network that is at work when you’re at rest, not engaging in tasks/world around you
• in ADHD it has been proposed that activity in the default mode network persists into, or reemerges in task-related active processing, producing attention lapses and deficits in performance
• differences between ADHD & TD in frontal lobe

Question 29

pharmacology & ADHD

durston & konrad (2007)

Answer 29

• typical treatment = methylphenidate or amphetamine
• example of methylphenidate is RITALIN
• these drugs stimulate the release and inhibit the reuptake of catecholamines (dopamine and noradrenaline)
• enhances activity in these NT systems
• effectiveness of treatment –> ADHD linked to dysfunction of catecholaminergic system, especially dopaminergic system

Question 30

dopamine dysregulation hypothesis of ADHD

Answer 30

• hypodopaminergic state in the prefrontal cortex. not enough/reduced amount of dopamine in PFC –> inattentiveness and lock of cognitive control
• hyperdopaminergic state in the striatum (part of basal ganglia, includes caudate nucleus and putamen. too much –> hyperactive behaviours

Question 31

review against hypothesis of dopaminergic dysfunction in ADHD

Answer 31

• gonon (2009)
• “the dopaminergic hypothesis of attention-deficit/hyperactivity disorder needs re-examining”
• doesn’t fully explain ADHD

Question 32

other NT dysfunctions associated with ADHD

(not dopamine)

Answer 32

• norepinephrine/noradrenaline
• serotonin (linked with aggressive behaviour)
• can use these for critical analysis of dopamine dysregulation theory, dopamine has been focused on due to RITALIN impacting dopamine pathways

Question 33

factors result of too little dopamine in PFC

Answer 33

• inattention
• poor executive function

Question 34

factors result of delayed brain maturation

Answer 34

• poor executive function
• hyperactivity

Question 35

factors outcome of atypical connectivity in default mode network

Answer 35

• inattention
• atypical arousal regulation

Question 36

factors result of too much dopamine in striatum

Answer 36

• hyperactivity
• atypical reward processing

Question 37

factor result of a smaller cerebellum

Answer 37

issues with timing