Lens and Cataracts

Question 1

the lens is a ____ structure located within the ____

Answer 1

transparent, biconvex;

posterior chamber

Question 2

the lens is suspended in the posterior chamber via ____

Answer 2

zonules (suspensory ligaments)

Question 3

the lens focuses ____

Answer 3

light rays to a point source on the retina

Question 4

the lens contributes ____ of total refractive power of the eye

Answer 4

13-17 D

Question 5

the lens has a ____ refractive index (____)

Answer 5

high; 1.3-1.4

Question 6

the lens is composed of ____ and is divided into ____

Answer 6

epithelial cells with a basement membrane;

the embryonic nucleus, fetal nucleus, adult nucleus, cortex, and capsule

Question 7

during gestation, a single layer of _____ forms a hollow sphere, called the _____

Answer 7

epithelial cells; lens vesicle

Question 8

_____ cells of the lens vesicle elongate to become primary lens fibers; they fill the lens vesicle and form the ____

Answer 8

posterior;

embryonic nucleus

Question 9

_____ cells of the lens vesicle near the equator divide to produce new epithelial cells; these cells elongate to become secondary lens fibers and form the ____, which surrounds the ____

cell elongation continues until ____; form ____, allowing cells to remain tightly connected during accommodation

as cells reach the sutures, ____; cells consist of ____

Answer 9

anterior;
fetal nucleus;
embryonic nucleus

nasal and temporal cells meet (suture); interlocking ball-and-socket and tongue-and-groove junctions

nuclei and organelles are degraded; only a cell membrane, cytoskeleton, and crystallins (proteins)

Question 10

the anterior suture appears as ____, while the posterior suture appears as ____

Answer 10

an upright Y;

an inverted Y

Question 11

after birth, _____ cells continue to divide and elongate;
secondary lens fibers produced after birth form the ____, which surrounds the ____

newly produced secondary lens fibers are located in the ____

new fibers continue to surround older more central fibers; growth results in concentric layers of _____;
_____ cells are removed from the lens; cells in the center of the lens are ____

Answer 11

anterior;
adult nucleus;
fetal nucleus

cortex

secondary lens fibers;
no;
the oldest cells in the body

Question 12

the basement membrane of the outer epithelial cells is called the _____; it surrounds ____

Answer 12

lens capsule;

the entire lens

Question 13

the lens capsule is composed of _____; arrangement makes the lens capsule ____

Answer 13

primarily type IV collagen and GAGs;

highly elastic

Question 14

____ lens capsule thickens throughout life; lens capsule components are secreted by _____; becomes the ____ BM in the body

Answer 14

anterior;
anterior epithelial cells;
thickest

Question 15

____ lens capsule remains the same thickness throughout life; no _____ to secrete the lens capsule components

Answer 15

posterior;

posterior epithelial cells

Question 16

the lens absorbs _____

Answer 16

ultraviolet light

Question 17

_____ in the lens absorb most of UV-A (320-400 nm) radiation to prevent it from _____; absorption of UV radiation leads to production of ____

Answer 17

chromophores (yellow pigment);
reaching the retina;
free radicals –> DNA damage and protein aggregation

Question 18

the lens refracts _____

Answer 18

visible light (400-700 nm)

Question 19

refractive power of the lens changes with ____

Answer 19

contraction of the ciliary muscle

Question 20

What happens with contraction of the ciliary muscle?

Answer 20

zonules relax –> lens thickness increases –> lens equatorial diameter decreases –> anterior lens radius of curvature decreases (anterior surface curvature steepens) –> lens refractive power increases (> 20D) = accommodation

Question 21

with age, ability for the lens to change its curvature is ____; ciliary body moves progressively ____; lens _____; lens rigidity ____; nucleus becomes ____ than the cortex

Answer 21

impaired (presbyopia);
inward toward the lens; 
thickens;
increases;
stiffer

Question 22

the lens transmits ____

Answer 22

visible light (400-700 nm)

Question 23

for optimal light transmission, the lens must be ____

Answer 23

transparent

Question 24

the ____ are the only transparent tissues in the body

Answer 24

lens, cornea, vitreous

Question 25

contributions to lens transparency

Answer 25

• lack of blood vessels and nerves
• orderly arrangement of lens fibers with uniform spacing between lens fibers; cells are hexagonal, allowing for tight, uniform packing of cells
• few cellular organelles in the visual axis
• high concentration of crystallins
• Na+/K+/ATPase in epithelial cell membranes
• presence of antioxidants glutathione and ascorbic acid (Vitamin C); neutralize free readicals

Question 26

What are crystallins?

Answer 26

water-soluble proteins that comprise over 90% of total cellular protein; types alpha, beta, gamma;
alpha crystallins function as molecular chaperones - stabilize proteins that are partially unfolded and prevent them from aggregating;
beta and gamma crystallins have unknown functions

Question 27

with age, the lens loses ____

Answer 27

transparency

Question 28

with age, chromophore concentration ____;

leads to _____ and _____

Answer 28

increases;
yellowing of the lens;
DNA damage and protein aggregation

Question 29

with age, glutathione concentration ____;

leads to _____

Answer 29

decreases;

DNA damage and protein aggregation

Question 30

with age, alpha crystallin concentration ____;
by age 45, _____;
leads to ____

Answer 30

decreases;
no alpha crystallins evident in the lens nucleus;
protein aggregation

Question 31

with age, epithelial cell membrane permeability ____; leading to ____

Answer 31

increases;
solutes and water enter epithelial cell –> swelling of lens fibers; disrupts orderly arrangement and uniform spacing of lens fibers

Question 32

nuclear sclerosis

Answer 32

hardening and yellowing of the lens nucleus

Question 33

nuclear sclerosis etiology

Answer 33

age-related

Question 34

nuclear sclerosis demographics

Answer 34

everyone, typically begins around age 50

Question 35

nuclear sclerosis laterality

Answer 35

bilateral > unilateral (can be asymmetric)

Question 36

nuclear sclerosis symptoms

Answer 36

• asymptomatic
• blurred vision, decreased night vision
• poor color discrimination

Question 37

nuclear sclerosis signs

Answer 37

• yellow lens nucleus, may progress to brown (brunescent)

- refractive shift, typically a myopic shift (“second sight”)

Question 38

nuclear sclerosis management

Answer 38

• monitor: 6 month to yearly observation, SL exam, grade severity
• correct refractive error
• refer for cataract surgery when BCVA is 20/40 or worse (most states’ legal driving requirement) or when the cataract is impacting ADLs (vision can be better than 20/40)

Question 39

nuclear sclerosis pearls

Answer 39

• NS can also be white or “milky”: greater effect on vision, larger myopic shift
• slowly progressive
• can progress to a mature or hypermature cataract
• historically, medical insurance would only pay for surgery when the vision was 20/40 or worse

Question 40

cortical cataract

Answer 40

opacification of the lens cortex

Question 41

cortical cataract etiology

Answer 41

age-related

Question 42

cortical cataract demographics

Answer 42

everyone, typically begins around age 50

Question 43

cortical cataract laterality

Answer 43

bilateral > unilateral (can be asymmetric)

Question 44

cortical cataract symptoms

Answer 44

• asymptomatic
• blurred vision
• glare/night vision problems

Question 45

cortical cataract signs

Answer 45

• cortical water clefts and vacuoles in the early stages
• spoke or wedge-like opacities in the cortex- begin in the periphery, coalesce (get thicker and larger) as the opacities encroach the visual axis
• refractive shift, typically a hyperopic shift, lenticular cyl

Question 46

cortical cataract management

Answer 46

• monitor: 6 month to yearly observation, SL exam, grade severity
• correct refractive error
• refer for cataract surgery when BCVA is 20/40 or worse (most states’ legal driving requirement) or when the cataract is impacting ADLs (vision can be better than 20/40)

Question 47

cortical cataract pearls

Answer 47

• slowly progressive
• can progress to a mature or hypermature cataract
• often makes BIO more difficult- glare…

Question 48

mature cataract

Answer 48

complete opacification of the entire lens

Question 49

mature cataract etiology

Answer 49

progression of a cortico-nuclear cataract

Question 50

mature cataract laterality

Answer 50

bilateral > unilateral (usually have cataracts in both eyes, but only one is mature)

Question 51

mature cataract symptoms

Answer 51

significantly blurred vision (20/400, hand motion, etc.)

Question 52

mature cataract signs

Answer 52

• complete opacification of the entire lens
• leukocoria (white pupil)
• shallow anterior chamber

Question 53

mature cataract complications

Answer 53

phacomorphic glaucoma

Question 54

mature cataract management

Answer 54

refer for cataract surgery

Question 55

mature cataract pearls

Answer 55

• order B scan to evaluate posterior segment pathology

- not common where there is access to cataract surgery

Question 56

hypermature cataract (Morgagnian)

Answer 56

mature cataract with liquefaction of the cortex and sinking of the nucleus to the bottom of the lens capsule

Question 57

hypermature cataract etiology

Answer 57

progression of a mature cataract

Question 58

hypermature cataract laterality

Answer 58

bilateral or unilateral (usually only one will be hypermature)

Question 59

hypermature cataract symptoms

Answer 59

significantly blurred vision (probably not seeing much at all)

Question 60

hypermature cataract signs

Answer 60

• complete liquefaction of the entire lens with the nucleus floating freely in the liquefied cortex
• leukocoria
• shallow anterior chamber

Question 61

hypermature cataract complications

Answer 61

• lens capsule rupture
• phacolytic uveitis
• phacolytic glaucoma

Question 62

hypermature cataract management

Answer 62

refer for cataract surgery

Question 63

hypermature cataract pearls

Answer 63

• order B scan to evaluate posterior segment pathology

- not common where there is access to cataract surgery

Question 64

posterior subcapsular cataract (PSC)

Answer 64

opacification between the posterior cortex and capsule

Question 65

posterior subcapsular cataract (PSC) etiology/associations

Answer 65

• age-related
• associated with chronic uveitis, prolonged steroid use, RP, AKC, pathological myopia, radiation, systemic disease (ex: DM, neurofibromatosis)

Question 66

posterior subcapsular cataract (PSC) demographics

Answer 66

typically begins around age 50 if age-related

Question 67

posterior subcapsular cataract (PSC) laterality

Answer 67

bilateral > unilateral

Question 68

posterior subcapsular cataract (PSC) symptoms

Answer 68

• asymptomatic
• blurred vision near > distance (smaller pupil size at near –> PSC fills whole visual axis; often pinhole VA will be worse)
• glare

Question 69

posterior subcapsular cataract (PSC) signs

Answer 69

• granular or plaque-like opacification anterior to the posterior capsule; commonly begins as a round opacity in the visual axis
• posterior cortical opacification

Question 70

posterior subcapsular cataract (PSC) management

Answer 70

• monitor: SL exam with retroillumination, grade severity

- cataract surgery when ADLs are affected

Question 71

posterior subcapsular cataract (PSC) pearls

Answer 71

progresses more rapidly than other senile cataracts (months vs years)*

Question 72

most common cataracts

Answer 72

• NS
• Cortical
• PSC

Question 73

anterior subcapsular cataract (ASC)

Answer 73

opacification between the anterior capsule and cortex

Question 74

anterior subcapsular cataract (ASC) etiology/associations

Answer 74

associated with angle closure (cataract is termed glaucomflecken), AKC, meds (ex: phenothiazines, amiodarone), radiation

Question 75

anterior subcapsular cataract (ASC) laterality

Answer 75

bilateral > unilateral

Question 76

anterior subcapsular cataract (ASC) symptoms

Answer 76

• asymptomatic
• blurred vision
• glare

Question 77

anterior subcapsular cataract (ASC) signs

Answer 77

• granular or plaque-like opacification posterior to the anterior capsule
• anterior cortical opacification

Question 78

anterior subcapsular cataract (ASC) management

Answer 78

• monitor: SL exam with retroillumination, grade severity

- refer for cataract surgery when BCVA is 20/40 or worse or when the cataract is impacting ADLs

Question 79

sunflower cataract (chalcosis lentis)

Answer 79

opacification in a sunflower pattern between the anterior capsule and cortex

Question 80

sunflower cataract (chalcosis lentis) etiology/associations

Answer 80

copper deposition (Wilson disease)

Question 81

sunflower cataract (chalcosis lentis) laterality

Answer 81

bilateral > unilateral (because of association with systemic disease)

Question 82

sunflower cataract (chalcosis lentis) symptoms

Answer 82

• asymptomatic
• blurred vision
• glare

Question 83

sunflower cataract (chalcosis lentis) signs

Answer 83

yellow, green, or red sunflower-like opacification beneath the anterior capsule

Question 84

sunflower cataract (chalcosis lentis) management

Answer 84

• monitor: SL exam with retroillumination, grade severity
• refer to PCP for evaluation of Wilson’s disease- may resolve with improvement in copper levels
• refer for cataract surgery when BCVA is 20/40 or worse or when the cataract is impacting ADLs

Question 85

snowflake cataract

Answer 85

white opacities in the cortex

Question 86

snowflake cataract etiology/associations

Answer 86

DM

Question 87

snowflake cataract laterality

Answer 87

bilateral > unilateral

Question 88

snowflake cataract symptoms

Answer 88

• asymptomatic
• blurred vision
• glare

Question 89

snowflake cataract signs

Answer 89

white, snowflake-like opacities in the cortex

Question 90

snowflake cataract management

Answer 90

• monitor: SL exam with retroillumination, grade severity
• refer to PCP for evaluation of DM- may resolve with improvement in BG
• refer for cataract surgery when BCVA is 20/40 or worse or when the cataract is impacting ADLs

Question 91

snowflake cataract pearls

Answer 91

progresses rapidly

Question 92

Christmas tree cataract (polychromatic cataract)

Answer 92

glittering, multi-colored opacities in the cortex

Question 93

Christmas tree cataract (polychromatic cataract) etiology/associations

Answer 93

• myotonic dystrophy

- rarely, age-related

Question 94

Christmas tree cataract (polychromatic cataract) laterality

Answer 94

bilateral > unilateral

Question 95

Christmas tree cataract (polychromatic cataract) symptoms

Answer 95

• asymptomatic
• blurred vision
• glare

Question 96

Christmas tree cataract (polychromatic cataract) signs

Answer 96

glittering, multi-colored opacities in the cortex; evolve into typical cortical and/or subcapsular opacities often star-like in conformation

Question 97

Christmas tree cataract (polychromatic cataract) management

Answer 97

• monitor: SL exam with retroillumination, grade severity
• refer to PCP for evaluation of myotonic dystrophy
• refer for cataract surgery when BCVA is 20/40 or worse or when the cataract is impacting ADLs

Question 98

the lens and diabetes mellitus

Answer 98

• glucose increases in the aqueous as it increases in the bloodstream –> diffuses into the lens and is metabolized into sorbitol
• refractive error can be changed as plasma glucose level changes; hyperglycemia = myopia, hypoglycemia = hyperopia
• NS and other cataracts may develop earlier than “expected” in the patient with diabetes

Question 99

other diseases associated with cataract

Answer 99

• myotonic dystrophy
• atopic dermatitis
• neurofibromatosis type 2
• chronic anterior uveitis
• acute angle closure
• high myopia
• hereditary fundus dystrophies

Question 100

traumatic cataract

Answer 100

• the most common cause of unilateral cataract in young patients
• penetrating trauma
• blunt trauma
• electric shock
• radiation (glassblowers, etc.)
• surgery

Question 101

cataract surgery procedure

Answer 101

• corneal incision
• removal of a portion of the anterior lens capsule
• removal of the lens
• implantation of IOL

Question 102

posterior capsular opacification (PCO)

Answer 102

• also called “after-cataract” or “secondary cataract”

- opacification between a PCIOL and posterior capsule

Question 103

posterior capsular opacification (PCO)

Answer 103

proliferation of lens epithelial cells onto the posterior capsule

Question 104

posterior capsular opacification (PCO) laterality

Answer 104

bilateral or unilateral

Question 105

posterior capsular opacification (PCO) symptoms

Answer 105

• asymptomatic
• blurred vision
• glare

Question 106

posterior capsular opacification (PCO) signs

Answer 106

• PCIOL
• Elschnig’s pearls (round, clear “pearls” on the posterior capsule)
• wrinkling of the posterior capsule

Question 107

posterior capsular opacification (PCO) management

Answer 107

• monitor: SL exam with retroillumination, grade severity

- neodymium: yttrium-aluminum-garnet (Nd: YAG) laser capsulotomy when ADLs are affected

Question 108

posterior capsular opacification (PCO) pearls

Answer 108

• most common post-op complication of cataract surgery
• up to 50% of patients develop PCO
• can occur days, weeks, months, or years after surgery

Question 109

pseudoexfoliation syndrome

Answer 109

systemic disease in which grayish-white material is deposited on anterior segment structures and systemically (e.g., skin, heart, lungs)

Question 110

pseudoexfoliation syndrome etiology

Answer 110

defect in a gene; codes for an enzyme responsible for the formation of elastin fibers

Question 111

pseudoexfoliation syndrome demographics

Answer 111

• particularly common in Scandinavians

- incidence increases after age 60 years

Question 112

pseudoexfoliation syndrome laterality

Answer 112

bilateral or unilateral

Question 113

pseudoexfoliation syndrome symptoms

Answer 113

asymptomatic

Question 114

pseudoexfoliation syndrome signs

Answer 114

grayish-white flaky deposition:

• anterior lens capsule- central zone of deposition (often with rolled-up edges), middle clear zone, peripheral cloudy zone
• pupillary margin
• K endothelium
• TM
• anterior hyaloid
• ciliary body
• zonules
• iris sphincter atrophy with TIDs at the pupillary margin
• pigmentation of the TM, at or anterior to Schwalbe’s line (Sampaolesi line), and K endothelium

Question 115

pseudoexfoliation syndrome complications

Answer 115

• secondary open angle glaucoma: fibrillar material and pigment may obstruct the TM
• secondary narrow angle or angle closure glaucoma: unstable zonules can lead to anterior lens dislocation and narrow angles
• lens (natural or implant) dislocation: zonules are unstable

Question 116

pseudoexfoliation syndrome management

Answer 116

• monitor q6-12 months for PXF glaucoma: SL exam with retroillumination (retroillumination aids in viewing iris TIDs and lens opacities), grade severity of fibrillar deposition/pigment on anterior segment structures, ASeg photos, IOP, gonioscopy, ON photos, ON OCT, GCC, VF
• if glaucoma develops, treatment is similar to POAG

Question 117

pseudoexfoliation syndrome pearls

Answer 117

• pseudoexfoliation syndrome is the most common cause of secondary open angle glaucoma
• up to 60% develop OHTN or glaucoma
• affects 2% of US population over age 50 years