Chapter 5: Eye and Ear Disorders

Question 1

typical disorders of the ear canal

Answer 1

otitis media

otitis externa

inflammatory conditions

cerumen impaction

Question 2

Class of drug used to treat ear inflammation

Answer 2

corticosteroids

Question 3

class of drugs used in treatment of ear pain

Answer 3

topical antipyrine and benzocaine

Question 4

drug classes used to treat cerumen impaction

Answer 4

emulsifiers and emolients

Question 5

agents used in treatment of pruritis of the ear

Answer 5

emolients such as: glycerin, mineral oil, and olive oil

Question 6

Is substitution of ototopical antibiotics reccommended?

Why or why not?

Answer 6

No because different preparations can differ in pH, viscosity, and presence of steroids

Question 7

Advantage of ototopical cipro

Answer 7

better activity against gram- bacilli

Question 8

advantage of ototopical ofloxacin

Answer 8

longer half-life and higher serum levels

appropriate for aerobic gram-bacilli (staph, strep)

Question 9

What ABT would you use for urethritis if you suspected Chlamydia was present?

Answer 9

ofloxacin

Question 10

what is an acceptable substitution for a solution of ofloxacin and why

Answer 10

a suspension of ciprofloxacin

has low pH and high viscosity

same chemical classification

Question 11

drug therapy for otitis externa

Answer 11

analgesic and antibiotic

Question 12

otic anti-infectives:

mild acids and alcohols

Answer 12

make the environment inhospitable for pathogens to reproduce

causes drying of cellular infective agents

topical, antibacterial, and antifungal effects

Question 13

otic anti-infectives:

Fluoroquinolones

Answer 13

broad coverage and affect psudomonas species

Question 14

otic anti-infectives:

corticosteroids

Answer 14

aid in reducing inflammation and patient symptoms

gives better access for topical medicines

Question 15

Implications of OTC neomycin topical antibiotics

Answer 15

associated with severe ototoxicity (especially with perforated tympanic membrane)

can cause contact dermatitis

Question 16

mechanism of action:

topical otic anti-infectives

Answer 16

work as either bacteriostatic or bacteriacidal

Question 17

Are topical anti-infectives absorbed

Answer 17

Not unless skin is broken

rest of pharmicokinetics is unknown

Question 18

Examples of otic anti-infectives

Answer 18

Ofloxacin (Floxin)

Neomycin (Myciguent)

Ciprofloxacin-hydrocortisone (Cipro HC otic)

Question 19

Dosage/administration for topical otic anti-infectives

preparations with and without steroids

Answer 19

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Question 20

Proper installation of ear drops

Adults

Answer 20

pull ear lobe up and back

Question 21

poper installation of ear drops

children

Answer 21

pull ear lobe down and back

Question 22

clinical uses for otic acid-alcohol solutions

Answer 22

superficial infections of external auditory canal

Question 23

examples of otic acid-alcohols

Answer 23

acetic acid/aluminum acetate (Domeboro Otic)

isopropyl alcohol/propylene glycol (Ear Sol)

Question 24

Antipyrine

Answer 24

otic analgesic

also has anti-inflammatory effects because it affects prostaglandin system

Question 25

Benzocaine

Answer 25

otic analgesic

blocks nerve sodium channels

Question 26

What if otitis externa does not clear after 1 week of treatment

Answer 26

obtain cultures to guide further treatment

Question 27

What should you do if a patient has 2 or more ear infections in a 6 month period

Answer 27

further eval for cholesysteatoma, foreign body, or tumor

Question 28

Analgesics that can cause ototoxicity

Answer 28

ASA and NSAIDs

Question 29

antibiotics that can cause ototoxicity

Answer 29

Aminoglycosides

clarithromycin

erythromycin

vancomycin

neomycin

Question 30

antineoplastics that can cause ototoxicity

Answer 30

cisplatin

mechlorethamine

Question 31

Loop diuretics that can cause ototoxicity

Answer 31

bumetanide

ethacrynic acid

furosemide

Question 32

dosage/administration of acid-alcohol solutions

Answer 32

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Question 33

two combination otic analgesics commonly used today

Answer 33

acetic acid and benzocaine/antipyrine/glycerin (Auralgan Otic)

benzocaine/antipyrine/propylen glycol (Tympagesic)

Question 34

dosage/administration of otic analgesics

Answer 34

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Question 35

purpose of cerumenolytics

Answer 35

soften and remove ear wax

Question 36

classifications of cerumenolytics

Answer 36

water based

oil based

nonwater/nonoil based

Question 37

examples of cerumenolytics

Answer 37

carbamide peroxide 6.5% (Debrox)

triethanolamine polypeptide oleate (Cerumenex drops)

Question 38

what is used for “swimmer’s ear”

Answer 38

isopropyl alcohol and glycerin

Question 39

What happens if triethanolamine polypeptide drops are left in the ear longer than 30 minutes

Answer 39

inflammation occurs

Question 40

cerumenolytics:

patient education

Answer 40

may hear bubling with Debrox d/t action of releasing O2 from cerumen

using carbamide peroxide longer than 4 days can damage tympanic membrane

Question 41

common eye infections

Answer 41

conjunctivitis

blepharitis

hordeolum

Question 42

What should be monitored when patient

is being treated for eye disorder

Answer 42

effectiveness of treatment

intraocular pressure

Question 43

consideration for infants and children being treated for eye disorders

Answer 43

erythromycin ointment has good coverage and is easier to administer than drops

Question 44

classes of opthalmic anesthetics

Answer 44

tetracaine (Pontocaine)

proparacaine (Ophthaine, Ophthetic)

Question 45

What can result from improper use of opthalmic anesthetics

Answer 45

deep corneal infiltrates

ulceration

perforation

Question 46

mechanism of action:

opthalmic anesthetics

Answer 46

agents penetrate to sensory nerve endings in corneal tissue

(tetracaine, proparacaine)

locally stabilize and block initiation and conduction of nerve impulses by decreasing neuronal membrane’s sensitivity to sodium ions

Question 47

doasge/administration of opthalmic anesthetics

Answer 47

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Question 48

acute conjunctivitis is usually caused by

Answer 48

virus

(pink eye)

Question 49

how can you recognized hepres infections of the eyes

Answer 49

severity

vesicular nature

corneal involvement or nerve distribution

patient population

Question 50

cases to refer to opthalmologist

Answer 50

herpes infections of the eyes

deeper infection of the globe or eye socket is suspected

Question 51

what do contact lenses place at risk for

Answer 51

fungal infections

Question 52

treatment of allergic conjunctivitis

Answer 52

antihistamines

NSAIDs

leukotriene inhibitors

corticosteroids

Question 53

best way to treat viral eye infections

Answer 53

saline drops

warm compresses

and time

Question 54

most common organisms that cause bacterial conjunctivitis

Answer 54

staphylococcus aureus

streptococcus pneumoniae

haemophilus influenzae

Question 55

opthalmic anti-infectives mechanism of action

Answer 55

bacteriostatic or bacteriocidal

Question 56

most commonly used opthalmic anti-infectives

Answer 56

tobramycin (Tobrex)

sulfacetamide (Sulamyd, Bleph-10)

sulfacetamide/prednisolone (Blephamide)

fluoroquinolones (Cipro drops)

Question 57

opthalmic anti-infectives

contraindications

Answer 57

tobramycin should not be used if systemic aminoglycosides are being used because it could affect serum levels and lead to toxicity

Question 58

Which opthalmic anti-infective may cause transient blurry vision

Answer 58

bacitracin

Question 59

patent education :

sulfacetamide solution

Answer 59

when it turns dark it has lost its potency and should be discarded

Question 60

opthalmic mast cell stabilizers mechanism of action

Answer 60

inhibit degranulation of mast cells after exposure to an antigen

Question 61

clinical uses of mast cell stabilizers

Answer 61

allergic conjunctivitis and keratitis

Question 62

examples of opthalmic mast cell stabilizers

Answer 62

Nedcromil (Alocril)

Cromolyn (Opticrom)

Lodoxamide (Alomide)

Question 63

dosage/administration of mast cell stabilizers

Answer 63

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Question 64

opthalmic antihistamines mechanism of action

Answer 64

blocks the effects of histamine released during allergic reactions and blunts its symptoms

Question 65

clinical use of opthalmic antihistamines

Answer 65

relief of itching associated with seasonal allergies and allergic conjunctivitis

Question 66

examples of opthalmic antihistamines

Answer 66

azelastine (Optivar)

epinastine (Elestat)

antazoline (Vasocon)

amedastine (Emadine)

ketotofen (Zaditor)

levocabastine (Livostin)

olopatadine (Patanol)

Question 67

opthalmic antihistamines and contact lenses

Answer 67

dont wear while using them

wait 15 minutes before re-applying them

replace them if eye is red

Question 68

opthalmic vasoconstrictors mechanism of action

Answer 68

weak sympathomimetic agents that constrict

blood vessels in conjunctiva

Question 69

clinical use for opthalmic vasoconstrictors

Answer 69

relief of eye redness caused by irritants or allergies

Question 70

opthalmin vasoconstrictors contraindications

Answer 70

narrow angle glaucoma

Question 71

examples of opthalmic vasoconstricotrs

Answer 71

oxymetazoline (Afrin)

tetrahydrozine (Visine)

Question 72

dosage/administration of opthalmic vasoconstrictors

Answer 72

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Question 73

dosage/administration of opthalmic antihistamines

Answer 73

page 73

Question 74

opthalmic vasoconstricotrs interactions

Answer 74

increased pressor effects with MAOIs

Question 75

cyclosporin (Restasis)

Answer 75

polycyclic polypeptide that inhibits interleukin 2

Question 76

clinical uses of Restasis

Answer 76

prevents organ rejection after transplant surgery

opthalmic preparation to prevent rejection of corneal implant

Question 77

opthalmic lubricants actions

Answer 77

contain agents that provide hydration. maintain moisture, and protect eye

can be viscous or non-viscous

Question 78

clincal uses of opthalmic lubricants

Answer 78

supplement natural tears for dry eyes or to wash away irritants

viscosity enhancers

(promotes increased contact time of an opthalmic agent with an ocular surface)

secondary corneal edema

Question 79

Types of agents used to treat glaucoma

Answer 79

direct and indirect acting miotics

topical prostaglandin agonists

carbonic anhydrase inhibitors

sympathomimetic agents

alpha-2 adrenergic agonists

beta blockers

opthalmic osmotics

Question 80

Miotics mechanism of action

Answer 80

contracts the iris sphincter muscle, resulting in miosis

(pupillary constriction)

Question 81

Examples of direct acting miotics

Answer 81

carbachol (Isopto Carbachol)

Question 82

examples of indirect-acting miotics

Answer 82

echothiophate (Phospholine)

Question 83

How do miotics decrease intra-ocular pressure

Answer 83

• when the pupil constricts, it also constricts the ciliary muscles attached to the trabecular mesh work
• This opens the canal of Schlemm which increases the outflow of aqueous humor
• which decreases IOP

Question 84

dosage/administration of miotics

Answer 84

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Question 85

clinical uses of miotics

Answer 85

glaucoma

Sjogren’s syndrome

Question 86

Miotics adverse reactions

Answer 86

abdominal cramps, diarrhea, watery mouth, excessive sweating, urinary incontinence, muscle weakness

Question 87

Miotics contraindications

Answer 87

active inflammation of the eye

Question 88

Patient education on miotics

Answer 88

it will impair adjustment to changes in light

Question 89

topical prostaglandin agonists mechanism of action

Answer 89

stabilized, synthetic analogues of prostaglandin that increase outflow of intraocular aqueous humor to lower IOP

(acts on RF prostaglandin receptor)

Question 90

examples of topical prostaglandin agonsits

Answer 90

latanoprost(Xalatan)

bimatoprost (Lumigan)

travoprost (Travatan)

unoprostone (Recula)

Question 91

clinical use of topical prostaglandin agonists

Answer 91

open-angle glaucoma

Question 92

dosage/administration of topical prostaglandin agonists

Answer 92

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Question 93

absorption of topical prostaglandin agonists

Answer 93

• through cornea ad hydrolyzed into active compound:
  
  • Latanoprost and bimatoprost
• not absorbed but active on the cornea:
  
  • travoprost and unoprostone

Question 94

distribution of topical prostaglandin agonists

Answer 94

• bimatoprost: 80% protein bound
• lataoprost: 4h in aqeous humor and 1 hour in plasma
• travoprost: 1 hour in plasma then rapidly eliminated
• unoprostone: not reported

Question 95

metabolism of topical prostaglandin agonists

Answer 95

• latanoprost: hydrolyzed in liver
• bimatoprost: oxidated in liver
• travoprost and unoprostone: hydrolyzed by esterases in the cornea

Question 96

excretion of topical prostaglandin agonists

Answer 96

• latanoprost and bimatoprost: urine
• travoprost and roprostone: urine (rapid and undetectable in an hour)

Question 97

half-life of topical prostaglandin agonists

Answer 97

• latanoprost: 45 minutes
• bimatoprost: about 45 minutes
• travoprost: 45 minutes
• unoprostone: unreported

Question 98

topical prostaglandin agonist adverse reactions

Answer 98

sensation of foreign body in the eye

permanent discoloration of iris with brown pigment

eyelash changes

conjunctival hyperuremia

Question 99

topical prostaglandin agonist contraindications

Answer 99

pregnancy category C

not for children

pulmonary diseases

Question 100

carbonic anhydrase inhibitors

(CAIs)

Answer 100

not first-line therapy

used as diuretics

Question 101

topical CAIs

Answer 101

brinzolamide (Azopt)

dorzolamide (Trusopt)

Question 102

oral CAIs

Answer 102

Diamox

Neptazane

page 78

Question 103

CAI pharmacookinetics

Answer 103

page 78

Question 104

CAI adverse reactions

Answer 104

• DERM: rash, alopecia, STEVENS-JOHNSON SYNDROME
• GI: anorexia, bitter or altered sense of tast with dorzolamide and brinzolamide
• GU: kidney stones
• HEME: blood dyscrasias, bone marrow supression
• META: metabolic acidosis
• MISC: weakness and myalgia, groin/leg pain, malaise, fatigue
• NEURO: depression, headache, nervousness, numbness/tingling

Question 105

CAI interactions:

acetazolamide and methimazole

Answer 105

sulfa derivatives so interacts with salicylates, phenytoin, quinidine, and cyclosporine

Question 106

contraindications to sympathomimetic agents

Answer 106

• hypersensitivities
• cerebrovascular insufficiencies
• cardiovascular disease
• DM
• hyperthyroidism
• parkinson’s
• HTN

Question 107

interactions for alpha-2 agnosits

Answer 107

use with MAOIs can cause HTN crisis

Question 108

most common agent to treat open-angle glaucoma

Answer 108

beta blocker eye drops

Question 109

contraindications for opthalmic beta blockers

Answer 109

glaucoma who also have bradycardia, AV block, or HF

DM because it intereferes with glycolysis

hyperthyroidism

Raynaud’s or any other peripheral vascular disorder

Question 110

Opthalmic osmotics mechanism of action

Answer 110

makes osmotic pressure of glomerular filtrate hypertonic allowing water and electrolytes to be passively pulled out of cellular and interstitial spaces

excess fluid is excreted in urine

Question 111

clinical use for opthalmic osmotics

Answer 111

interupt acute attack og glaucoma or hypertensive crisis

extremely high IOP

cerebral edema

Question 112

example of opthalmic osmotic

Answer 112

mannitol

Question 113

Mannitol adverse reactions

Answer 113

• EENT: blurry vision, rhinitis
• CV: transient volume expansion, chest pain, edema, tachycardia
• GI: N/V, thirst
• GU: renal failure
• META: dehydration, hyperkalemia, hypernatremia, hypokalemia, hyponatremia
• MISC: phlebitis at injection site
• NEURO: confusion, headache

Question 114

Mannitol interactions

Answer 114

hypokaleia can potentiate digoxin toxicity

Question 115

Mannitol contraindications

Answer 115

cardiac impairement, sever liver dysfunction, dehydration, intracranial bleeding, kidney impairement

Question 116

administration of mannitol

Answer 116

infuse over 30 minutes to reduce IOP

Question 117

pupillary constricters mechanism of action

Answer 117

paralyze accomodation reflex (cytoplegia)

used for eye exams (to examine retina)

Question 118

contraindication for pupillary constrictors and why

Answer 118

closed-angel glaucoma

iris dilation occludes outflow of aqueous humor and increases IOP

Question 119

examples of pupillary constrictors

Answer 119

cyclopentolate (Cyclogyl)

tropicamide (Mydral)

Question 120

pregnancy, geriatric, and pediatric considerations

Answer 120

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