Retinal Histology

Question 1

What is the innermost tunic

Answer 1

Retina

Question 2

What happens to light at the retina

Answer 2

Light energy is transformed into a neural signal (phototransuction)

Question 3

Where is the phototransduction signal modified

Answer 3

Within the retina

Question 4

What part of the visual pathway is in the retina

Answer 4

Contains the first three cells of the pathway
Photoreceptors (1st)
Bipolar (2nd)
Ganglion (3rd)

Question 5

What are the 9 inner layers of retina

Answer 5

Sensory or neural retina

Question 6

What is the outermost retinal layer

Answer 6

RPE

Question 7

Are all regions of the retina the same

Answer 7

No

Question 8

What is in the outer retinal layers

Answer 8

Photoreceptor layer
External limiting membrane
Outer nuclear layer
Outer plexiform layer

Question 9

What do photoreceptors span

Answer 9

The outer retina

Question 10

What is contained in the photoreceptor layer

Answer 10

Rod outer segment
Rod inner segment
Cone outer segment
Cone inner segment

Question 11

What is in the outer nuclear layer

Answer 11

Row of cone nuclei

Multiple rows or rod nuclei

Question 12

What is in the outer plexiform layer

Answer 12

Contains rod spherules and cone pedicles

Question 13

Role of photoreceptor

Answer 13

Absorb light photons and convert them into an electrochemical event though the process of phototransduction.

Question 14

What are the two kinds of photoreceptors

Answer 14

Rods and cones

Question 15

What part of the rod is adjacent to the RPE

Answer 15

Outer segment

Question 16

What is the bridge between the outer segment and the inner segment of the rod

Answer 16

Cilium

Question 17

What part of the rod photoreceptor goes through the external limiting membrane

Answer 17

Outer fiber

Question 18

What is contained in the outer segment of the rods

Answer 18

Plasma membrane with discs containing rhodopsin

Question 19

What is contained in the inner segment of the rod photoreceptor

Answer 19

Mitochondria and RER and Golgi

Question 20

Photopigment of the rod

Answer 20

Rhodopsin

Question 21

Where is rhodopsin located

Answer 21

In the membrane of the discs and to a lesser extent in the cell membrane around the cell body

Question 22

What is rhodopsin composed of

Answer 22

Protein part, opsin, and chromosphere 11-cigs retinal (vit A derivative)

Question 23

What is the peak absorption of light in rhodopsin

Answer 23

500nm (blue-green light), allows black and white

Question 24

How are the photoreceptors and the RPE situated together

Answer 24

Apex to apex

Question 25

When are rod outer segment discs shed?

Answer 25

In the early morning

Question 26

How do the discs of the rods get engulfed

Answer 26

The engulfed discs become phagocytes in the RPE and are broken down by lysis
Or goes to drusen in the outer membrane

Question 27

What is the turnover of the entire rod outer segment

Answer 27

About 2 weeks

Question 28

What causes retinitis pigmentosa

Answer 28

Over 100 mutations in the rhodopsin gene have been IDed that can lead to inheritance of the rod photoreceptor dystrophy

Question 29

What kind of disorder is retinitis pigmentosa

Answer 29

A progressive degeneration of rod photoreceptors

Question 30

When does retinitis pigmentosa manifest

Answer 30

In the second to third decade of life

Question 31

Where does retinitis pigmentosa being

Answer 31

In the mid peripheral retina leaving only a small island of surviving cone photoreceptors in the macula

Question 32

What is the chief complaint of someone with retinitis pigmentosa

Answer 32

Difficulty with night vision, especially driving.

Patients with this complaint already have significant loss of rod photoreceptors and retinal function

Question 33

Is there inflammation involved in retinitis pigmentosa

Answer 33

No

Question 34

What kind of vision does someone with retinitis pigmentosa have

Answer 34

Tunnel vision

Question 35

What is a characteristic feature of the retina in retinitis pigmentosa

Answer 35

Bone spicules

Question 36

What happens in RP

Answer 36

Lows down pigment around BV and blocks them. BV supporting inner retina causes pallor in ONH

Question 37

Serves as a bridge between the rod outer and inner segment

Answer 37

Connecting cilium

Question 38

What is the arrangement of the connecting cilium

Answer 38

9+0 arrangement of doublets of microtubules

It’s missing the central pair of microtubules usually present in the motile cilia

Question 39

What is the purpose of the inner segment in the photoreceptors

Answer 39

Powerhouse and metabolic machinery

Question 40

What are the two segments of the inner segment

Answer 40

Ellipsoid

Myoid

Question 41

What is the ellipsoid region of the inner segment

Answer 41

Close to the rod outer segment and contains mitochondria

Question 42

What is contained in the myoid region of the inner segment of the photoreceptor

Answer 42

Closer to the cell body of the rod

-contained the metabolic machinery (RER, Golgi) for synthesizing protein for new discs

Question 43

Extends from the inner segment of the photoreceptor to the cell body

Answer 43

Outer fiber

Question 44

Length of outer fiber of photoreceptors

Answer 44

• varies in length based on position of the cell body within the outer nuclear layer
• more inward located rod cell bodies have a longer outer fiber

Question 45

Where are the cones situated as the outside row

Answer 45

Outside the fovea

Question 46

The axon of the rod photoreceptor, contains microtubules and extends from the cell body to the pear shaped spherule in the OPL.

Answer 46

Inner fiber

Question 47

Synaptic terminal of rod

Answer 47

Spherule

Question 48

Which is closer to the ONL, cone pedicles or rod spherules

Answer 48

Rod spherules

Question 49

What is contained in the rod spherule

Answer 49

Mitochondria, synaptic vesicles, and microtubules

Question 50

What is the triad of the rod spherules

Answer 50

Processes from horizontal cells and dendrites from rod bipolar cells invaginate the spherules forming a triad.

Question 51

How many triads are in the rod spherules

Answer 51

1

Question 52

What does the rod spherule release

Answer 52

Glutamate

Question 53

What is the triad

Answer 53

To horizontal cells plus a rod bipolar cell on the rod spherules

Question 54

How many rods are there

Answer 54

92 to 120 mill

Question 55

What do rods mediate

Answer 55

Vision in dimly lit (scotopic) environments

Question 56

Vision produced by rods

Answer 56

Consists of varying shades of black and white

Question 57

Photopigment of the rods

Answer 57

All contain the same photopigment, rhodopsin

Question 58

Rod photoreceptor density peaks where

Answer 58

18 degrees from the center of hte fovea and forms a ring around the fovea

Question 59

Where are there no rods

Answer 59

Fovea

Question 60

Sensory structure of the cone photoreceptor responsible for capturing photons of light

Answer 60

Outer segment

Question 61

Shape of the outer segment of the cone photoreceptor

Answer 61

Cone like

Question 62

Appearence of the outer segment of the cone photoreceptors in the fovea

Answer 62

Appear more rod like due to the dense packing of cone photoreceptors

Question 63

What is the difference between the discs in the cone outer segment and rod outer segment

Answer 63

In the cone outer segments they are actually invaginations of the plasma membrane, which means they are discs in contact with the extracellular environment

Question 64

What are the cone opsins

Answer 64

• S cones: blue wavelength 488nm
• M cones: green wavelength 531nm
• L cones: red wavelength 588nm

Question 65

What opsin do most cones contain

Answer 65

Green cones (M cones)

Question 66

What are the three cone mechanism a basis are

Answer 66

Trichromatic vision

Question 67

When one of the three cone photopigments is absent and color is reduced to two dimensions

Answer 67

Dichromacy

Question 68

What are the different dichromats

Answer 68

Protanopes (no L)
Dueteranopes (no M)
Tritanopes (no S)

Question 69

This occurs when one of the cone photopigments is altered in its spectral sensitivity

Answer 69

Anomalous trichromacy

Question 70

Severe difficulty discriminating red green hues

Answer 70

Protonomaly

Question 71

Mildly affected red green hue discrimination

Answer 71

Deuteronomy

Question 72

Difficulty discriminating blue green and yellow/red-pink

Answer 72

Tritanomaly

Question 73

Connecting cilium in the cone versus in the rod

Answer 73

Similar

Question 74

Inner segment of the cone photoreceptor

Answer 74

Same basic structure as the rod photoreceptor. However, the ellipsoid region of the cone if much broader and contains a greater absolute number of mitochondria

Question 75

What is the difference between inner segment of the cone vs the rod

Answer 75

The ellipsoid region of the cone is much broader and contains a greater absolute number of mitochondria

Question 76

Outer fiber of the cone photoreceptor

Answer 76

Very short and sometimes absent. When absent the inner segment connects directly to the cone cell body

Question 77

Cone cell bodies

Answer 77

Monolayer of nuclei in the outermost row of the ONL. However, because there are no rod photoreceptors in the fovea, cone nuclei occupy all the rows of the ONL

Question 78

Which have larger nuclei, rods or cones?

Answer 78

Cones

Question 79

Appearance of cone nuclei versus rod nuclei

Answer 79

Cone nuclei appear paler than rod nuclei due to less heterochromatin

Question 80

The axon of the cone photoreceptor

Answer 80

Inner fiber

Question 81

Contains microtubules and extends from the cell body to the pedicle in the OPL

Answer 81

Inner fiber of the cone photoreceptor

Question 82

How are the cone inner fibers situated outside the fovea

Answer 82

Oriented vertically in the OPL

Question 83

How are inner fiber of the cone photoreceptor oriented in the fovea

Answer 83

The cone inner fiber is oriented obliquely due to lateral displacement of the inner retinal layers

Question 84

What are the obliquely displaced inner segments of the cone segments in the fovea called

Answer 84

Henle fibers. OPL in the fovea is often referred to as Henles fiber layer

Question 85

Pedicle of the cone vs spherule of the rod

Answer 85

Pedicle is larger and lie further from the ONL as compared to the rod spherules

Question 86

What the does pedicle of the cone contain

Answer 86

Mitochondria, clear synaptic vesicles, and microtubules

Question 87

What forms the triad in the cone pedicle

Answer 87

Processes from horizontal cells and dendrites from invaginating midget cone bipolar cells

Question 88

How many triads does a cone pedicle have

Answer 88

As many as 30 triads (and 30 ribbons)

Question 89

What is the NT released by the cone photoreceptors

Answer 89

Glutamate

Question 90

How many cones are there

Answer 90

5-6 mil

Question 91

What percentage of cones are in the fovea

Answer 91

10%

Question 92

Cones mediate what kind of vision

Answer 92

Brightly lit (photopic) environments

Question 93

Cone driven vision is responsible for __________

Answer 93

Color vision and sharp acuity

Question 94

Cell bodies of the interneurons

Answer 94

• horizontal cells
• rod and cone bipolar cells
• amacrine cells
• interplexiform cells
• muller cells

Question 95

These modulate the signal from photoreceptors to bipolar cells and provide inhibitory feedback to photoreceptors and inhibitory feed-forward to bipolar cells

Answer 95

Horizontal cells

Question 96

Where are horizontal cells found

Answer 96

Outermost row of INL (monolayer)

Question 97

Make up of horizontal cells

Answer 97

Long axons and several dendritic processes that extend parallel to the retinal surface and terminate exclusively in the OPL

Question 98

Where do the dendritic processes of the horizontal cells terminate

Answer 98

Exclusively in the OPL

Question 99

What are the 3 types of horizontal cells

Answer 99

HI. HII. And HIII

Question 100

Horizontal cells in the triad

Answer 100

Horizontal cell dendritic processes flank the central bipolar dendrite in the triad

Question 101

What kind of NT do horizontal cells release

Answer 101

Inhibitory NT GABA

Question 102

What does GABA released by horizontal cells do

Answer 102

Inhibits activity of distant bipolar cells to sharpen contrast and enhance spatial resolution

Question 103

How do horizontal cells communicate with each other

Answer 103

Gap junctions

Question 104

Second neuron in the chain between the photoreceptors and the retinal ganglion cells

Answer 104

Retinal bipolar cells

Question 105

Bridge connecting outer to the inner retina

Answer 105

Retinal bipolar cells

Question 106

How many retinal bipolar cells are there

Answer 106

35 mil

Question 107

Where are the nuclei of the retinal bipolar cells located

Answer 107

In any of the rows of the INL

Question 108

Where do the retinal bipolar cell dendrites extend

Answer 108

Into the OPL and synapse with photoreceptors and horizontal cells

Question 109

Where do the axons of the retinal bipolar cells go

Answer 109

Synapse with ganglion cells and amacrine cells in the IPL

Question 110

What are the two basic types of retinal bipolar cells

Answer 110

Rod bipolar cells and cone bipolar cells

Question 111

These bipolar cells contact only rod photoreceptors and synapse with the spherule in the OPL

Answer 111

Rod bipolar cells

Question 112

Where do rod bipolar cells begin to appear

Answer 112

In the parafovea and are Preston out to the far peripheral retina

Question 113

Axons of the rod bipolar cell

Answer 113

Extends into the IPL and will form a synaptic terminal called a dyad

Question 114

Dyad of rod bipolar cells

Answer 114

Contact a pair of AMA Rinne cell processes in sub lamina B (ON sublayer) in the IPL

Question 115

NT released from rod bipolar cells

Answer 115

Glutamate

Question 116

These contact only cone receptors in the OPL

Answer 116

Cone bipolar cells

Question 117

How many subtypes of cone bipolar cells are there

Answer 117

12 different

Question 118

What are the cone bipolar cells categorized based on

Answer 118

Polarity of their response to light as either ON bipolar or OFF bipolar

Question 119

ON cone bipolar cells

Answer 119

Axons will synapse with dendrites of ganglion cells in sublamina B (ON layer) in the IPL

Question 120

OFF cone bipolar cells

Answer 120

Synapse with dendrites of OFF ganglion cells in sublamina A (OFF sublayer)

Question 121

NT released by cone bipolar cells

Answer 121

Glutamate

Question 122

Do the rods have ON and OFF pathways?

Answer 122

No everthing is ON

Question 123

Where are the nuclei of the amacrine cells located

Answer 123

Innermost layer of the INL and sometimes in the GCL or IPL

Question 124

Different types of amacrine cells

Answer 124

There are many different types that vary greatly in their morphology and neurochemistry

Question 125

What do amacrine cells do

Answer 125

Modify signals in the IPL

Question 126

Axons of the amacrine cells

Answer 126

Typically do not have axons, however they have a single processes that has extensive branches and exhibits characteristics of both dendrites and axons

Question 127

What amacrine cell processes synapse with

Answer 127

Processes of other amacrine cells, bipolar cells, interplexiform cells, and retinal ganglion cells in the IPL

Question 128

What are the different groups of amacrine cells

Answer 128

• narrow field
• small field
• medium field
• wide field

May also be described as stratified or diffuse depending upon the distribution of their processes in the IPL

Question 129

What do 40% of amacrine cells contain (NT)

Answer 129

Glycine and GABA

Both inhibitory

Question 130

What is the most widely studied amacrine cell in the retina

Answer 130

Narrow field AII amacrine cell

Question 131

Convey the rod signal to the retinal ganglion cells as rod photoreceptors have no direct contact with retinal ganglion cells

Answer 131

AII amacrine cells

Question 132

Each AII amacrine cell may transmit from as many as ____ rod photoreceptors

Answer 132

30

Question 133

Wiring of amacrine cells

Answer 133

All amacrine cell transmits the rod signal from the rod bipolar cell to the either an ON cone bipolar cell via a gap junction (electrical synapse, sign conserving) or an OFF cone bipolar via a glycinergic synapse (inhibitory, sign inverting)

Question 134

Nuclei of interplexifom cells

Answer 134

Interspersed with the amacrine cells in the innermost layer of the INL

Question 135

Where do the interplexiform cells send their processes

Answer 135

To both the OPL and IPL, which carry feedback signals between the two layers

Question 136

What NT does interplexifrom cells release

Answer 136

GABA or dopamine

Inhibitory

Question 137

What are the 3 types of glial cells

Answer 137

Muller cells
Astrocytes
Microglia

Question 138

What are the radial glial cells of the retina

Answer 138

Muller cells

Question 139

These provide structural support, regulate concentrations of K+ and glutamate in the extracellular environment, synthesize and store glycogen, and are proliferate in response to pathological processes in the retina

Answer 139

Muller cells

Question 140

Where are the nuclei of the muller cells located

Answer 140

INL

Question 141

Distal and proximal processes of the muller cells

Answer 141

Span from the ELM to the ILM

Question 142

Apical end of the distal process of the muller cell

Answer 142

Located in the PRL and consists of microvilli (fiber baskets of Schultze) that extend between the inner segments of hte photreceptos increasing the surface area for absorption of metabolites

Question 143

Basilar end of the proximal processes of muller cells

Answer 143

Consists of endfoot that contributes to the formation of ILM

Question 144

What attaches adjacent distal processes of muller cells, and muller cells to photoreceptors, whihc form the ELM

Answer 144

Zonula adherens

Question 145

Found in the RNFL and RGCL, send out processes that surround and provide structural support to the vasculature and axons located in the RNFL

Answer 145

Astrocytes

Question 146

Found in small numbers in the RNFL, mobile phagocytes that become highly active and can be found anywhere in the retina under pathological conditions

Answer 146

Microglia

Question 147

What is the IPL divided into

Answer 147

Sublamina A (OFF)
Sublamina B (ON)

Question 148

What is sublamina A (OFF) of the IPL further divided into

Answer 148

Sublamina S1 and S2

Question 149

What is sublamina B (ON) of the IPL further divided into

Answer 149

S3-S5

Question 150

Where in the IPL do the rod bipolar cells have to synapse

Answer 150

Sublamina B (usually S5)

Question 151

How many retinal ganglion cells reside in the retinal ganglion layer

Answer 151

1.2 to 2.2 mill

Question 152

Output cells of the retina that convey all of the processed visual information to the brain

Answer 152

Retinal ganglion cells

Question 153

Dendrites of the retinal ganglion cells

Answer 153

Ramify with processes of interneurons in the IPL

Question 154

Axons of the retinal ganglion cells

Answer 154

Form the RNFL, whihc ultimately gives rise to the optic nerve

Question 155

Are retinal ganglion cells bipolar or multipolar/

Answer 155

Can be either

Question 156

NT of retinal ganglion cells

Answer 156

Glutamate

Question 157

Classification of retinal ganglion cells

Answer 157

Based on the layer of the lateral geniculate body in which they synapse. Classified as parvocellular (P cells) or magnocellular (M cells)

Question 158

80% of the retinal ganglion cell population. A single dendrite projection into the IPL and synapse with a midget cone bipolar cell, which means the information conveyed to this type of cell is from a single cone photoreceptor. This arrangement allows for conveyance of information related to color and high resolution

Answer 158

P cells

Question 159

Another name for P cells

Answer 159

Midget bipolar cells

Question 160

10% of the retinal ganglion cell population. They have a larger cell body relative to the P cells. The dendrites of these cells arborize extensively in the IPL. They have wide dendritic fields that allow them to cover the entire retina. Respond to moving or changing stimuli in the environment

Answer 160

M cells

Question 161

Where do the other 10% of retinal ganglion cells that are not classified as P cells or M cells go

Answer 161

Connect to the superior colliculi

Question 162

Composed of unmyelinated axons od retinal ganglion cells. Also contains the superficial capillary plexus of the retinal vasculature. The axonal fibers course parallel to the retinal surface in an orderly fashion towards the central retina where they will converge to form the optic disc

Answer 162

Retinal nerve fiber layer (RNFL)

Question 163

What is the ILM formed by

Answer 163

The basement membrane of the endfeet of the muller cells