Practicals

Question 1

Describe the 4 types of neuroglia and their broad functions:

Answer 1

Astrocytes: anchor neurons and capillaries together; form BBB and regulate homeostatic environment

Microglia: specialised phagocytes to engulf dead tissue

Oligodendrocytes: produce myelin sheaths (wrap around)

Ependymal cells: line ventricles and involved in CSF secretion

Question 2

What is the meaning of this anatomical terminology?
Rostral-caudal
Dorsal-ventral
Coronal
Sagittal

Answer 2

Rostral-caudal plane (caudal = towards tail)

Dorsal-ventral

Coronal section (=ear to ear)

Sagittal plane (medial line section)

Horizontal plane (long D-V line)

Question 3

What do H&E and Nissl stains show?

Answer 3

H&E stain (principle in histology but not the best for brain):
- Haematoxylin = stains nuclei blue
- Eosin = stains cytoplasm pink

Nissl stains (including Cresyl violet):
- Stain nucleic acid (RNA)
- Show RER and ribosomes
- Do not stain axons

Question 4

What do lipid (e.g. LFB) and silver based stains show? What colours do they appear?

Answer 4

Lipid stains:
- Luxor fast blue (LFB)
- Show myelin sheath
- Do not stain cell bodies

Silver based (Golgi stain):
- Mark neurofilaments (dendrites)
- ‘Black reaction’

Question 5

What are some ways that neuronal morphology can be quantified?

Answer 5

Extent of dendritic tree:
- Sholl analysis (number of interactions between concentric circles and dendrites counted)

Number/size of dendritic spines:
- Minute analysis

Arborisation pattern:
- Size and distribution of branching

Sparse labelling in technicolour:
- Fluorescent colour specific to a circuit

Question 6

What are the principle layers of the hippocampus in CA1? Which cells are contained?

Answer 6

3 main layers (unlike neocortex 6):
- Stratum oriens = pyramidal cells and cell bodies of inhibitory interneurons
- Stratum pyramidale = cell bodies of pyramidal cells
- Stratum radiatum = Shaffer collaterals (incoming fibres)

Question 7

What are the 6 layers of the cerebral cortex?

Answer 7

Pyramidal cells = excitatory; non-pyramidal (stellate) = inhibitory

1. Molecular layer: axons/dendrites
2. External granular layer: interneurons
3. External pyramidal layer: small pyramidal cells. Axons project deeper and to other hemisphere via corpus callosum
4. Internal granular layer: small stellate cells (particularly prominent in visual ‘striate’ cortex)
5. Internal pyramidal layer: large pyramidal cells – corticofugal fibres to brainstem/spinal cord
6. Multiform layer: both stellate and pyramidal cells and connects to thalamus

Question 8

What is the main difference in cellular composition between the motor (M1) and somatosensory (S1) cortices?

Answer 8

• M1 contains giant pyramidal ‘Betz’ cells while somatosensory does not

Question 9

What is the Stria of Gennari?

Answer 9

Prominent internal granular layer seen in the visual cortex (V1).
- Full of stellate cells
- Seen as darker staining region under Luxol stain

Question 10

What is the role of immunohistochemistry? What are 3 benefits?

Answer 10

Allows ability to stain for a specific molecule or antigen.
- Uses primary antibody
- Secondary antibody with stain attached (e.g. fluorescing molecule)

Allows co-localisation of different proteins in the same neuron at the same time

Can be conducted live:
- Map transport
- Map circuitry

Question 11

What are anterograde and retrograde transport?

Answer 11

Anterograde: moved from cell body to axon terminals

Retrograde: from axon to cell body

Question 12

What is the CLARITY technique?

Answer 12

Studying intact structures with molecular resolution
- Making tissue ‘transparent’
- Removing fat and replacing with hydrogel matrix to support

Question 13

What is the space constant? How is it calculated?

Answer 13

Distance over which steady state potential decays to 1/e
- λ = sqrt(Rm/Ri)
- Affected by capacitance of membrane; diameter of axons; conductivity of fluid and temperature

Question 14

What order are somatosensory nerves lost during an ischemic nerve block?

Answer 14

• Order of loss = strength, touch, vibration, proprioception, pain and temp.
• Aα lost first, then Aβ, then Aδ
• Last to go are C fibres
• When only C fibres active labelled line coding shown (hot and cold both feed hot)

Question 15

How can you measure pressure and resolution threshold for somatosensation?

Answer 15

Pressure:
- Von Frey hairs (detection threshold)

Resolution:
- Closest distinguishable distance
- Nyquist theory

Question 16

What shape is the human visual field (for both eyes)? Think about representative diagram.

Answer 16

X-axis = degrees azimuth
y-axis = degrees in vertical plane

• Blind spots in the centre
• Nose blocks opposite side for each eye
• Eyebrows obscure top

Question 17

How could you work out the size of a retinal image based on the distance of the object focussed on?

Answer 17

x/d = y/e where:
x = vertical height of object (or dtan(α))
d = distance from focus point (lens) to object
y = height of image
e = Distance from focus point to retina (normally =17mm in human)

Question 18

How many μm is a degree on the retina? How much is a cone worth?

Answer 18

1 degree = 60 minutes = 300μm on retina

Single cone = 30 seconds = 2.5μm

Question 19

How many neurons, NMJs and chemical synapses does a C.Elegans have?

Answer 19

Neurons = 302
NMJs = 1500
Chemical synapses = 6400

Question 20

What stimuli can zebrafish detect? How can these responses be adapted?

Answer 20

• Startle
• Light/dark preference
• Thigmotaxis
• Habituation

Question 21

What sensory inputs and motor outputs can a C.elegans detect?

Answer 21

Inputs:
- Olfactory
- Gustatory
- Mechanical (touch, pain)
- Thermal

Outputs:
- Locomotion
- Feeding, defecation, egg-laying, mating

Question 22

What is the role of Shh in development?

Answer 22

Setting up dorsal-ventral axis
- Highest concentration at dorsal

Question 23

What is the role of radial glia in development?

Answer 23

• Provide surface for GCs to grow on
• Act as neural stem cells

Question 24

What are the roles of neural crest cells?

Answer 24

• SNS
• PNS (e.g. sweating)
• Cartilage
• Teeth
• Glial cells

Question 25

Which molecules set up the dorsal ventral notochord axis?

Answer 25

Ventral: BMPs
- Dorsalin
- Activin

Dorsal: Anti-BMPs:
- Chordin
- Noggin
- Follistatin
- (shh)

UV stops dorsal structures forming
Li stops ventral structures forming

Question 26

What is the role of Agrin?

Answer 26

• Anti Dispersal factor for scaffold proteins forming NMJ

Question 27

Name the main molecules providing a posterior-anterior identity:

Answer 27

Posterior = RA and FGF

Question 28

What is the optokinetic reflex? How does this differ from VOR?

Answer 28

• Nystagmus ‘saw tooth’ pattern showing eyes drift to follow target then jump back
• For slower movements
• Use fewer feedforward mechanisms

Question 29

How do you ensure experimentally that all muscle fibres are activated for a particular reflex?

Answer 29

• Gradually increase stimulating amplitude until response is no larger
• Suggests all fibres activated

Question 30

How can conduction velocity be worked out?

Answer 30

• Plot latency as a function of distance
• Gradient is conduction velocity
• Roughly 49m/s for ulnar nerve

Question 31

What is an H-wave and M-wave in a electromyogram? When does the H wave disappear?

Answer 31

M-wave = direct response of muscle due to stimulation of efferent motor fibres

H-wave = reflex response due to activation of afferent sensory fibres (muscle spindle)

H wave disappears when efferent fibre refractory period coincides with efferent stimulation (due to large depolarisation)

Question 32

How does MRI work? What about fMRI?

Answer 32

MRI:
- Hydrogen nuclei in water become aligned with direction of field
- Can differentiate grey and white matter

fMRI:
- Detects blood oxygenation and flow in response to neural activity
- Difference in magnetisation between oxy and deoxy haemoglobin
- Different BOLD signal

Question 33

How does a PET scan work?

Answer 33

• Tracer molecules labelled with positron emitting radionuclide
• Detected externally

Question 34

How does MEG/EEG work?

Answer 34

Measures synchronous electrical/magnetic signals from many neurons

MEG more expensive but better spatial resolution

Question 35

Name the 3 major sections of the hindbrain and 2 major forebrain sections:

Answer 35

Hindbrain:
- Medulla
- Pons
- Cerebellum

Forebrain:
- Diencephalon (hypothalamus, thalamus)
- Telencephalon (including BG, cerebral cortex)

Question 36

What are the major defining sulci of the brain (3)

Answer 36

• Central sulcus
• Sylvian Fissure
• Longitudinal Fissure

Question 37

What are the major layers of the retina from inside to outside?

Answer 37

• Choroid
• Pigmented layer
• Outer nuclear layer (rods/cones)
• Outer plexiform layer
• Inner nuclear layer (amacrine, horizontal and bipolar)
• Inner plexiform layer (ganglion)
• Ganglion cell layer

Question 38

What are the regions of the inner ear?

Answer 38

Organ of corti (bookended by tectorial and BM)

• Scala vestibuli
  Reissner’s membrane
• Scala media
• Scala tympani

Question 39

Where is a likely lesion if someone has Broca’s aphasia? Wernicke’s aphasia?

Answer 39

Broca’s: motor association cortex of frontal lobe = good comprehension; poor, afluent speech

Wernicke’s: posterior temporal lobe = poor comprehension but fluent speech (though nonsensical)