Retina and RPE Part 2

Question 1

How many bipolar cells are in the retina?

Answer 1

35.7 million

Question 2

What is the primary function of bipolar cells?

Answer 2

transmit signals from photoreceptors to ganglion cells, between which they are interposed

Question 3

Within which layer of the neurosensory retina can bipolar cells be found?

Answer 3

cell bodies are in the inner nuclear layer

oriented in a radial fashion parallel to the photoreceptors

Question 4

What is the arrangement of bipolar clels dendrites?

Answer 4

single or multiple dendrites pass outwards to synapse principally with photoreceptors (but also horizontal cells)

Question 5

What are the 2 types of cells which bipolar cell dendrites synapse with?

Answer 5

• photoreceptors (principally)
• horizontal cells

Question 6

What is the arrangement of bipolar cells’ axons?

Answer 6

passes inwards and synapses with ganglion and amacrine cells

Question 7

What are the 2 types of cells which bipolar cells’ axons synapse with?

Answer 7

• ganglion cells
• amacrine cells

Question 8

What is the ratio of cones : bipolar cells : ganglion cells in the foveal region of the central retina?

Answer 8

1 : 1: 1

Question 9

What is the ratio of bipolar cells : rods cells in the peripheral retina?

Answer 9

1 bipolar cell receives stimuli from 50-100 rods

Question 10

What does the ratio of bipolar cells : photoreceptors correspond to in the retina?

Answer 10

corresponds to decreasing visual acuity present in the peripheral retina

the summation of stimuli is a crucial factor in the sensitivity of the rod system to low levels of stimulation

Question 11

How many subtypes of bipolar cells exist in humans?

Answer 11

9 morphological subtypes

• 1 rod bipolar type
• 8 cone bipolar types
  
  • 5 types of diffuse cone bipolars
  • 3 types of midget bipolars

Question 12

What are the 3 types of midget bipolar cells?

Answer 12

1. invaginating midget bipolar cells
2. flat midget bipolar cells
3. blue cone-specific bipolar cells (blue S-cone)

Question 13

What proportion of all bipolar cells is accounted for by rod bipolar cells?

Answer 13

20%

Question 14

What is the distribution of rod bipolar cells in the retina?

Answer 14

• have a small receptive field or dendritic tree in the central retina (15 μm wide, 10–20 rods)
• larger in the peripheral retina (30 μm and 30–50 rods)

Question 15

Where are rod bipolar cells most dense?

Answer 15

around the fovea

Question 16

How many rods are contacted by rod bipolar cells in the periphery?

Answer 16

up to 50

Question 17

What type of cells do rod bipolar cells synapse with?

Answer 17

AII amacrine cells

&, only rarely, with diffuse ganglion cells

Question 18

What is the role of diffuse cone bipolar cells?

Answer 18

concerned with converging information from many cones

Question 19

What is the arrangement of diffuse cone bipolar cells?

Answer 19

Their dendrites fan out (up to 70–100 μm) to end in clusters of between five and seven cone pedicles (can be as high as 15–20)

Question 20

In what region is overlap of diffuse cone bipolar cells extensive?

Answer 20

the perifoveal region

Question 21

Which of the types of bipolar cells is smallest?

Answer 21

invaginaing midget bipolar cells

Question 22

What are the connections formed by invaginating midget bipolar cells?

Answer 22

dendrites penetrate the base of a single cone pedicle (occasionally two) to form a central element in triads

Question 23

What is the ratio of midge bipolar cells to cones like?

Answer 23

near 1:1 midget bipolar cells to cones, decreases peripherally

Question 24

What are 2 types of cells that dendrites of invaginating midget bipolar cells may synapse with?

Answer 24

• amacrine cells
• midget ganglion cells

Question 25

What is the arrangement of flat midget bipolar cells? What type of cells do they connect?

Answer 25

connect single cones with single midget ganglion cells or more rarely may connect several cones

Question 26

How do flat midget bipolar cells differ from invaginaing midget bipolar cells?

Answer 26

they are similar except flat midget bipolar cell dendrites do not invaginate deeply into the cone pedicle

Question 27

What type of bipolar cells can most cones be in contact with?

Answer 27

can be in contact with flat and invaginating midget bipolar cells, as well as diffuse cone bipolar cells

Question 28

What type of contacts with other cells are made by blue cone-specific bipolar cells (blue S-cone)?

Answer 28

only a limited number of cones in their territory - specifically blue cones (it is suggested)

Question 29

Where are the cell bodies of most ganglion cells located?

Answer 29

innermost nucleated layer of the retina (ganglion cell layer) situated between the nerve fibre layer and the inner plexiform layer

Question 30

In addition to the ganglion cell layer, where are other displaced ganglion cells sometimes found?

Answer 30

inner nuclear layer

Question 31

What do ganglion cells represent in the visual pathway?

Answer 31

they are the last neuronal link in the retinal component of the visual pathway

Question 32

What layer are formed by ganglion cell axons?

Answer 32

nerve fibre layer on the innermost surface of the retina

Question 33

Where do ganglion cell axons synapse?

Answer 33

on cells in the lateral geniculate nucleus of the thalamus

Question 34

What separates and sheaths bundles formed by ganglion cell axons?

Answer 34

glial cells

Question 35

What structure is formed by bundles of ganglion cell axons?

Answer 35

optic nerve

Question 36

Via which structure do ganglion cells exit from the gloe and enter the optic nerve?

Answer 36

lamina cribrosa

Question 37

What changes about the ganglion cell axons once they exit via the lamina cribrosa?

Answer 37

the axons become myelinated with oligodendrocytes

Question 38

How many layers of ganglion cell bodies exist in the central retina/ fovea vs the peripheral retina?

Answer 38

• up to 7 layers in the central retina/fovea (ganglion cell layer is 60–80 μm thick)
• as few as 1 layer in the peripheral retina (10–20 μm thick)

Question 39

How many ganglion cells are there per retina?

Answer 39

1.2 million ganglion cells

Question 40

How many a) rods and b) cones exist per ganglion cell?

Answer 40

• a) rods: 100
• b) cones: 4-6

Question 41

What are 3 features that characterise ganglion cells morphologically?

Answer 41

1. large cell body
2. abundant Nissl substance (arrays of rough endoplasmic reticulum)
3. Large Golgi apparatus

Question 42

What are 4 things which are used to classify different types of ganglion cells?

Answer 42

1. cell body size
2. dendritic tree spread
3. branching pattern
4. branching level in the 5 strata of the inner plexiform layer

Question 43

What differentiates some ganglion cells in the macular area from others morphologically?

Answer 43

some may contain yellow pigment (xanthophyll carotenoid) in the cytoplasm, although cone axons and Müller cells thought to also contain these pigments in the macular region

Question 44

What are 2 cells that ganglion cells primarily receive impulses from?

Answer 44

1. bipolar cells
2. amacrine cells

Question 45

What are 2 modes via which ganglion cells receive impulses from bipolar and amacrine cells?

Answer 45

1. axodendritic synapses
2. axosomatic synapses

Question 46

Within which layer do axosomatic synapses between ganglion cells and amacrine/bipolar cells predominantly occur?

Answer 46

inner plexiform layer

Question 47

What happens at axosomatic synapses between ganglion cells and amacrine/bipolar cells in the inner plexiform layer?

Answer 47

dendrites repeatedly branch to form the ‘dendritic tree’ whose form and size vary considerably and may be correlated with location in the retina and therefore function (receptive field size)

Question 48

Up to how many subtypes of ganglion cell exist in humans?

Answer 48

18

Question 49

What are 3 broad types of ganglion cells referred to as?

Answer 49

α, β and γ, or X, Y and W types

Question 50

What is thought to be the role of a recently discovered non-rod, non-cone photoreceptive pathway arising from a population of retinal ganglion cells?

Answer 50

the ganglion cells express photopigment melanopsin and by signalling gross changes in light intensity they serve the subconscious non-imaging forming functions of circadian photoentrainment and pupil constriction via the suprachiasmatic nucleus

Question 51

How do imaging forming and non-image forming retinal pathways merge?

Answer 51

the retina is strongly activated by rods and cones to signal irradiance over the full dynamic range of human vision, and melanopsin-based signals may contribute to conscious visual perception

Question 52

What are 2 key types of ganglion cells?

Answer 52

1. midget ganglion cells
2. diffuse (parasol) ganglion cells

Question 53

Which cells do midget ganglion cells synapse with?

Answer 53

exclusively with amacrine cells and one midget bipolar cell (and thus usually one cone)

Question 54

What is dendritic spread of midget ganglion cells in the retina?

Answer 54

Dendritic spread is around 5–10 μm in diameter in central retina

increases 10-fold in a zone of 2–6 mm eccentricity and attains a maximum of over 100 μm

Question 55

How are neighbouring midget ganglion cell dendritic fields related?

Answer 55

they do not overlap but form mosaics

Question 56

What are midget ganglion cells in humans also known as and why?

Answer 56

P-cells - they project to the parvocellular layer of the lateral geniculate nucleus (LGN)

Question 57

Which types of bipolar cells do diffuse (parasol) ganglion cells synapse with?

Answer 57

comprise large synaptic field with all types of bipolar cells except midget bipolar cells

Question 58

Where do diffuse (parasol) ganglion cells occur in the retina and what is the arrangement of their cell bodies (soma)?

Answer 58

occur in the central retina and their cell bodies (soma) are 8–16 μm in diameter with 30–70 μm dendritic fields, these being smaller nearer the fovea than the periphery

Question 59

How does the size of the dendritic fields of diffuse (parasol) ganglion cells differ throughout the retina?

Answer 59

they are smaller nearer the fovea than the periphery

Question 60

What are diffuse (parasol) ganglion cells also known as and why?

Answer 60

M-cells, because they porject to the magnocellular layer of the LGN

Question 61

What is the relevance of the finding that midget ganglion cells synapse exclusively with midget bipolar cells, and that both are common near the fovea?

Answer 61

provides the anatomical basis for the observation of small receptive fields and high visual acuity in this region

Question 62

How many types of diffuse ganglion cell exist? How are they classified?

Answer 62

5 - classified on basis of morphology

Question 63

What is the arrangement of fields surrounding receptive fields and what is the size like?

Answer 63

anatomical basis of antagonistic fields surrounding receptive fields is complex, although they do not appear to vary much in size from within an 8 mm radius of the fovea

Question 64

What may form the basis of the antagonistic field surrounding receptive fields in the retina?

Answer 64

lateral extensions of the amacrine cell, with its extensive interconnections with ganglion cell dendrites and bipolar cells as well as fellow amacrine cells

Question 65

What are the 2 key association neurones?

Answer 65

1. Horizontal cells
2. Amacrine cells

Question 66

From what do horizontal cells derive their name?

Answer 66

extensive horizontal extension of their cell processes

Question 67

What are the 2 distinct morphological varieties of horizontal cells?

Answer 67

1. Type A: large, sturdy, axonless cell with stout dendrites that contact only cones
2. Type B: smaller, bushier dendritic tree that contacts cones exclusively but, in addition, has axon up to 300 μm in length that ends in extensive arborisation that is postsynaptic only to rods

Question 68

What is the morphology like of type A horizontal cells?

Answer 68

large sturdy axonless cell with stout dendrites that contact only cones

Question 69

Which type of cells do type A horizontal cells form synapses with?

Answer 69

only cones

Question 70

What is the morphology like of Type B horizontal cells?

Answer 70

smaller bushier dendritic tree that contacts cones exclusively but, in addition, has an axon up to 300 μm in length that ends in extensive arborization that is postsynaptic only to rods

Question 71

Which cells do type B horizontal cells form synapses with?

Answer 71

• dendritic tree contacts cones exclusively
• long axon with extensive arborisation is postsynaptic only to rods

Question 72

How do the receptive fields of type A vs type B horizontal cells compare?

Answer 72

type A have much larger receptive fields than type B

Question 73

How many connections do a) rods and b) cones have with horizontal cells?

Answer 73

• a) RODS: at least 2 horizontal cells
• b) CONES: 3-4 cells of each type (6-8)

Question 74

How many cones are contacted by type B horizontal cell soma processes? How does this vary across the retina?

Answer 74

• around 7 cones near the fovea (dendritic tree covering 15 μm)
• increases to as many as 18 cones further from the fovea (dendritic tree covering 80–100 μm).

Question 75

What is the pathway of the axon of type B horizontal cells?

Answer 75

passes laterally and terminates up to 1mm away in a thickened axon terminal bearing a fan-shaped protrusion of lollipop-like endings in rod spherules (up to 100)

Question 76

How do the dendritic trees of Type A horizontal cells compare with type B and how many cones do they contact?

Answer 76

type A are generally more spidery and contact twice as many cones as type B

Question 77

How long are the axons of type A horizontal equivalent cells in primates and what cells do they contact?

Answer 77

axons are generally shorter (100–200 μm) and contact cone pedicles by small wispy terminals

Question 78

Which retinal layer are horizontal cell bodies located in?

Answer 78

outer part of the inner nuclear layer

Question 79

What is the only distinctive cytoplasmic organelle in horizontal cells?

Answer 79

few except for crystalliods, a series of densely stacked tubules with associated ribosomes

Question 80

Where do the processes of the horizontal cells ramify?

Answer 80

in the outer plexiform layer close to the cone pedicles

Question 81

What is the overlap of horizontal cells like?

Answer 81

overlap between horizontal cells is considerable

any one area of retina may be served by up to 20 horizontal cells

Question 82

What are the roles of horizontal cells in the retina? 3 key things

Answer 82

1. integrative role in retinal process
2. release inhibitory neurotransmitters, mainly γ-aminobutyric acid (GABA)
3. some colour-specific wiring for the three types of horizontal cells in the human retina

Question 83

Do amacrine cells have axons?

Answer 83

previously thought to lack axons, but recent studies show some do have an axon

Question 84

In which layer are amacrine cells located in the retina?

Answer 84

in the vitread or inner aspect of the inner nuclear layer (bipolar cell layer)

Question 85

What 2 things make amacrine cells distinguishable?

Answer 85

• larger size - 12μm
• oval shape

Question 86

How many types of amacrine cells exist in humans?

Answer 86

at least 25 - show remarkable degree of diversity

Question 87

What is the shape of the cell body of amacrine cells?

Answer 87

flask-shaped

Question 88

Where do the numerous dendritic processes of amacrine cells terminate?

Answer 88

ramify and terminate predominantly in the synaptic complexes formed by the bipolar and ganglion cell processes, namely the inner plexiform layer

Question 89

What is the shape of the amacrine cells’ dendritic fields?

Answer 89

highly variable - see some examples in the image:

Question 90

What are 3 ways in which amacrine cells can be divided into subtypes?

Answer 90

1. based on stratification of their dendrites in the inner plexiform layer
2. or their shape, e.g. diffuse, starburst and stratified
3. on basis of their neurotransmitters

Question 91

What are 3 types of shapes of amacrine cell dendrites?

Answer 91

diffuse, starburst, stratified

Question 92

What is the dendritic field like of a diffuse amacrine cell?

Answer 92

can cover narrow fields (approximately 25 μm wide), their fibres being cone-shaped

Question 93

What are 4 types of neurotransmitters that can be released by amacrine cells and what does this indicate?

Answer 93

1. GABAergic
2. dopaminergic
3. acetylcholine releasing
4. peptide somatostatin - neuroactive peptide in the retina

play a role in modulation (most probably inhibitory) of signals reaching ganglion cells

Question 94

What is thought to be the function of amacrine cells?

Answer 94

play a role in modulation (most probably inhibitory) of signals reaching ganglion cells

Question 95

What are 3 things that somatostatin, released by some amacrine cells, can function as?

Answer 95

1. neurotransmitter
2. neuromodulator
3. trophic factor