Retina general info and findings

Question 1

Know the layers of the retina on OCT.
Which layers appear as dark bands?

Answer 1

Inner nuclear layer, outer nuclear layer, inner photoreceptor segm., and outer photoreceptor segm.

Question 2

What are the two landmarks that we use in the retina and what are their sizes?

Answer 2

Optic nerve: =1DD =1.5-2mm in size (also 500 microns is about 0.33 DD)

Vessels: 1st vein is approx. 120 microns

Question 3

What are the sizes for the parts of the macula/fovea?

Answer 3

foveola - floor of the fovea 0.35mm

fovea rod-free zone - 0.57mm

fovea - 1.5 mm across (shallow depression in the center of the macula)

parafovea - retinal bipolar and gg cells highest 0.5mm

perifovea - gg cells go from 4 thick to 1 cell thick 1.5mm

macula - 4mm across

Question 4

How many mm ora to ora?

Answer 4

32mm

Question 5

Posterior pole size and macula location?

Answer 5

Posterior pole is about 45 degrees, and the macula is about 11.8 degrees temporal from the optic disc

Question 6

What are the 5 layers of Bruch’s Membrane?

Answer 6

Posterior to Anterior:

1. Basement membrane of choriocapillaris
2. Outer collagenous layer
3. Elastic lamina
4. Inner collagenous layer
5. Basement membrane of the RPE

Question 7

Which layer do drusen first accumulate in?

Answer 7

the inner collagenous layer of Bruch’s membrane

Question 8

Which structures make up the blood-retina barrier?

Answer 8

basement membrane of the RPE, and endothelial cells of the retinal vessels

Question 9

What is a main difference between the vessels in the choroid compared to the vessels in the retina?

Answer 9

Choroid has no tight junctions, vessels are fenestrated!

Retinal vessels are not fenestrated and make up part of the blood-retina barrier.

Question 10

Which layers in the choroid have small vessels vs larger vessels?

Answer 10

Sattler’s layer has small vessels, Hallers layer has large vessels

Question 11

Know normal retinal blood supply. What does the ACA supply?

Answer 11

anterior uvea and anterior choriocapillaris

Question 12

What artery supplies the inner retina?

Answer 12

Central retinal artery

Question 13

What do the SPCAs supply?

Answer 13

nasal and temporal choriocapillaris that supplies the posterior ⅔ of the outer retina (up to the ONL, including OPL, ELM, photoreceptors, RPE)

Question 14

What do the LPCAs supply?

Answer 14

peripheral choriocapillaris, one nasal and one temporal, supplies the anterior ⅓ of the outer retina (up to the ONL, including OPL, ELM, photoreceptors, RPE)

Question 15

Which layer of the retina has the branches of the CRA running through?

Answer 15

branches run through the nerve fibre layer with adhesions to ILM. superficial capillary network runs in NFL and GCL, deep capillary network runs in the INL.

Question 16

What is autoregulation in the retina?

Answer 16

retina autoregulates its blood flow and depends on the CO2/O2 level. decrease in O2 causes high CO2 and vessels will dilate trying to increase flow. increase in O2 and low CO2 causes vessels to constrict and have decreased flow and increased resistance and pressure. If pressure gets too much, the vessels will change tone (myogenic response) to resist the change in IOP.

this fluctuation concept is what leads to diabetic retinal vessel findings

Question 17

Differences between retinal arteries and veins:

Answer 17

arterioles lie in the NFL or GCL, they are strong and not easily affected by external forces (should not see spontaneous pulse), smooth muscles, no elastic lamina

venules are thin-walled, distensible, compressable, allows for SVP

Question 18

In between which layers is a pre-retinal (subhyaloid) hemorrhage found? and where does the blood come from?

Answer 18

posterior to ILM and anterior to NFL

blood comes from the superficial capillary bed

Question 19

Which hemorrhage is affected by gravity?

Answer 19

pre-retinal hemorrhage

Question 20

Which hemorrhage clears up the fastest? (When seen is always bright red and fresh)

Answer 20

pre-retinal hemorrhage, clears in days to 1 month

Question 21

What might a pre-retinal heme be a sign of?

Answer 21

peripheral vascular disease/arterial disease

Question 22

Does a pre-retinal heme lie in front of, with, or behind the visible retinal vessels?

Answer 22

Pre-retinal hemorrhage occurs in front of the vessels, obscures underlying vessels, blocks NFL and choroid and everything behind it (affects vision)

Question 23

Which type of hemorrhage follows the NFL pattern?

Answer 23

Flame shape hemes

Question 24

What might flame-shaped hemes be a sign of?

Answer 24

most commonly associated with retinal vein occlusions and hypertensive retinopathy

Question 25

Which layer are flame hemes found in and where does the blood come from?

Answer 25

post-arteriolar superficial capillary bed, in RNFL same as other vessles and so sometimes can appear in front of, within or behind the retinal vessels

Question 26

Other findings that are associated with a flame heme finding:

Answer 26

roth spots within flame heme

drance heme = flame heme at the disc

Question 27

Which layer are dot/blot hemes found in and where does the blood come from?

Answer 27

pre-venule deep capillary bed in the OPL

Question 28

What does dot/blots hemes signal and what conditions are they associated with?

Answer 28

signals venous congestive disease, and are most associated with diabetic retinopathy and ocular ischemic syndrome

Question 29

How long do dot/blot hemes take to resolve?

Answer 29

slower, 6 months to years

Question 30

Which layers are sub-retinal hemorrhages found and what are they secondary to/caused by?

Answer 30

found between RPE and sensory retina, breakthrough of deep hemorrhages, secondary to CNVM (AMD), deep bleed and so retinal vessels can be seen above the heme. These bleeds are also more purple than superficial pre-retinal hemes

Question 31

What is the classic description of a sub-RPE hemorrhage seen on OCT and in which layers is it located between?

Answer 31

grey/green/almost black, located between the RPE and Bruch’s membrane, very deep and are dark when viewing fundus, common in wet AMD and also a result of CNVM

Question 32

What are some reasons for vitreous hemorrhage?

Answer 32

a break in ILM can cause, results from NVD, NVE, PVD with retinal break, macroaneurysm, or wet AMD

Question 33

Microaneurysms may look like dot/blot hemes but what are the differences otherwise?

Answer 33

Microaneurysms are active leakages and can be visualized on FA, they will shine white, while dot/blots will be dark as they block NaFl.

Question 34

What causes microaneurysms?

Answer 34

Microaneurysms are leakage from parafoveal capillaries that have weakened cell walls (pericytes) or caused by active cellular response to hypoxia, forms in response to ISCHEMIA!

Question 35

When does venous beading occur?

Answer 35

constriction/dilation of vein lumen, more common in chronic cases, non-specific sign of ischemia, and one of the strongest predictors of if a patient will develop neovascularization

Question 36

What does IRMA stand for?

Answer 36

Intra Retinal Microvascular Abnormalities

Question 37

What is IRMA and in what layer is it found?

Answer 37

intraretinal shunting through vascular channels from pre-existing capillary bed, located in OPL, these are not new vessels and so are not fenestrated and not leaking (different from neo), the vessels may look tortuous and may lead to neo eventually as it indicated retinal non-perfusion

Question 38

If you see IRMA in a diabetic, is it PDR or NPDR?

Answer 38

NPDR still!

Question 39

What can FA be used to confirm?

Answer 39

FA is needed to confirm leaking vs. leaked. Can differentiate microaneurysms from dot/blot heme and differentiates IRMA from neo

Question 40

What is drusen and at what level is it found?

Answer 40

drusen is an accumulation of metabolic waste products from rods receptor outer layer, collecting in the RPE, appear as small round yellow lesions, can be hard, calcified, soft and/or confluent, creating an abnormal thickening of inner Bruch’s membrane

Question 41

What are the sizes of drusen and how do they affect AMD development?

Answer 41

small drusen <64 microns are well defined and focal with a 1.3% risk of AMD development

intermediate drusen 65-124 microns with an 18% risk of AMD development and also greater risk of RPE abnormalities and atrophy

large drusen >125 microns greater risks

Question 42

Which type of drusen has the least risk of progression to CNVM?

Answer 42

Hard drusen, discrete, well demarcated

Question 43

What are exudates and what level are they found at?

Answer 43

lipid laden macrophages, waxy yellow lesions at the level of OPL, more superficial compared to drusen (drusen are deep) and so exudates are brighter yellow

Question 44

What is circinate retinopathy?

Answer 44

exudates form a circle, indicating leaking microaneurysms or choroidal neovascularization, accumulation of lipid from these leaks, edema

Question 45

What were cotton wool spots previously called and why is it wrong classification?

Answer 45

used to be called soft exudates which is wrong as CWS are not leaking!

Question 46

What are cotton wool spots and what to they indicate?

Answer 46

fluffy, white, swelled up axons from a sudden arteriolar microinfarct at level of NFL, indicates hypoxia

Question 47

What conditions might CWS indicate and when is it okay to have CWS?

Answer 47

it is never okay to have even one cotton wool spot, must look for the cause of it!

can be associated with DM, RVO, HTN, Lupus or HIV/AIDS

Question 48

What is an RPE window defect?

Answer 48

white/yellow, round, well-circumscribed areas with no surround of reactive RPE hyperplasia, lesion is a result of an absence of melanin in the RPE (seeing underlying sclera), it is benign and pt is born with it. includes cobblestone finding.

Question 49

What are the differences between window defects and atrophy?

Answer 49

atrophy develops over time and something caused it, we need to investigate, likes to be need macula, more disorganized, associated with hyperplasia, makes up a chorioretinal scar

window defect is there when patient is born and nothing needs to be done besides documentation, can happen anywhere in the retina, more organized, distinct looking, can be found in a CHRPE and have hypertrophy alongside

Question 50

Window defect vs atrophy goes with hyperplasia or hypertrophy?

Answer 50

window defect — hypertrophy

atrophy — hyperplasia

Question 51

What is white without pressure?

Answer 51

gray-white translucent area with scalloped borders, usually bilateral, can be mistaken for RD especially on OPTOS, but it is flat, often found in the temporal periphery, with 30% incidence in general population and 10x more common in dark-skinned individuals

Question 52

What are myelinated nerve fibres and how do you differentiate from CWS?

Answer 52

often come from the disc in RNFL pattern, usually doesn’t extend beyond posterior pole, has NO visual or clinical significance! CWS are usually more round

Question 53

What is a chorioretinal scar?

Answer 53

usually white to yellow intraretinal fibrosis with accompanying RPE hyperplasia, itself is benign but may have been causes by previous inflammation or trauma and may lead to RD (monitor yearly and look for retinal tears)

(common cause is toxoplasmosis)

Question 54

What is fibrosis and what may cause it?

Answer 54

response to injury (mechanical vs hypoxia driven), gliosis (neo/angiogenesis driven) blood rubs with glia causing it to proliferate including fibroblasts. associated with DM, PVR, ROP, AMD

Question 55

What is the number one cause of tractional retinal detachments?

Answer 55

Fibrosis, pulling on retina

Question 56

What does A,B,C,D,E stand for when describing retinal lesions?

Answer 56

Asymmetry, Borders, Colour, Diameter, Evolution/Elevation

Question 57

What are lacunae?

Answer 57

a diagnostic finding of window defect inside a CHRPE, (the white area that is not the hypertrophy)

Question 58

What is CHRPE vs bear tracks

Answer 58

Congenital hypertrophy of the RPE, both involve enlargement of RPE cells, well-demarcated, round, can be solitary or multiple, brown or black, flat or scalloped margins, bear tracks don’t have lacunae and are associated with colorectal cancer and familial adenomatous polyposis

Question 59

What is the difference between hypertrophy and hyperplasia by definition

Answer 59

hypertrophy means enlarged cells but same number, hyperplasia means more number but no change in size

Question 60

What might be the cause of RPE hyperplasias

Answer 60

RPE hyperplasia represents RPE cells invading the sensory retina, may be in response to injury, retinal tear, retinal detachment, lattice degeneration, etc., appears black, forms in chorioretinal scars, irregular shaped areas with variable size, indicative of a process that has been ongoing 60 to 90 days. self limiting but must investigate the cause of the retinal insult

Question 61

What is another name for benign choroidal melanoma and what is it?

Answer 61

Choroidal nevus, it is a benign melanocytic tumor of the posterior uvea (accumulation of atypical but benign melanocytes), flat, slate gray lesion of variable size, monitor if <2mm, assume malignancy if >5mm

Question 62

What are the distinguishing features of choroidal melanoma vs nevi

Answer 62

nevi have drusen, melanoma has lipofuscin which is more orange. drusen represents stability, while lipofuscin represents an active growth (it is an intermediate metabolite), often nevi are <2mm and flat while melanoma is >2mm and elevated, melanoma may also have vessels visible in the tumour dome, and non-uniform colour