MICROANATOMY

Question 1

What is the nissil stain

Answer 1

• compromised of a basic dye (cresol violet) - stains the nuclei and nissil bodies of neurones

Question 2

What is the Golgi stain

Answer 2

• compromised of silver chromate solution - stains heroines and their projections

Question 3

What is the structure of prototypical neurone

Answer 3

1. cell body (soma)
2. axon
3. dendrites
   - dendrites receive synaptic input from other neurones

axon + dendrites = neurites

20 micrometres

Question 4

What are the names of neurones thr/ough number of projections

Answer 4

unipolar - one
bipolar - two
multipolar - 3

Question 5

How are dendrites classified

Answer 5

pyramidal - shape of pyramid
stellate - all over

Question 6

What are the classification of axon length?

Answer 6

Golgi type 1 - neurones that extend from one part of the brain to other (pyramidal cells)
Golgi type 2 - dont extend (Stellae)

Question 7

What does GAT do?

Answer 7

intake of GABA into presynaptic neurone from synapse

Question 8

What are glial cells?

Answer 8

support cells within the NS and can be classified into four categories based on structure
- astrocytes
- microglia
- ependymal cells
- ogligodendrocytes/schwann cells

Question 9

What are astrocytes

Answer 9

star-shaped glial cells that function to regulate the extracellular environment of the brain
e.g. enclosing synaptic junctions and actively removing neurotransmitters from synaptic cleft
- most numerous type of glial cells

Question 10

What are microglia

Answer 10

type of glial cells that function as phagocytes within the NS to remove neuronal and glial debris
- 5-15% of total CNS number
- distributes in brain and spinal cord

Question 11

What do microglia function in?

Answer 11

• phagocytosis of neuronal and glial debris
• synaptic connection remodelling via scavenging and removing unnecessary synapses
• directing neuronal migration during brain development

Question 12

what are ependymal cells

Answer 12

type of glial cells that provide the lining of the ventricular system of both the brain and spinal cord

Question 13

What are the function of ependymal cells

Answer 13

• act as barrier separating brain tissue from cerebrospinal fluid
• osmotic regulation of cerebrospinal fluid via uptake of ions and water molecules
• flow of cerebrospinal fluid from lateral ventricles into 3rd + 4th ventricles before being absorbed in the subarachnoid space
• direction cell migration during brain development

Question 14

What is associated with deficits in ependymal cell function

Answer 14

severe neurological condition - hydrocephalus
= excessive accumulation of cerebrospinal fluid within ventricular system = enlargement of 3rd/4th ventricles = severe pressure on brain

Question 15

What are oligodendrocytes and Schwann cells?

Answer 15

glial cells that function to provide myelin - membranous sheath around axons
oligodendrocytes in CNS = contribute to lots of axons
Schwann cells in peripheral NS = myelinated only 1 axon

Question 16

What is cytoskeleton?

Answer 16

internal scaffolding that gives neurones its charatersitic shape, compromised of microtubules, microfilaments and neurofilaments

Question 17

What are microtubules

Answer 17

a polymer of tubular - located in axons and dendrites and important in axoplasmic transport

Question 18

What are microfilaments

Answer 18

polymer of actin - found throughout neurones but particularly abundant in axons and dendrites

Question 19

What are neurofilaments

Answer 19

type of immediate filament - particularly abundant in a axons and important in regulating axonal shape
- promising biomarker for neurodegenerative disorders (Alzheimers)

Question 20

What are axons compromised of

Answer 20

• highly specialised in neuronal projectection that conduct nerve impulses for AP within NS
• axon hillock - tapers away from soma to form initial segment of axon
• axon ‘proper’ - axon can branch to form axon collaterals and recurrent collaterals
• axon terminal - site where axon comes into contact with other neurones at a synapse

Question 21

What are the specialties of dendrites

Answer 21

• receives synapse inputs from other neurones
• dendrites of a single neurones collectively termed dendritic tree
• covered with dendritic spines - small sacs of membrane that protrude from dendrites of some cells to receive synaptic input
• sensitive to type and amount of synaptic activity

Question 22

What are afferent neurones?

Answer 22

• carry info away from periphery towards brain or spinal cord
• carry info from somatic (skin skeletal muscle) or visceral (smooth muscle/glands) towards brain/spinal cord

Question 23

What are the primary afferent axons? - diameters, conduction speeds and function

Answer 23

1. Aa-fibres - 13-20microm, 80-120m/sec, proprioceptors of skeletal muscle
2. Ab-fibres - 6-12microm, 35-75m/sec, mechanoreceptors of skin
3. Adelta-fibres, 1-5microm, 5-30m/sec, pain/temp
4. C-fibres, 0.2-1.5microm, 0.5-2 m/sec, temp/pain/itch

Question 24

What are efferent neurons

Answer 24

carry info away from brain/spinal cord to peripheral organs and tissues

Question 25

How does the knee-jerk reflex work?

Answer 25

1. hammer tap stretches tendon = stretches sensory receptor in leg extensor muscle
2. sensory neuron synapses excites motor neuron in the spinal cord
   2b. sensory neruon also excites spinal interneuron
   2c. interneuron synapse inhibits motor neuron to flexor muscles
   3a. motor neuron conducts AP to synapses on extensor muscle fibres, causing contraction
   3b. flexor muscle relaxes because activity of its motor neurone has been inhibited
3. leg extends

Question 26

What is neurotransmission?

Answer 26

fundamental process that drives info transfer between neurones and their targets

Question 27

What is membrane potential?

Answer 27

defines as voltage difference in charge across a cell membrane

Question 28

negative membrane potential?

Answer 28

• higher conc of cations outside cell (extracellular fluid) than inside (in cytoplasm)

Question 29

positive membrane potential?

Answer 29

• higher conc inside cell relative to outside

Question 30

resting potential?

Answer 30

-70mv
- when AP is not being fired , resting state

Question 31

ION PUMPS? HOW MANY NA OUT AND K IN?

Answer 31

3 NA OUT
2 K IN

Question 32

What is hyper polarisation?

Answer 32

displacement of membrane potential towards a more negative value resulted from opening of K gated ion channels, k moves out making cell more negative

Question 33

what is depolarisation

Answer 33

displacement of membrane potential towards more positive, NA gated ion channels open = movement of NA into cell = more positive

Question 34

WHAT IS AP?

Answer 34

membrane potential of a neurones when firing, transmitting info between two cells within NS
- depolarisation requires summation of excitatory post-synaptic potentials - can be temporal or spatial

Question 35

What is saltatory conduction

Answer 35

propagation of an action potential along a myelinated axon