HNN Topic 20 - Eyes and Vision

Question 1

What is the function of the bipolar cells of the retina?

Answer 1

Transmit excitatory and inhibitory signals vertically through the retina

Question 2

Describe the inner layer of the eyeball

Answer 2

• Retina - light detecting part of the eye
• 2 layers - neural and pigmented

Question 3

Describe the features of exudative AMD

Answer 3

• New blood vessels growing under retina from choroid
• Rapid
• 10-15% of cases, 90% of cases of severe vision loss in AMD
• Blood vessels break, bleed and leak fluid, damaging the macula and causing it to lift away from the choroid
• Metamorphosia - distorted vision, straight lines appear wavy

Question 4

Why is the visual field of both eyes limited in the inferior medial quadrant?

Answer 4

Lateral side of the nose blocks vision in this area

Question 5

List the steps in diagnosis of AMD

Answer 5

1. Visual acuity test
2. Fundus fluorescein angiogram
3. Optical coherence tomography

Question 6

What is optical coherence tomography?

Answer 6

• Low powered laser interferometry
• Generates detailed cross-sectional image of retina

Question 7

Describe how neovascularisation causes visual disturbances in AMD

Answer 7

1. Choroidal neovascularisation begins in choroid
2. CNV enters gaps in Bruch’s membrane, vessels begin growing in subretinal space
3. Subretinal haemorrhage, retinal distortion
4. Intraretinal haemorrhage, intraretinal fluid
5. Thicking and elevation of macula

Question 8

List the layers of the eyeball

Answer 8

1. Fibrous
2. Vascular
3. Inner

Question 9

How do genetics contribute to AMD?

Answer 9

• Polymorphisms in complement factor H gene strongly linked to AMD - complement factor H regulates inflammation, prevents complement attack of own cells
• Othe genes
  
  • Complement - CFB, CF1, C2/3
  • Lipids - genes for HDL and LDL
  • ECM - collagen and matrix metalloproteinase

Question 10

What is the result of a lesion to Meyer’s loop

Answer 10

Homonymous upper quadrantanopia - loss of vision in same upper quadrant of visual field in both eyes

Question 11

What anatomical landmark does the calcarine sulcus indicate?

Answer 11

Primary visual cortex

Question 12

Describe the structural features of the retina seen during an ophthalmoscopy

Answer 12

• Macula - slightly off-centre highly pigmented area
  
  • Depression in central 500 microns of macula = fovea
  • High concentration of cone cells - high acuity vision (reading, facial recognition)
  • No blood vessels - dependent on choroid for O2 and metabolic support
• Optic disc - area where optic nerve leaves retina, no light detecting cells

Question 13

Describe the location of the eyeball

Answer 13

• Bilateral spherical organ
• Lies in bony orbit - bony cavity within facial skeleton

Question 14

Describe the structure and function of the iris

Answer 14

• Circular structure with aperture in centre (pupil) - diameter altered by smooth muscle fibres within iris, innervated by ANS
• Between lens and cornea

Question 15

Describe the pathogenesis of AMD

Answer 15

• Photoreceptors continue to produce photosensitive pigment throughout life
• Ends of photoreceptor cells decay and are removed by retinal pigment epithelium
• End products accumulate, causing drusen

Question 16

Describe how visual acuity tests are carried out

Answer 16

• Recorded as the distance chart is read/distance at which it should be read
• 6/6 is normal - reads at 6m what should be seen at 6m
• 6/12 - reads at 6m what should be seen at 12m
• 6/36 - reads at 6m what should by seen at 36m
• Wear distance glasses if needed, 6m from chart, one eye at a time, if vision not perfect use pinhole
• If vision <6/60 - count fingers, hand motions, light perception

Question 17

Describe the appearance of the retina in exudative AMD

Answer 17

Neovascularisation, leaking fluid

Question 18

Describe the path of light as it enters the eyeball

Answer 18

1. Incident light passes through cornea to enter eye
2. Moves through aqueous humour of anterior segment
3. Passes through lens
4. Passes through vitreous humour of posterior segment
5. Hits retina

Question 19

What is the result of an optic radiation lesion?

Answer 19

Homonymous hemianopia

Question 20

Describe ion transport in rod cells in normal conditions (no light)

Answer 20

• Extracellular fluid surrounding rod cells is high in sodium ions and low in potassium ions, opposite in cells - maintained by sodium/potassium pump
• In resting state K moves out - negative charge inside

Question 21

What is the result of a complete optic nerve lesion?

Answer 21

Blindness in that eye

Question 22

What is the function of the horizontal cells in the retina?

Answer 22

Inhibitory neurons that provide lateral inhibition - increases spatial resolution (i.e. visual contrast)

Question 23

How is visual field tested?

Answer 23

Goldmann Perimetry test - outline shows borders of peripheral vision

Question 24

What are the ganglion cells of the retina?

Answer 24

Axons from optic nerve after exiting through the optic disc

Question 25

What causes optic nerve lesions?

Answer 25

• Acute optic neuritis (inflammation of optic nerve) - Multiple Sclerosis
• Indirect traumatic optic neuropathy
• Optic atrophy - loss of nerve fibres e.g. due to ischaemia

Question 26

Are dendrites afferent or efferent neuronal cell processes?

Answer 26

Afferent - recieve information

Question 27

Describe the sequence of events which occurs when light hits a rod cell

Answer 27

1. Light hits rod cell, absorbed by rhodopsin
2. Rhodopsin breaks down into scotopsin and 11 cis-retinal = bleaching
3. 11 Cis-retinal absorbs photon, changes to trans-retinal
4. Trans-retinal activates the enzyme scotopsin
5. Large amount of G protein transducin produced, activates enzyme phosphodiesterase
6. Phosphodiesterase hydolyses cGMP which stops the flow of sodium ions inside rod cells - causes hyperpolarisation of cells
7. Hyperpolarised rod cells transmit the neural signal to bipolar cells
8. Bipolar cells, amacrine cells and ganglion cells process the neural signal and generate action potentials to transmit to the brain via the optic nerve

Question 28

Describe the features of atrophic AMD

Answer 28

• Slow, blurring
• 80-90% of cases of AMD
• Small white/yellow deposits called drusen form on the retina, beneath the macula, causing it to deteriorate or degenerate over time

Question 29

Describe the contents of the left and right optic tracts

Answer 29

• Right optic tract - temporal fibres from right eye and nasal fibres from left eye (left hemifield)
• Left optic tract - temporal fibres from left eye and nasal fibres from right eye (right hemifield)

Question 30

Describe the mechanism of action of cone cells

Answer 30

• Similar neural activity to rod cells
• 3 different types ofo cone cell (each contains different photopigment), sensitive to red, green or blue
• Iodopsin is photpigment, composed of 11 cis-retinal + photopsin
• Final percieved colour is combination of all three types of cone cells depending on level of stimulation
• White = combination of all cone cells
• Black = absence of light

Question 31

Which cranial nerves pass through the cavernous sinus?

Answer 31

Oculomotor, trochlear and abducens nerves

Question 32

Describe the main projections of the extra-geniculate pathways

Answer 32

• Pretectal nucleus of midbrain - pupillary light reflex
• Superior colliculus of midbrain - coordinated reflex head and eye movements in response to visual stimulus
• Suprachiasmatic nucleus of hypothalamus - regulates day-night cycle, circadian rhythm

Question 33

How are the visual fields perceived within the eye?

Answer 33

• Image is reversed and inverted in the eye
• Visual field of each eye divided into nasal (medial) and temporal (lateral)
• Fields cross and are recieved by opposite sides of the retina

Question 34

Define homonymous hemianopia

Answer 34

Loss of one side of the visual field - same side in both eyes

Question 35

Describe the structure of rod cells

Answer 35

• Light sensitive pigment = rhodopsin
  
  • Combination of protein scotopsin and light sensitive small molecule retinal
  • Retinal is a carotenoid molecule, derivative of Vitamin A (retinol)
  • Retinal exists in cis- and trans- forms according to light condition

Question 36

How long are the optic nerves?

Answer 36

Approx 50mm

Question 37

What sign can be see during an ophthalmoscopy which indicates raised intracranial pressure?

Answer 37

Papilloedema

Question 38

Explain the psychosocial effects of visual impairment

Answer 38

1. Economic - financial, unemployment, increased care required
2. Indepence - domestic, navigation
3. Communication + social - non-verbal communication, TV/film/media
4. Psychological - isolation, anxiety, depression

Question 39

List the visual pathways

Answer 39

• Geniculate pathway
  
  • To occipital lobe, for concious visual processing
• Extra-geniculate pathways
  
  • To midbrain for reflex responses
  • To hypothalamus for modulation of day-night cycles

Question 40

Describe the appearance of the retina in atrophic AMD

Answer 40

Drusen deposists, areas of retinal pigment epithelium thinning/depigmentation

Question 41

Describe the structure and function of the choroid

Answer 41

Connective tissue and blood vessels, nourishes outer layer of retina

Question 42

What is the result of a visual cortex lesion?

Answer 42

Homonymous hemianopia

Question 43

What causes RAPD?

Answer 43

Disease of optic nerve or retina e.g. optic neuritis, large retinal detachment

Question 44

Describe the decussation of the optic nerves at the optic chiasm

Answer 44

• 50-60% decussation
• Fibres from nasal retina cross, fibres from temporal retina don’t cross

Question 45

Define hippus

Answer 45

Normal pupillary response to light - eye constricts rapidly, dilates a little then constricts to a constant diameter

Question 46

What is the result of a partila optic nerve lesion?

Answer 46

Ipsilateral scotoma

Question 47

Describe convergence in the eye

Answer 47

• Binocular vision - two eyes percieve single image
• Two eyeballs turn slightly inwards to focus on close objects so both images fall on corresponding points on the retina at the same time

Question 48

Describe accommodation of the lens for a near object

Answer 48

Contraction of ciliary muscles, less tension on suspensory ligaments, lens thicker and rounder

Question 49

What is the afferent pathway of the pupillary light response?

Answer 49

Optic nerve

Question 50

Describe the normal pupillary response to light

Answer 50

Constriction of that pupil (direct response) and of the contralateral pupil (consensual response)

Question 51

List the major worldwide causes of blindness

Answer 51

1. Cataract
2. Glaucoma
3. AMD
4. Corneal scar
5. Diabetic retinopathy
6. Childhood blindness
7. Trachoma

Question 52

List the types of glial cells in the retina

Answer 52

1. Muller cells - predominant
2. Astrocytes - mostly in ganglion cell layer + nerve fibre layer
3. Microglia - scattered throughout

Question 53

Describe the components of the fibrous layer of the eyeball

Answer 53

• Sclera and cornea - continuous, provide shape and support
• Sclera - 85%, attachment of extraocular muscles, white of eye
• Cornea - transparent, located centrally at front of eye, refract light entering eye

Question 54

What causes visible distortion of the optic disc?

Answer 54

Papilloedema or optic neuritis (inflammation of the optic nerve)

Question 55

What is the functional contact point between two neurons called?

Answer 55

Synapse

Question 56

Describe the structure and function of the ciliary body

Answer 56

• Ciliary muscle and ciliary process
• Ciliary muscle - smooth muscle attached to the lens by ciliary process, controls shape of the lens, forms aqueous humour

Question 57

What is the efferent pathway of the pupillary light response?

Answer 57

Oculomotor nerve

Question 58

Describe the pathway which leads to constriction of the pupils in response to light

Answer 58

• Parasympathetic pathway
• Pre-tectal nucleus projects bilaterally to Edinger-Westphal nuclei
• Preganglionic neurons travel on oculomotor nerve, synapse on ciliary ganglion
• Postganglionic neurons act on pupillary sphincter to constrict the pupils
• Both pupils contract as the optic tracts contain fibres from both eyes

Question 59

Which parts of the retina are responsible for vision?

Answer 59

• Anteriorly - only pigmented layer, non-visual part of retina
• Posteriorly/laterally - both layers, optic part of retina

Question 60

What promotes neovascularisation in AMD?

Answer 60

VEGF - vascular endothelial growth factors

Up-regulation promotes growth of new vessels

Question 61

Describe the appearance of the lateral geniculate nucleus

Answer 61

6 layers of grey matter with alternating white matter - striped appearance

Question 62

Describe the epidemiology of blindness

Answer 62

• 0.6% of population
• Mostly affects >50 year olds
• Higher prevelance in developing countries/poor populations

Question 63

What suggests an efferent limb problem in the pupillary light response?

Answer 63

Efferent limb problem - no response in one eye but direct + consensual response in other eye

Question 64

Describe the coverings of the optic nerve

Answer 64

• Dura mater, arachnoid mater and pia mater of the meninges form the outer, intermediate and inner sheaths of the optic nerve
• Subarachnoid space between the intermediate and inner sheaths

Question 65

What are the requirements for legal blindness?

Answer 65

Severely sight impaired (blind) = 3/60

Sight impaired = 3/60-6/60

Question 66

Compare Ranibizumab and Bevacizumab

Answer 66

• Ranibizumab - licensed, very costly (£750/dose), monthly injections (inconvenient, uncomfortable + risky)
• Bevacizumab - unlicensed, much cheaper (£49/dose), dose as required, just as effective

Question 67

List the types of age-related macular degeneration

Answer 67

1. Exudative (wet)
2. Atrophic (dry)

Question 68

List the steps in examining the pupils

Answer 68

1. Inspect pupils - look for asymmetry or irregularity
2. Check the direct and consensual reactions to light
3. Swinging light test for RAPD
4. Accommodation-convergence reflex

Question 69

Describe and compare the two types of synapse

Answer 69

• Grey type 1
  
  • Asymmetrical - presynaptic and postsynaptic membranes are different
  • Spherical synaptic vesicles - excitatory e.g. glutamate
• Grey type 2
  
  • Symmetrical - presynaptic and postsynaptic membranes are similar
  • Elliptical synaptic vesicles - inhibitory e.g. GABA

Question 70

What is the result of a bilateral macular cortex lesion?

Answer 70

Bilateral central scotoma - blind spot in centre of visual field of both eyes

Question 71

Describe the treatment of AMD

Answer 71

• Anti-VEGF drugs - Ranizumab, Bevacizumab, Aflibercept
• Ranizumab used -
  
  • Intravitreal injections
  • Sterile procedure - needs clean room
  • Repeated monthly for 3 doses, then as required

Question 72

What is the function of the amacrine cells of the retina?

Answer 72

Many functional diverse subtypes that assisst in interpreting visual signals before they leave the retina

Question 73

How is a fundus fluorescein angiogram performed?

Answer 73

• Inject fluorescein intravenously
• Fluorescein bound to albumin - remains within normal capillaries due to blood-retinal barrier
• Use blue flash and yellow filter to see details of retinal circulation

Question 74

What causes lesions of the optic tract?

Answer 74

• Tumours
• Trauma
• Aneurysms of posterior cerebral artery

Question 75

Describe the components of the anterior and posterior chamber

Answer 75

• Filled with aqueous humour
  
  • Plasma-like fluid that nourishes and protects the eye
  • Produced constantly, drains via trabecular meshwork

Question 76

Describe refraction of light in the eye

Answer 76

• Light rays meet the convex surfaces of the cornea and lens and are angulated (via convergence) to a focal point on the retina
• Cornea is responsible for most of the refractive power, but changing the shape of the lens allows refractive power to be altered

Question 77

How does AMD cause blindness?

Answer 77

• Blood vessels and scar tissue grow under retina
• Leaking vessels cause retinal oedema
• Blocks transport of O2 and nutrients from choroid
• Eventual scarring causes destruction of photoreceptors

Question 78

Describe the pigmented layer of the retina

Answer 78

• Outer layer
• Attached to choroid layer, supports neural layer
• Around whole inner surface of eye

Question 79

Where do the visual pathways originate?

Answer 79

• Originates in retina due to stimulation of rod and cone cells, which activates bipolar/ganglion cells
• Magnocellular (M) cells - sensitive to movement and low contrast
• Parvocellular (P) cells - sensitive to fine details and colours

Question 80

Describe the histological arrangement of the macula

Answer 80

1. Ganglion cells (send neural signal to brain via optic nerve)
2. Bipolar cells
3. Photoreceptors (respond to light)
4. Retinal pigment epithelium
5. Choroid

Question 81

List the types of neuron in the retina

Answer 81

1. Photoreceptor cells - rods and cones
2. Bipolar cells
3. Ganglion cells
4. Horizontal cells
5. Amacrine cells

Question 82

What is the swinging flashlight test used for?

Answer 82

Can identify asymmetry of afferent input in pupillary light reflex - Relative Afferent Pupil Defect (RAPD)

Question 83

How is the shape of the lens changed?

Answer 83

Suspensory ligaments attach the lens to the ciliary muscles and through contraction and relaxation allows changes in the shape of the lens to increase or decrease refractive power

Question 84

What is the function of rod cells?

Answer 84

• Predominant photoreceptor
• Don’t detect colour
• Poor resolution
• More sensitive than cones

Question 85

Describe the neural layer of the retina

Answer 85

• Inner layer
• Contains photoreceptors - light detecting
• Posteriorly and laterally in the eye

Question 86

What is the function of cone cells?

Answer 86

• Colour vision
• Sparse in comparison to rods, except in fovea of macula
• High resolution - high visual acuity
• Dark adaption much faster than rods

Question 87

What is the simplest pathway which causes transmission of signals by the optic nerve?

Answer 87

3-neuron chain - photoreceptor cell to bipolar cell to ganglion cell

Question 88

What passes through the blind spot and makes it blind?

Answer 88

Retinal ganglion cell axons travelling to the optic nerve

Question 89

What is the result of an optic chiasm lesion?

Answer 89

Bitemporal hemianopia - loss of temporal visual field in both eyes

Question 90

List the causes of AMD

Answer 90

• Environmental factors - smoking causes 30% of cases
• Age - rare in people <70%
• Diet? - possible that high doses of Vitamin A, C and zinc may be protective
• Family history - relative of those with AMD at greater risk

Question 91

Where are the anterior and posterior chambers of the eyeball?

Answer 91

• Anterior is between cornea and iris
• Posterior is between iris and ciliary body

Question 92

Where is the lens in the eyeball?

Answer 92

Anterior, between vitreous humour and pupil

Question 93

Describe the vision loss caused by AMD

Answer 93

Central vision loss and metamorphosia

Question 94

List the components of the vascular layer of the eyeball

Answer 94

1. Choroid
2. Cillary body
3. Iris

Question 95

What shows a RAPD during the swinging flashlight test?

Answer 95

When moving light from one eye to the other, pupil of eye which light is shining on dilates

Question 96

Describe the geniculate visual pathway after leaving the retina

Answer 96

1. Nerve fibres of ganglion cells from both eyes carry impulse along two optic nerves
2. Optic nerves meet at optic chiasm
3. Optic nerve form optic tracts after crossing at chiasm
4. Synapses with neurons in the thalamus called lateral geniculate pathways
5. Project through optic radiation, sweeps around lateral ventricle to the primary visual cortex on the medial side of the occipital lobe

Question 97

What is the function of the lens?

Answer 97

• Refraction of light onto the retina
• Shape altered by ciliary body - alters refractive power
• Responsible for accommodation + convergence

Question 98

What causes optic chiasm lesions?

Answer 98

• Tumours (pituitary adenoma, meningioma)
• Aneurysm

Question 99

What mediates the changes in the shape of the lens?

Answer 99

Parasympathetic nerve fibres travelling on the oculomotor nerve

Question 100

Describe the accommodation convergence reflex

Answer 100

• Pupil constriction and converge of the eyes when looking from a distant object to a close one
• Pupil constriction (constrictor pupillae)
• Lens accommodation (ciliary muscles)
• Convergence of eyes (contraction of both medial rectus muscles)
• Afferent pathway = optic nerve
• Efferent pathway = occulomotor nerve

Question 101

Describe accommodation of the lens for a distant object

Answer 101

Ciliary muscles relax, more tension on suspensory ligaments, lens thinner and flatter

Question 102

Describe the arterial supply of the eyeball

Answer 102

• Mostly via the ophthalmic artery (branch of internal carotid, arises immediately distal to cavernous sinus)
• Gives rise to many branches, central artery of retina most important - supplies internal surface of retina