WEEK 8 NEUROLOGICAL DISEASES

Question 1

What is the second leading cause of death for Australians?

Answer 1

Dementia

Question 2

In 2020 how many Australians are living with dementia?

Answer 2

459, 000 Australians, and 50 million worldwide

Question 3

What is the ADNeT registry?

Answer 3

• the backbone (spine) of the dementia research project
• Clinical quality registry for persons newly diagnosed with dementia or Mild Cognitive Impairment (MCI)

Question 4

What is the estimated percentage of dementia among people aged 65 and over?

Answer 4

10%

Question 5

What is the estimated percentage of dementia among people aged 85 years and over?

Answer 5

30%

Question 6

In which settings might a person receive diagnosis work up and assessments for dementia?

Answer 6

General practice, memory clinics, other Hospital outpatient clinics, hospital inpatient wards, private specialists including geriatricians and neurologists, aged care assessments, residential aged care facility

Question 7

What are some of the early signs of dementia?

Answer 7

• Confusion
• Forgetfulness
• Memory loss
• Impact language use.

Question 8

is a dementia diagnosis done with a combination of different assessments or just one?

Answer 8

• Combination of different assessments
• This is to assess cognitive capabilities e.g. mini mental state exam in a memory clinic for example

Question 9

What does ADNeT mean?

Answer 9

• Australian Dementia Network Registry

Question 10

What are clinical quality registries (CQR)?

Answer 10

• Organisations which systemically monitor the quality (appropriateness and effectiveness) of healthcare, within specific clinical domains, by routinely collecting, analysing and reporting health – related information.

Question 11

What are three benefits of clinical quality registries?

Answer 11

1. Driving continuous improvements in patient-centred health care and outcomes.
2. Improving the value of healthcare.
3. Contributing to the sustainability of healthcare systems.

Question 12

What did the Framework for Australian clinical quality registries develop?

Answer 12

• A prioritised list of clinical domains for clinical quality registry development

Question 13

What is ADNeT collecting data for, that will hopefully change the standard of care?

Answer 13

• Dementia

Question 14

What is the vision of ADNeT?

Answer 14

• To incorporate all diagnostic settings and services for dementia in Australia, and register the entire population of persons newly diagnosed with either dementia or MCI, and in doing so, systemically drive improvements and quality of care and patient outcomes.

Question 15

What is the primary aim of ADNeT?

Answer 15

• To collect and analyse data to monitor and enhance the quality of care and patient outcomes for people diagnosed with dementia or MCI.

Question 16

What is the secondary aim of ADNeT?

Answer 16

• To facilitate recruitment of participants into research projects, and establish a resource to facilitate further study into the risk factor for, and trajectory of dementia and MCI in Australia

Question 17

What are the three different types of data collection source for the CQIs?

Answer 17

• Participating sites (Patient demographic information, and baseline and follow-up clinical data)
• Registry participants and carers (if appropriate, and only following recruitment into the registry)
• Linkage with administrative datasets (information on aged care, hospitilisation etc)

Question 18

What is the primary endpoint from the ASPREE study?

Answer 18

• Death from any cause OR incident dementia OR persistent physical disability

Question 19

What were some examples of the secondary endpoints for the ASPREE study?

Answer 19

• cancer, cardiovascular events, death from any cause, dementia, depression, major hemorrhage, mild cognitive impairment.

Question 20

What is a heart failure hospitaliation endpoint defined as for the ASPREE study?

Answer 20

• Unplanned admission to hospital for greater than 24 hours where heart failure was the primary reason for admission

Question 21

What is the dementia endpoint defined as in terms of the ASPREE study?

Answer 21

• Adjudicated from 3MS, pharmacological and diagnosis data

Question 22

What % of the body’s energy at rest does the brain use?

Answer 22

• 20%

Question 23

What is the cerebral cortex responsible for?

Answer 23

Sensing, thinking, learning, emotion, consciousness, and voluntary movement.

Question 24

What is the amygdala responsible for?

Answer 24

Part of the limbic system involved in emotion and aggression.

Question 25

What is the cerebellum responsible for?

Answer 25

• Structure that coordinates of thigh muscle movement in balance

Question 26

What is the hypothalamus responsible for?

Answer 26

Part of the limbic system involved in learning and memory

Question 27

What is the medulla responsible for?

Answer 27

Regulating largely unconscious functions such as breathing and circulation.

Question 28

Approximately how many neurones does the adult human brain contains?

Answer 28

• Approximately 86.1 billion with 16.3 billion in the neocortex.

Question 29

How many synapses are contained in the neocortex, and how many synapses does each neuron receive?

Answer 29

Estimated 164 trillion synapses in neocortex, with each neuron receiving b/w 7,200 and 80,000 synapses

Question 30

At what time in development does the fetal brain resemble that of an adult brain?

Answer 30

• 9 months (at birth)

Question 31

What does the ectoderm form?

Answer 31

• Nervous system and skin

Question 32

What does the mesoderm form?

Answer 32

• Musculoskeletal, vascular and lymphatic systems, kidney and gonads.

Question 33

What does the endoderm form?

Answer 33

• Gastrointestinal tract, glands, lung, liver, pancreas.

Question 34

What occurs at the gastrula stage?

Answer 34

• Differentiation of cells information into three germ layers.

Question 35

What are the three main steps in the formation of the neural tube?

Answer 35

1. The notochord forms from mesoderm cells soon after gastrulation is complete.
2. Signals from notochord cause inward folding of ectoderm at neural plate.
3. Ends of the neural plate fuse and disconnect to form an autonomous neural tube.

Question 36

What is the notochord?

Answer 36

• A rod like structure in the middle of the embryo that secretes factors that provide position and fate information.
• by the end of 3 week gestation The notochord induces the formation of the neural plate from the ectoderm, which then folds and fuses to form the neural tube

Question 37

Which week of gestation does the neural tube separate from the ectoderm?

Answer 37

• By the end of week 4

Question 38

Which two main areas of the brain does the forebrain form at 5 weeks, and which brain structures are these as an adult?

Answer 38

• Forebrain forms the Telencephalon and Diencephalon at week 5
• Telencephalon forms the Cerebrum (hemispheres, cortex, white matter, basal nuclei) at adult
• Diencephalon forms the diencephalon (thalamus, hypothalamus, epithalamus) at adult

Question 39

Which two main areas of the brain does the midbrain form at 5 weeks, and which brain structures are these as an adult?

Answer 39

• Midbrain forms Mesencephalon at 5 weeks.
• Mesencephalon forms the midbrain (part of brainstem) at adult –> this is a confusing one haha

Question 40

Which two main areas of the brain does the hindbrain form at 5 weeks, and which brain structures are these as an adult?

Answer 40

• Hindbrian forms the Metencephalon and Myelencephalon at 5 weeks
• Metencephalon forms the Pons and cerebellum at adult
• Myelencephalon forms Medulla oblongata (part of brainstem)

Question 41

Does layer 1 of the cortex have lots of neurons?
What is the organisation of layer 2 and 3 of the human cortex?

Answer 41

• NO
• Does not have many neurons

2- - These are packed with neurons!
- Contain small sized neurons which are mainly inhibitory

Question 42

Are the small sized neurons in the cortex inhibitory or excitatory?

Answer 42

• They are inhibitory
• Exert an inhibitory tone on the excitatory neurons

Question 43

What do the inhibitory neurons play an important role in?

Answer 43

• Brain development

Question 44

Which type of neurons are present in layers 4 and 5 of the cortex?

Answer 44

• Excitatory neurons (larger neurons)

Question 45

What are the 6 general steps of the cellular and molecular processes occurring in neural development?

Answer 45

1. Proliferation
2. Migration
3. Aggregation
4. Differentiation
5. Circuit formation
6. Pruning and programmed cell death.

Question 46

What occurs in step 1 of the cellular and molecular processes occurring in neural development; Proliferation?

Answer 46

• Cell division to form billions of neurones.

Question 47

What occurs in step 2 of the cellular and molecular processes occurring in neural development; Migration?

Answer 47

• Movement of neurones from site of birth to Final Destination the brain.

Question 48

What occurs in step 3 of the cellular and molecular processes occurring in neural development; Aggregation?

Answer 48

• Adhesion of similar cells into specific brain structures.

Question 49

What occurs in step 4 of the cellular and molecular processes occurring in neural development; Differentiation?

Answer 49

• Neuronal commitment to become a particular type of new one for example inhibitory or excitatory neurones.

Question 50

What occurs in step 5 of the cellular and molecular processes occurring in neural development; Circuit formation?

Answer 50

• Growth of axons and dendrites followed by synapse formation (synaptogenesis)

Question 51

What occurs in step 6 of the cellular and molecular processes occurring in neural development; Pruning and Programmed cell death?

Answer 51

• Loss of extra synapses on neurones.

Question 52

When does pruning and cell death occur, and which condition does this NOT occur in?

Answer 52

• When the synapses are no longer used
• This doesn’t occur in conditions like Autism

Question 53

What is symmetrical division in terms of neuronal proliferation, differentiation and migration?

Answer 53

• Symmetrical cell division: Progenitor cells are like the parent cells. Neuronal precursor cells can continue to produce many more precursor cells, or they can go and create glial cells (cell proliferation at the ventricular zone).

Question 54

What is asymmetrical division in terms of neuronal proliferation, differentiation and migration?

Answer 54

Asymmetrical division: two daughter cells produced with different cell fates.
- In this context: Can produce more progenitor cells of neuronal lineage or generate percursor cells that are astrocyte lineage or precursor cells that go onto become oligodendrocytes.

Question 55

What can neural epithelial cells go onto form?

Answer 55

• Radial glial cells or intermediate progenitor cells that can then go onto form astrocytes, oligodendrocytes or neurones.

Question 56

What is meant by the “inside out” way of cellular distribution in terms of neuronal proliferation, differentiation and migration?

Answer 56

• Cells that are born first are packed into the deeper layers of the cortex and those that are born last are packed to the dorsal surface of the brain. This is what happens to the excitatory neurons- to form the different layers of the cortex.

Question 57

Are neuronal progenitors that are born first packed into the deeper layers or the surface?

Answer 57

• The cells that are born first are packed into the deeper layers of the cortex. This is known as the “inside out” way of cellular distribution.

Question 58

Which type of neuronal cells undergo symmetric cell division and why ?

Answer 58

• NPCs (Neuroepithelial cells)
• This is to produce initial pool of cortical progenitors that will later be ventricular radial glia cells (vRGCs).

Question 59

Which type of cells undergo asymetrical division?

Answer 59

• vRGCs (ventral radial glia cells)
• This is to generate another vRGC and nascent projection neuron. This will then migrate from VZ radially along the basal process of RGC into cortical plate.

Question 60

As neurogenesis occurs, what form of cell division are diverse subtypes of neurons generated?

Answer 60

• Through successive asymmetric division of RGCs.

Question 61

In which areas of the neocortex is tengential migration of interneurons observed?

Answer 61

• MZ (marginal zone), IZ (intermediate zone), SVZ (subventricular zone)

Question 62

What does the radial scaffold do after the neurogenic stages in the neocortex?

Answer 62

• Radial scaffold detaches from apical surface and vRGCs become gliogenic
• This means they generate astrocytes, or transform into ependymal cells.

Question 63

What is a reason for tangenial migration?

Answer 63

• There are no RGCs to help the new cells with migration so they migrate in a tangient direction

Question 64

Does the cerebral cortex contain BOTH inhibitory and excitatory neurons?

Answer 64

• YES

Question 65

Where are the excitatory neurons of the cerebral cortex born, and where do they end up?

Answer 65

• Born in Ventricular zone (VZ)
• Generate excitatory neurons which migrate to dorsal surface to then be packed down

Question 66

Where are the inhibitory neurons of the cerebral cortex generated and where do they end up?

Answer 66

• Born in the ganglionic eminence (different migration pattern- migrate to L2 and L3 of cortex- they SWIM!)
• They move tangiently up the cortex from layers 2 and 3

Question 67

Which type of neurons swim and move tangiently up the cortex from layers two and 3 (inhibitory or excitatory)?

Answer 67

• Inhibitory

Question 68

Does brain development stop after birth?

Answer 68

• NO

Question 69

When do synaptogenesis and synaptic pruning mainly occur (before or after birth)?

Answer 69

• Mainly after birth

Question 70

What are the two main processes of neural development?

Answer 70

• Prenatal development
• Postnatal development

Question 71

What are the two sub areas of prenatal development?

Answer 71

1. Embryonic
2. Fetal

Question 72

What is characteristic of the embryonic stage of prenatal development in terms of:
- when in pregnancy it occurs
- what arises in that time?

Answer 72

• Occurs within the first 8 weeks of pregnancy
• The primordium of the CNS arises–> development of the neural tube and formation of 3 vesicles
• majority of the congenital abnormalities occur during this period

Question 73

What is characteristic of the fetal phase of prenatal development?

Answer 73

• Characterised by growth (40x increase in brain weight)
• Appearance of sulci and gyri on cerebral surface

Question 74

What are the two sub areas of postnatal development?

Answer 74

1. At birth
2. Infant

Question 75

At birth, what does the gross anatomy of the CNS resemble?

Answer 75

• An adult

Question 76

At birth, are the repertoire of neurons of the neocortex largely established?

Answer 76

• YES

Question 77

Which three main events occur at the infant stage of postnatal development?

Answer 77

• Massive outgrowth of dendrites and axons
• Synaptogenesis, gliogenesis , myelination.
• Neurogenesis in cerebellum still occurring. I seriously

Question 78

What are the structural changes that occur in the adolescent brain? (3 things)

Answer 78

• Reduction in grey matter of neocortex- pruning of synapses.
• Increases in white matter- increased myelination and connectivity.
• Axonal sprouting and growth in circuits in the amygdala and cortex.

Question 79

What are the behavioural changes in the adolescent brain? (6 things)

Answer 79

• Increase social behaviour.
• Novelty in sensation seeking.
• Tendencies toward risk taking.
• Emotional instability
• Impulsivity
• Dominance of peer relationships.

Question 80

What is the critical period in neural development defined as?

Answer 80

• A period in brain development when neural circuits responsible for a particular process can be sculpted or changed radically by experience or by the environment.

Question 81

When do the critical periods for cortical regions devoted to vision and other senses open and close in?

Answer 81

• They open in infancy (technically birth but peaks at infancy) and close tightly in mid childhood

Question 82

When do the critical periods for cortical regions devoted to language and higher concentration open and close?

Answer 82

• Open later than senses (late infancy) and never close entirely

Question 83

What are the successive waves for sensitivity to learning ideal for?

Answer 83

• Aquiring increasingly complex skills

Question 84

What is a good example of the critical period?

Answer 84

• If the child has a lazy eye, then you can patch the good eye and try to enhance the stimulation to the lazy eye. BUT once the critical period is over, then you can no longer do this. If children are exposed to new languages in infancy, then they are much more able to pick up languages easily (this closes in childhood). Cognitive function opens up much later in childhood.

Question 85

What is the definition of NDD?

Answer 85

• Neurodevelopmental disorders
• A group of psychiatric illnesses that is the result of abnormal brain development.

Question 86

What are the causes of NDDs?

Answer 86

• Deficits in neurogenesis, progenitor cell proliferation, migration, synapse formation and myelination during embryogenesis.

Question 87

What do symptoms of an NDDs include?

Answer 87

• Disabilities in cognitive, social, motor and affective function.

Question 88

When is impairment of an NDDs usually detected?

Answer 88

• At birth, during infancy and sometimes adolescence.

Question 89

Is there both a genetic and environmental components NDDs?

Answer 89

• YES

Question 90

Are most and NDDs highly heritable?

Answer 90

• YES
• Generally polygenic (de novo mutations of multiple genes)

Question 91

What are two examples of monogenic NDDs?

Answer 91

• Angelman’s (ubiquitin ligase UBE3A) and Fragile X syndromes (FMRP)

Question 92

During embryonic and early postnatal development, What does GABA excite (depolarise) postsynaptic targets due to?

Answer 92

• This is due to the HIGH intracellular [Cl-] in the developing brain

Question 93

What is the GABA induced current crucial for?

Answer 93

• Crucial for generating synchronised patterns of activity of developing networks that are fundamental to the maturation of neuronal circuits.

Question 94

TRUE OR FALSE: The day synchronisation in spontaneous network activity coincides with increasing influence of sensory experience whereby external signals compete with internally generated activity to shape synaptic connectivity.

Answer 94

• TRUE

Question 95

Doe GABAergic neurons switch from excitatory to inhibitory at birth, and if so, why is this thought to occur?

Answer 95

• YES
• Thought to PROTECT neurons from hypoxia and ischaemic damage during delivery

Question 96

What may contribute to NDDs?

Answer 96

• Alterations in the ratio of excitatory to inhibitory cortical activity.

Question 97

With current research, what is NDD defined as in terms of ASD and Schizophrenia?

Answer 97

• The failure of homeostatic mechanisms to ‘regularise’ activity

Question 98

What is the esitmated prevalence of ASD worldwide?

Answer 98

• 1 in 100 people

Question 99

Is ASD more prevalent in males or females?

Answer 99

• Males

Question 100

At what age are the core symptoms of ASD detectable?

Answer 100

• before 3 yoa

Question 101

What are the two core symptoms of ASD?

Answer 101

1. Persistent deficits in social communications
2. Restricted and fixated interests
   - Also social impairment

Question 102

What are some examples of behavioral symptoms of ASD?

Answer 102

• Anxiety
• Hyperactivity
• Agitation
• Impulsivity
• Aggressive behaviour

Question 103

What are some examples of functional symptoms of ASD?

Answer 103

• Sensory hypersensitivity
• Seizures
• Gastrointestinal disorders

Question 104

Which 3 conditions does autism spectrum disorder encompass under its umbrella?

Answer 104

• Aspergers syndrome
• Autistic disorder
• Pervasive Developmental Disorder Not Otherwise Specified (PDD-NOS)

Question 105

What is aspergers syndrome characterised by?

Answer 105

• No delay in language and cognitive dev
• Difficulties in social interaction
• Development of restricted and repetitive patterns of behaviour, interest and activity

Question 106

What is autistic disorder characterised by?

Answer 106

• Significant language delays
• Impairment in social interaction
• Restricted repetitive and stereotyped pattern of behaviour, interest, and activity.

Question 107

What is PDD-NOS characterised by?

Answer 107

• Symptoms similar to Autistic disorder BUT the criteria for autistic disorders is NOT met due to LATE AGE ONSET

Question 108

What do 95% of ASD patients with no intellectual disability have a phenotype of?

Answer 108

• Motor disorder
  e.g. Posture and muscle tone dysfunction, problems with fine manipulation, dyscoordination

Question 109

What are the two main diagnosis classifications for ASD?

Answer 109

1. Diagnostic & Statistical Manual of the American Psychiatry Association (DSM)
2. International Classification of Diseases of the World Health Organisation (ICD)

Question 110

What are the two symptoms for the diagnosis of ASD via the Diagnostic & statistical Manual of the American Psychiatry Association (DSM)

Answer 110

1. Persistent deficits in social communication / social interaction.
2. Restricted, repetitive behaviours, interests and activities.

Question 111

What are the two symptoms for the diagnosis of ASD via the . International Classification of Diseases of the World Health Organisation (ICD)?

Answer 111

1. Abnormal development of receptive/expressive language.
2. Impaired development of selective social attachments/reciprocal social interaction.
3. Markedly restricted repertoire of activity and interest

Question 112

Is the ICD set out to classify ALL neurological diseases?

Answer 112

• YES

Question 113

What are the two main areas that biomarkers for ASD can be found?

Answer 113

1. Neuroimaging (brain)
2. Plasma

Question 114

What are the three types of biomarker for ASD that can be found/measured via neuroimaging?

Answer 114

1. Volumetric analysis (regional, cortical volume- thickness or SA)
2. Connectivity (fibre tract measurements)
3. Functional- fMRI, eye tracking–> tend not to make eye contact with a lack of social connectivity

Question 115

What are the three types of biomarker for ASD that can be found/measured via the plasma?

Answer 115

1. Abnormal levels of BDNF - brain derived neurotrophic factor in blood of ASD children.* (still no concrete evidence for this)
2. Decreased night time production of melatonin- as there is a high rate of sleep distrurbance
3. Altered components of metabolic (creatinine kinase, lactate dehydrogenase) and inflammatory (cytokines IL-1b, IL-4 levels) pathways

Question 116

Are the ASD measurements for plasma biomarkers such as cytokine levels selective for ASD, and is this a good biomarker?

Answer 116

• NO
• could also be due to brain trauma or neurodegenerative diseases.
• Thus NOT a good biomarker for ASD

Question 117

What are 5 possible regions as to why there is early brain enlargement in ASD children?

Answer 117

1. Increased number, size and myelin content of glial cells, increased neuronal dendrites and axons as a result of decreased pruning
2. Increased cortical thickness and folding in the parietal lobe.
3. Decreased GABAa receptor expression in superior frontal and parietal cortices.
4. Abnormal columnar structure in the neo cortex.
5. Hypometabolism in the frontal origins.

Question 118

What are the 4 main neuropathologies that occur in ASD as time goes on?

Answer 118

1. Early brain enlargmeent in ASD children
2. Increased brain volume disappears around aged 6-8 due to abnormal slowness in brain growth.
3. Abnormalities in limbic structures in older individuals including hippocampus amygdala and cingulate cortex – reduction in volume and smaller neurons that are more densely packed.
4. Cerebellar abnormalities – decreased volume, reduced number and size of the perkinje cells.

Question 119

Which three main areas of the brain does the cerebellum have very intricate connections with?

Answer 119

• Libmic areas
• sensorimotor corticies
• prefrontal and parietal association corticies

Question 120

What is an example of a limbic area of the cerebellum in the brain and what is it responsible for in the context of ASD?

Answer 120

• POSTERIOR VERMIS:
• Affective dysregulation
• Social processing deficits
• Irritability

Question 121

What is an example of the sensimotor corticies area of the cerebellum in the brain and what are they responsible for in the context of ASD?

Answer 121

1. Anterior lobe:
   - stereotyped and repetitive behaviours
   - Motor impairments
2. VIIIA & VIIIB:
   - stereotyped and repetitive behaviours

Question 122

What is an example of the prefrontal & parietal association cortices area of the cerebellum in the brain and what are they responsible for in the context of ASD?

Answer 122

Right Crus I & II:
- Language deficits
- Social cognition deficits.
- Theory of mind deficits.
- Face processing impairment.
- Imitation impairments
- Stereotyped and repetitive behaviours.

Question 123

Cerebellum is initially known to be involved in fine motor control (balance), so why are we using it to detect abnormalities in measuring the decrease in volume, number and size of purkinje cells (major cells within the cerebellum)? (In terms of ASD)

Answer 123

• cerebellum has very intricate connections with different levels of the limbic system, sensory motor cortices, prefrontal and parietal association cortices
• This connectivity and neuronal circuitry from the cerebellum to limbic regions and to pre frontal and parietal cortex plays an important role in regulating social interaction and repetitive behaviour, as well as regulating language and social cognition.

Question 124

Are columnar structures more packed in the control subjects or ASD subjects and what does this suggest?

Answer 124

• Columnar structures are MORE PACKED TOGETHER in the ASD subjects compared to controls (L3, III)
• Suggests that there are issues with the process of development of the brain such that it is haltered or slowed in the processes during early infancy (increase in synaptic connectivity and increase in brain volume, not sustained)

Question 125

In the later stages of life, is the brain volume increased or decreased in kids with ASD?

Answer 125

• It is DECREASED in the later stages of life.

Question 126

What do layers 2 and 3 of the neocortex have a lot of?

Answer 126

• Neuronal conenctivity

Question 127

Which layers of the neocortex are GABAergic neurons that exert a tonic inhibitory tone on excitatory neurons present in?

Answer 127

• Layers 4, 5, and 6

Question 128

Why are the neurons of the neocortex arranged in a columnar structure?

Answer 128

• Because progenitor neurons are produced in the VZ and climb up the glial cell surface and then get laid in the different layers
• so in short, due to the gial cells

Question 129

What is an example of morphological changes in the ASD brain?

Answer 129

• the columnar structures
• These are more packed together in ASD kids than controls.
• Present in layer 3 (L3)

Question 130

Is ASD a mono or polygenic disorder?

Answer 130

• Polygenic

Question 131

Are ASDs highly heritable?

Answer 131

• YES around 90%

Question 132

Has there been any success with identifying any chromosomal regions linked with ASDs?

Answer 132

• NO

Question 133

What are examples of some ASD susceptibility genes?

Answer 133

• Scaffold proteins (SHANK2 &3)
• Adhesion molecules cadherins
• GABA receptor subunits
• Voltage gated cCa2+ channel subunits
• Regulators of chromatin remodeling (MSCP2, CHD8)
• Proteins involved in synapse formation (Neurexins and neuroligins)

Question 134

Are any SNPs identified with ASD high or low risk?

Answer 134

• Large number identified but they are all low risk

Question 135

What are CNVs and can they be linked to ASDs?

Answer 135

• de novo copy number variants (CNVs) are spontaneuous duplciation or deletion of genetic material
• functional gene sets involved in cellular proliferation, projection and motility
  e.g. 15q11.13 deletion may be associated with autism (its duplication is Angelman syndrome)

Question 136

What is the “Common disease-common variant” hypothesis in terms of ASD diagnosis?

Answer 136

• Many variants of small effect contribute to the tipping the person over the threshold to ASD diagnosis (basically there are many factors, that when combined, can pass the threshold required for ASD to develop)

Question 137

What are the 4 major risk factors for ASD?

Answer 137

1. Infection/Immune dysfunction
2. Endocrine factors
3. Obstetric factors
4. environmental factors

Question 138

What is involved in infection/immune dysfunction in terms of risk factors for ASD?

Answer 138

• CSF of ASD children contains atypical levels of autoantibodies to neural antigens and inflammatory cytokines
• Maternal infection during the critical period of early neuro-development possibly. (Fetus may have been exposed to some sort of maternal infection during development)

Question 139

What is involved in endocrine factors contributing/being a risk factor for ASD?

Answer 139

• Maternal stress: intrauterine exposure to cortisol and thyroxine

Question 140

What is involved in obstetric factors contributing/being a risk factor for ASD?

Answer 140

• Low birth weight, preterm/caesarean delivery, uterine bleeds possibly

Question 141

What is involved in environmental factors contributing/being a risk factor for ASD?

Answer 141

• Maternal exposure to prescription medication, illicit drugs, heavy metals (mercury), environmental toxins (pollution), cigarette smoke

Question 142

What are the three main theories of ASD?

Answer 142

1. Impeded plasticity
2. Excitation and inhibition dysregulation.
3. Theory of mind.

Question 143

What is the impeded plasticity theory of ASD?

Answer 143

• Abnormal regulation of cell division and apoptosis.
• Early Overgrowth of brain structures e.g. the frontal cortex, amygdala and cerebellum.
• Hyper- followed by hypo- neuronal connectivity.

Question 144

What is the excitation and inhibition dysregulation theory of ASD?

Answer 144

• Imbalance of glutamatergic and gabaergic synapses.
• ASD patients are susceptible to development of epileptic seizures.

Question 145

What is the theory of mind theory of ASD?

Answer 145

• The capacity to understand subjective mental States including thoughts and desires is known as theory of mind (ToM)
• ToM develops early in children without disabilities but is delayed in children with ASD. (Kids with ASD have a disconnect with the thoughts of others)

Question 146

What is the main role of oxytocin in pregnancy?

Answer 146

Inducing labour

Question 147

What is the specific role of oxytocin in labour?

Answer 147

• Mediates sudden short lasting reduction in [Cl-] to facilitate the shift which protects neurons from anoxic episodes (so protects neurons from lack of O2)

Question 148

What are the GABAergic signals like during development in terms of ASD?

Answer 148

• They shift from “depolarisation and excitation” to “hyperpolarisation and inhibition” as a result of reduction in intracellular [Cl-]

Question 149

Does Oxytocin also play an important role in social behaviour?

Answer 149

• YES

Question 150

Do ASD children have higher or lower baseline levels of oxytocin?

Answer 150

• Kids with ASD have lower than baseline levels of Oxytocin (OXY)

Question 151

Has intranasal Oxytocin been trialed as a therapy for the core symptom of ASD?

Answer 151

• YES

Question 152

What are the four types of ASD intervention models?

Answer 152

1. Discrete trial training.
2. Naturalistic interventions
3. Learning experiences: an alternative program.
4. Early start Denver model.

Question 153

What is involved in the discrete trial training intervention model of ASD (behavioral treatment)?

Answer 153

• Breakdown of complex skills by teaching each subskill in a series of highly-structured teaching trials, also known as early intensive behavioral intervention if delivered before 5 years of age.

Question 154

What is involved in the Naturalistic interventions of ASD (behavioral treatment)?

Answer 154

• Embedding teaching into naturally occurring events. E.g. Play, meal time, can address communicated functions and peer interactions.

Question 155

What is involved in the Learning experiences: an alternative program of ASD (behavioral treatment)?

Answer 155

• Integration of ASD preschoolers with typically developing peers but with individualized curriculum to incorporate ASD’s idiosyncratic needs, promotion of social interactions and extensive parent training.

Question 156

What is involved in the Early Start Denver Model of ASD (behavioral treatment)?

Answer 156

• Individualised interventions in consultation with caregiver, therapist, specialist and teaching occurs inside and outside family routines.

Question 157

What are examples of skill based models for ASD?

Answer 157

• Functional communication training, positive behaviour support, self-management, speech generation.

Question 158

What are examples of the most common ASD treatments?

Answer 158

• Antipsychotics to treat aggression/irritability e.g. Haloperidol
• Stimulants to treat hyperactivity/inattention

Question 159

What are examples of some factors being trialed for the treatment of ASD?

Answer 159

• IGF-1 growth factor acting on IGF-1R to allow for Improved social and repetitive behaviour
• Oxytocin to improve social behaviour
• Small molecules

Question 160

What are the three main attributes that are good animal model should possess in terms of ASD?

Answer 160

• Construct validity
• Face validity
• Predictive

Question 161

What is predictive validity?

Answer 161

• A measure of how well an animal model can be used to predict unknown aspects of the disease.

Question 162

What is construct validity?

Answer 162

• A measure of how well the mechanism used to induce the disease phenotype reflects the currently understood disease etiology.

Question 163

What is face validity?

Answer 163

• A measure of how well the model is able to replicate the disease phenotype.

Question 164

What are the three types of animal models for ASD (big picture)?

Answer 164

• Neonatal lesions
• Maternal intervention
• Genetic models

Question 165

What do the neonatal lesion animal models include for ASD (i.e. which part of the brain and what the abnormality is)?

Answer 165

• Amygdala (dysfunction in amygdala linked to ASD behaviours)
• Cerebellum (Abnormalities (loss of Purkinje cells) detected in ASD patients)
• Medial prefrontal cortex – (social deficits, Overgrowth of mPFC pronounced in ASD patients.)

Question 166

What do the maternal intervention animal models include for ASD (i.e. what is the effect)?

Answer 166

• Prenatal the poet acid exposure- mechanistically affect the epigenome at critical development stages.
• Prenatal exposure to infection – borna disease virus.

Question 167

What do the genetic animal models include for ASD (i.e. what is the effect)?

Answer 167

• BNDF overexpression
• Fragile X mental retardation (FMR) 1 gene KO
• GABARb3 subunit KO
• MeCP2 (transcriptional repressor) KO
• Neuregulin (cell adhesion molecules) KO
• OXT, OXTR KO (Oxytocin, Oxytocin Receptor knock out)

Question 168

What does BNDF overexpression result in, in terms of ASD genetic animal models?

Answer 168

• high seizure susceptibility, anxiety and depressive – like behaviour but no deficits in social behaviour.

Question 169

What does Fragile X mental retardation (FMR) 1 gene KO result in, in terms of ASD genetic animal models?

Answer 169

• Decrease in social interaction, increased repetitive behaviours, anxiety, hyperactivity, decreased spatial learning.

Question 170

What does GABARb3 subunit KO result in, in terms of ASD genetic animal models?

Answer 170

• Seizure susceptibility, hyperactivity, stereotyped behaviour, learning and memory deficits, impaired social interaction.

Question 171

What does MeCP2 (transcriptional repressor) KO result in, in terms of ASD genetic animal models?

Answer 171

• Increased anxiety, decreased motor coordination, impaired social interactions and learning and memory.

Question 172

What does Neuregulin (cell adhesion molecules) KO result in, in terms of ASD genetic animal models?

Answer 172

• Mutations in NLGN3 4 associated with ASD.

Question 173

What does OXT, OXTR KO (Oxytocin, Oxytocin Receptor knock out) result in, in terms of ASD genetic animal models?

Answer 173

• Oxytocin has a key role in social interactions and recognition.

Question 174

Is schizophrenia a disorder or a syndrome?

Answer 174

• Schizophrenia is a syndrome as it is a set of medical signs and symptoms that are associated with each other.

Question 175

What do the positive symptoms of schizophrenia include?

Answer 175

• Paranoid delusions
• Hallucinations
• Thought disorder- disorganised speech and behaviour

Question 176

What do negative symptoms of schizophrenia include?

Answer 176

• Diminished emotional expression and reaction.
• Diminished participation in interpersonal relationships.
• Loss of energy, drive and interests
• inertia and apathy
• Poverty of speech

Question 177

Is there a single defining symptom or sign of schizophrenia or any diagnostic laboratory test?

Answer 177

• NO
• It is a heterogenous syndrome (no identifiable diagnostic test)

Question 178

Which observable signs is schizophrenia defined by?

Answer 178

• Observable signs of psychosis.

Question 179

Is schizophrenia a disorder of the mind or an imbalance of the brain chemistry?

Answer 179

• It was initially thought of as a dopamine imbalance (dopamine hypothesis). Use of neuroleptic drugs, chlorpromazine and haloperidol with DA2 receptor antagonist activity (blocking the dopamine receptor).

Question 180

In what age range does schizophrenia peak in?

Answer 180

• Peeks around the age of 18 to 25 years (2nd to 3rd decade of life)

Question 181

Like ASD, is schizophrenia a highly heritable disorder?

Answer 181

• Yes

Question 182

In children with early onset schizophrenia, what changes are seen in the brain?

Answer 182

• Excessive loss of grey matter and cortical thinning detected by neuroimaging.

Question 183

Do people have schizophrenia have a shorter Lifespan, and why is this/this not the case?

Answer 183

• Yes they do have a shorter lifespan, with the main cause being due to suicide early on and CVD later in life

Question 184

Is schizophrenia slightly more frequently in males or females?

Answer 184

• Schizophrenia is slightly more frequently in males and females with a 4:1 ratio

Question 185

is Schizophrenia more severe in males or females?

Answer 185

• More severe in males

Question 186

What are the four main categories of symptoms in schizophrenia?

Answer 186

1. Positive symptoms (fluctuates)
2. Negative symptoms (fluctuates)
3. Cognitive symptoms (stable)
4. Mood symptoms

Question 187

Do positive symptoms of schizophrenia fluctuate or they stable?

Answer 187

• They fluctuate

Question 188

Do negative symptoms of schizophrenia fluctuate or are they stable?

Answer 188

• They fluctuate

Question 189

Do cognitive symptoms of schizophrenia fluctuate or are they stable?

Answer 189

• They are stable

Question 190

What do the cognitive symptoms of schizophrenia include?

Answer 190

Deficits in working memory/attention/executive function.
- Difficulty in understanding subtle interpersonal cues.

Question 191

What do mood symptoms of schizophrenia include?

Answer 191

• Depression is common, off and cheerful/without reason.

Question 192

What is the schizophrenia diagnosis according to the diagnostic and statistical manual of the American psychiatry Association (DSM)?

Answer 192

At least two of the following symptoms of:
- Delusions
- Hallucinations
-Disorganised speech
- Catatonic behaviour
- Negative symptoms
At least one of the symptoms must be delusions/hallucinations/disorgansied speech and signs of disturbance must persist for at least 6 months and ACTIVE SYMPTOMS must be experienced for at least 1 month. The problems must not be caused by other conditions.

Question 193

What is the schizophrenia diagnosis according to the International Classification of Diseases of the World Health Organisation (ICD)?

Answer 193

• Abnormality in perception/expression of reality – difficulties in distinguishing real/unreal experiences, logical thoughts and normal emotional responses.
• Retreat from reality with the delusion formation, emotional disharmony and regressive behaviour
• Disturbance in cognition and psychomotor function

Question 194

Are children born in the winter at an increased risk of developing schizophrenia?

Answer 194

• Yes

Question 195

What is the two-hit hypothesis in terms of schizophrenia?

Answer 195

• Person who goes onto develop schizophrenia has two waves of environmental factors/trauma that lead onto them developing schozophrenia.
• A lot of the occurrences of symptoms can occur through adverse events.
• Just when you think you have handled something well, you can undergo some adverse psychological event which can bring on symptoms again (‘booster hits’)

Question 196

What are some examples of first wave hits in the two-hit hypothesis for schizophrenia?

Answer 196

• Infections and/or trauma.
• Malnutrition
• These can occur in utero and infancy

Question 197

What are some examples of second wave hits in the two-hit hypothesis of schizophrenia?

Answer 197

• Urban rearing
• Migration (these first two occur during childhood)
• Social isolation
• Drug abuse
• Stress (these three occur in adolescence)

Question 198

What are some examples of booster hits in the two-hit hypothesis of schizophrenia?

Answer 198

• These are types of adverse events
  e.g.
• Psychomotor and mood disruption.
• Impaired neural recognition/social cognition.
• Positive and negative symptoms.
• Disorganisation of speech, thought and behaviour.

Question 199

Why is schizophrenia a neurodevelopmental disorder?

Answer 199

• Because during the first wave (no early signs or symptoms), the brain is still developing. Neurogenesis is occurring, formation of synapses etc. So it is not surprising that we can classify it as a neurodev disorder. Later on the second hit (higher risk stage, prodormal stage) and you see the brain is still undergoing development, circuit development, synaptic pruning still occurring. Hence since the brain is still undergoing differenet processes, we can identify schizophrenia as neurodevelopmental.

Question 200

What are the three different stages of schizophrenia?

Answer 200

• Latent- pre morbid stage
• High-risk, prodome stage
• Chronic, fluctuating, non linear stage

Question 201

What are some events occurring in terms of brain formation as part of the latent, pre-morbid stage of development of schizophrenia?

Answer 201

• Neurogenesis
• Neuronal proliferation, migration and differentiation.
• Synaptogenesis
• Gliogenesis
• Sub – cortical myelination.

Question 202

What are some events occurring in terms of brain reorganisation as part of the High-risk, prodome stage of development of schizophrenia?

Answer 202

• Cortical myelination
• Dendritic arborization
• Circuit plasticity
• Synaptic pruning
• Sexual maturation

Question 203

What are some events occurring in terms of Brain upkeep as part of the chronic, fluctuating, non-linear stage of development of schizophrenia?

Answer 203

• Cerebral housekeeping
• Glial support
• Neuroprotection and/or neuro restoration.
• Myelin repair

Question 204

In terms of the shcizophrenia timeline and three main stages for neuronal development, where is the window of opportunity to try and decrease transition and impede progession of schizophrenia?

Answer 204

• Age 15-27
• This is During the High risk, prodome stage and falls slightly into the chronic fluctuating stage (but mainly high risk prodome)

Question 205

Is the cortex in people who go onto develop schizophrenia thinner or thicker?

Answer 205

• It is thinner, particularly the prefrontal cortex area

Question 206

In which stage of schizophrenia risk and development (altered excitation-inhibitory balance) does cortical thinning occur?

Answer 206

• Stage I: At risk, people who are <12 years of age

Question 207

What are the two main stages involved in altered excitatory-inhibitory balance in terms of Schizophrenia?

Answer 207

• Stage I: At risk (<12 years)
• Stage II: Psychosis (18-24 years)

Question 208

What occurs in stage III: psychosis in the brain, regarding the altered excitatory-inhibitory balance graph of schizophrenia?

Answer 208

• Decrease in interneuron activity

Question 209

What three main things are thought to contribute to the development of Schizophrenia in terms of brain changes?

Answer 209

1. Decrease in excitation
2. Decrease in inhibition (reduction in interneuron activity)
3. Reduction in cortical thickness

Question 210

Neurodevelopmental disorders such as Schizophrenia are from an imbalance of _____ and _____ in the ______.

Answer 210

• Neurodevelopmental disorders such as schizophrenia from an imbalance of EXCITATION and INHIBITION in the CORTICAL REGION.

Question 211

What can the reduction in cortical thickness be attributed to in Schizophrenia?

Answer 211

• Decreases in excitatory synapse due to excessive excitatory pruning.

Question 212

What are three main neurochemical changes that occur in Schizophrenia as the person ages?

Answer 212

1. Neuroinflammation/immune dysregulation
2. Aberrant subcortical and/or cortical myelination (oligodendrocyte dysfunction)
3. Anomalous epigenetic programming

Question 213

In terms of the neurochemical changes in Schizophrenia graph, what is thought to contribute to the increased susceptibility in developing schizophrenia?

Answer 213

• The differences in glutaminergic neurotransmission as well as GABAergic neurotransmission which leads to the disruption in the excitatory/inhibitory (E-I) balance, that in the prefrontal cortex as well as in the hippocampus

Question 214

Which proteins are associated with synapse formation, and circuitry formation (in context of Schizophrenia)?

Answer 214

• DISC1 (more detail later in at risk genes)
• Reelin (structural protein)
• SHANK3 (structural protein)
• Neurexin and neuregulin (synapse formation)

Question 215

Which protein networks are dysregulated in Schizophrenia?

Answer 215

• DISC1 (more detail later in at risk genes)
• Reelin (structural protein)
• SHANK3 (structural protein)
• Neurexin and neuregulin (synapse formation)

Question 216

What are three of the main neuropathologies found in schizophrenia?

Answer 216

• Reductions in total grey and white matter and overall whole brain volume.
• Abnormalities in striatal connectivity to the prefrontal cortex linked to the positive and negative symptoms.
• Executive dysfunction associated with abnormalities in the dorsolateral prefrontal cortex, anterior cingulate cortex and inferior parietal lobe.

Question 217

What are the 2 stages of the risk factors for schizophrenia?

Answer 217

1. Prenatal/perinatal events
2. Premorbid risks

Question 218

What are 4 things that the prenatal/perinatal events for schizophrenia (in terms of risk factors) includes?

Answer 218

• Maternal nutrition – increased incidence following famine.
• Maternal infections – Increased incidence following influenza epidemic.
• Maternal adverse life events.
• Labour-delivery complications.

Question 219

What are 4 things that the premorbid risks for schizophrenia (in terms of risk factors) includes?

Answer 219

• Social adversities- physical and sexual abuse, neglect, bullying.
• Drug abuse – amphetamine, cocaine use.
• Urban environment
• Migrant status (detachment, neglect- migrants more likely to have schizophrenia)

Question 220

What is the lifetime risk of schizophrenia for monozygotic twins?

Answer 220

• 50%`

Question 221

What is the lifetime risk of schizophrenia for children of two affected parents?

Answer 221

• Just under 30%.

Question 222

At least how many genes have a strong genetic linkage and a highly polygenic in terms of schizophrenia?

Answer 222

• At least 20 genes, with a heritability of 64-81%

Question 223

What are 4 out of 108 examples of chromosomal loci identified through GWAS studies that may be linked to Schizophrenia?

Answer 223

• Neuregulin, chromosome 8
• MHC region, chromosome 6p21.3-22.1
• ZNF804A, chromosome 2q32.1
• TCF4, chromosome 18q21.2

Question 224

Candidate gene studies for Schizophrenia identified 43 genes that confer an increased risk - SNPs and CNVs. What are three examples of genes that were identified?

Answer 224

• DISC1 (Disruption in Schizophrenia Copy)
• Neurexin
• Dopamine D2R, Glutamate R components

Question 225

Which is the best supported candidate gene for an increased risk of Schizophrenia and what is the abnormality in the gene?

Answer 225

• DISC1
• Chromosomal 1:11 translocation, rare variant that confers very HIGH risk

Question 226

What is the normal function of DISC1?

Answer 226

• Neurodevelopmental roles in regulating neuronal migration, neurite outgrowth and neuronal maturation, adults roles in modulation of cytoskeletal function, synaptic transmission and plasticity.

Question 227

What are the two types of pharmacological treatment for schizophrenia?

Answer 227

• Neuroleptic
• Atypical Anti-psychotic

Question 228

What are two pharmacological treatments for schizophrenia that are neuroleptic?

Answer 228

• Chloropromazine and Haloperidol
• DA2R antagonistic activity but not very selective

Question 229

What is a downside of neuroleptic pharmacological treatment for schizophrenia?

Answer 229

• Can cause extrapyramidal motor disabilities such as rigidity and involuntary tremors

Question 230

What do the atypical anti-psychotic medications include and what is the mechanism of action? (Schizophrenia)

Answer 230

• Second generatoin antipsychotics
• e.g. clozapine, risperidone, paliperidone
• They are thought to antagonise the DA2 receptors
• The exact mechanism of action is UNKNOWN
• Equally potent in blocking the 5HT2A receptors

Question 231

Do the atypical anti-psychotics for schizophrenia have an increased incidence of extrapyramidal side effects such as rigidity like the Neuroleptics?

Answer 231

• NO, they have a DECREASED incidence of these side effects

Question 232

What are the two main behavioural therapies used to treat Schizophrenia?

Answer 232

• Cognitive behavioural therapy
• Supportive psychotherapy

Question 233

What is the primary aim of CBT for the treatment of Schizophrenia?

Answer 233

• To reduce the impact of positive symptoms
• BUT not effective for all patients

Question 234

Should CBT be seen as a replacement for those on anti-psychotics for Schizophrenia?

Answer 234

• NO this should be seen as an additive treatment alongside antipsychotics

Question 235

What is the main aim of supportive psychotherapy in the treatment of schizophrenia?

Answer 235

• The aim is to help patients deal with loss, disability and stigma of living with schizophrenia.

Question 236

Where is the window of opportunity for Schizophrenia intervention to try and stop the progression and what is this known as?

Answer 236

• Teenagers and adults
• ‘hybrid’ strategy is a combination of symptom relief with reduced conversion to and progression of schizophrenia (and other psychiatric disorders)

Question 237

What are the three different broad categories for animal models for schizophrenia?

Answer 237

1. Pharmacological
2. Lesion
3. Genetic

Question 238

What are the limitations in the pharmacological animal models of schizophrenia?

Answer 238

-Suppression of neuroexcitatory receptors could lead to a whole range of differing symptoms that aren’t associated with schizophrenia.

Question 239

What are the limitations in the lesion animal models of schizophrenia?

Answer 239

• You can NOT model positive symptoms e.g. Hallucination and delusions because you can’t ask animals if they are hallucinating

Question 240

What are the limitations in the genetic animal models of schizophrenia?

Answer 240

• Limitations with the hallucinations and delusions and animals- can’t ask them if hallucinating etc.

Question 241

What is an example of the pharmacologocial animal model for Schizophrenia and what types of symptoms do they cause?

Answer 241

• NMDA R antagonist- PCP/ketamine
• Causes symptoms such as hyperlocomotion, enhanced stereotype behavior, cognitive and sensorimotor gating deficits, impaired social interactions.

Question 242

What is an example of the lesion animal model for Schizophrenia and what types of symptoms do they cause?

Answer 242

Neonatal lesion of the ventral hippocampus – hyperlocomotion, social and working memory deficits.

Question 243

What are 6 examples of the genetic models for Schizophrenia and what types of symptoms do they cause?

Answer 243

1. DISC 1 mutant mice (N/C terminal truncation)- some but not all symptoms including increased aggression, social deficits, contextual associative learning and short term memory deficits
   - Neureulin KO/knockdown- Some but not all symptoms including hyperactivity, impairment of contextual associative learning, increased aggression, social deficits.
   - NMDAR (NR1) knockdown
   - alpha7-Nicotinic R knockdown
   - Fisher344 rat
   - N-CAM 180 depletion