Pharmacology

Question 1

Which of the following properties may increase the efficacy of a topical ophthalmic medication?

A. Prescribing the medication in suspension form
B. Decreased viscosity
C. Increased concentration of preservatives
D. Possessing a pH that is close to the physiological pH of the eye

Answer 1

D.
Explanation - An ophthalmic medication that possesses a pH that is as close to the natural pH of the tear film will generally cause less stinging and ocular irritation with instillation. A drop that results in stinging produces reflex tearing, which dilutes the topical medication, thereby decreasing its efficacy. A drug that results in ocular discomfort, for some patients, may also result in poor compliance with the dosing schedule.

Generally, medications that are in suspension form are not as beneficial as those in emulsion form due to poor patient compliance with shaking of the bottle prior to use to properly distribute the medication; this lack of compliance causes inadvertent non-uniform dosing. Increased viscosity of the medication, although possibly leading to varying degrees of vision blurring, offers better ocular retention and better performance. Although there is some debate regarding toxic effects on the cornea by preservatives, the majority of clinicians agree that if a drop is used with increased frequency, a preservative-free formulation is beneficial to the patient.

Question 2

Scurvy results from a deficiency of what vitamin?
A. Vitamin D
B. Vitamin A
C. Vitamin B
D. Vitamin C

Answer 2

D.
Explanation - Vitamin C, also known as ascorbic acid, is a powerful antioxidant. It facilitates the absorption of dietary iron. It is also a cofactor in many enzymatic reactions, including the synthesis of collagen. Avitaminosis C results in scurvy caused by the creation of unstable collagen. Scurvy presents with general weakness, anemia, brown spots on the skin, spongy gums, petechial hemorrhages of the skin and mucous membranes, proptosis and feelings of paralysis, amongst other symptoms. Advanced cases are remarkable for open suppurative wounds, loss of teeth, and death. Interesting fact: Broccoli contains more vitamin C than oranges, 90mg/100mg vs. 50mg/100mg. The kakadu plum contains a whopping 3100mg/100mg of vitamin C!! Severe alcoholics can become victims of scurvy due to malnutrition.

Question 3

A 54-year old female presents at your office with a very photobic, red right eye. Slit lamp exam reveals 3+ cells and flare in the anterior chamber. There is no evidence of inflammation in the left eye. You correctly diagnose her with iritis and initiate treatment. However, you also notice that her intraocular pressure is 31 mmHg. Which of the following glaucoma medications should NOT be prescribed?

A. Trusopt® (dorzolamide)
B. Timoptic® (timolol maleate)
C. Xalatan® (latanoprost)
D. Alphagan-P® (brimonidine tartrate)

Answer 3

C.
Explanation - Xalatan® should not be prescribed because prostaglandins are contraindicated when there is active ocular inflammation. Trusopt®, Timolol® and Alphagan-P® could all be used to decrease her intraocular pressure (IOP) but Alphagan-P® would be the best drop to prescribe. Alphagan-P® is frequently utilized to reduce IOP following anterior segment laser surgery, such as in argon laser trabeculoplasty, which frequently causes transient, mild inflammation.

It should be stated that clinically, if the left eye has normal IOP and you see flare due to iritis, this would indicate inflammatory glaucoma which is best treated with a steroid.

Question 4

Which 3 of the following glaucoma medications are classified as beta blockers? (Select 3)

A. Brimonidine (Alphagan-P®)
B. Unoprostone isopropyl (Rescula®)
C. Carteolol HCL (Ocupress®)
D. Timoptic Hemihydrate (Betimol®)
E. Levobunolol HCL (Betagan®)
F. Bimatoprost (Lumigan®)

Answer 4

C, D, E
Explanation - Alphagan-P® is an adrenergic alpha-2 agonist. Rescula® and Lumigan® are prostaglandins analogs. Betagan®, Ocupress® and Betimol® are all categorized as beta blockers. Beta-blockers serve to decrease intraocular pressure (IOP) by blocking respective beta receptors located in the ciliary body, thereby decreasing production of aqueous. Beta blockers also decrease the damaging effects of glaucoma by increasing outflow facility, resulting in a lowering of IOP. Note: beta blockers generally end in “olol”.

Question 5

A deficiency of which of the following vitamins results in rickets in children and osteomalacia in adults?

A. Vitamin C
B. Vitamin A
C. Vitamin B
D. Vitamin D

Answer 5

D.
Explanation - Vitamin D plays a large role in regulating calcium and phosphate levels within the body. A major source of Vitamin D is sunlight; however, UV exposure can increase the risk of skin cancer. UV light converts Vitamin D to its active form, allowing for greater absorption of calcium in the gut. The calcium is then deposited into the bones, teeth etc. Dietary forms of Vitamin D include butter, eggs, margarine, fish liver oil, and fortified milk and juice.

Question 6

Cyclosporine is commonly used topically to treat certain eye conditions including keratoconjunctivitis sicca (KCS). Which of the following is a known mechanism of action for cyclosporine?

A. Inhibition of T-cell activation
B. Antagonism of vitamin K
C. Stabilization of mast cells
D. Inhibition of cyclooxygenase (COX)

Answer 6

A.
Explanation - While the exact mechanism of action of cyclosporine remains controversial, it is generally accepted that cyclosporine inhibits calcineurin in CD4+ T helper cells which, under normal circumstances, are responsible for production of interleukin-2 (IL-2). IL-2 normally stimulates activation and proliferation of cytotoxic T cells and other helper T cells. Cyclosporine prevents this activation and acts as an anti-inflammatory. One of the major causes of KCS is autoimmune destruction of lacrimal cells by T cells. Therefore, topical cyclosporine can be protective. In all likelihood, there are likely additional mechanisms of action for cyclosporine in the treatment of KCS, but this is one of the most accepted mechanisms and is the best option from the choices given here.

Question 7

The first-generation cephalosporins have a potential for cross-reactivity with which of the following drug classes?

A. Macrolides
B. Fluoroquinolones
C. Penicillins
D. Aminoglycosides

Answer 7

C.
Explanation - From a biochemistry perspective, first-generation cephalosporins and penicillin-based medications appear similar in that their physical pharmacological make-ups both possess a beta-lactam ring. Most studies purport that roughly 10% (although recent studies suggest 1% or less) of patients who are allergic to penicillin may also potentially exhibit an allergic response to the first-generation cephalosporins. The cross-reactivity between penicillins and cephalosporins is almost non-existent with the third-generation cephalosporins. Although the chances of a patient possessing a cross-reactivity between penicillin and cephalosporin drugs is very rare, it is best to prescribe an alternate antibiotic when a known allergy to penicillins exists.

Question 8

Which of the following agents can be used for INTRAOCULAR surgical procedures?

A. Saline
B. Thimerosal
C. Balanced salt solution (BSS)
D. Benzalkonium chloride (BAK)

Answer 8

C.
Explanation - Thimerosal and BAK are microbial agents and can be used in small doses as preservatives on extraocular surfaces; however, if used intraocularly they will result in iritis, cataract formation, and death of corneal endothelial cells. Saline is not an acceptable intraocular irrigating solution because it does not contain the electrolytes needed to maintain proper isotonicity of the corneal endothelium (such as calcium, magnesium, glucose, sodium, potassium, etc.); this will result in swelling and lysis of the endothelial cells. BSS is frequently used for short-term intraocular surgeries as it is isotonic to ocular tissue and contains electrolytes that are needed for normal cell functions.

Question 9

Which of the following vitamins is also known as thiamine?

A. Vitamin B3
B. Vitamin B1
C. Vitamin B6
D. Vitamin B2

Answer 9

B.
Explanation - Vitamin B1 is also known as thiamine. Thiamine is important for carbohydrate metabolism and the maintenance of neuronal tissue. Although rarely seen in the United States due to the fact that most foods are enriched with vitamins, a B1 deficiency can result in beriberi. Symptoms of beriberi include difficulty walking, loss of sensation in hands and feet, paralysis (due to deterioration of myelin sheath), nystagmus, speech difficulty/mental confusion, ophthalmoplegia, and congestive heart failure. Alcoholism can lead to beriberi due to malnutrition. Vitamin B2, also known as riboflavin, aids in the metabolism of nutrients. Avitaminosis B2 can result in decreased visual acuity due to corneal neovascularization, keratoconjunctivitis sicca, or cataract formation. Vitamin B3 (a.k.a. niacin) is responsible for fat and carbohydrate metabolism. A deficiency of Vitamin B3 can cause pellagra, which results in diarrhea, dementia, and dermatitis. Niacin can be used to treat hyperlipoproteinemia. Vitamin B6, also called pyridoxine, serves an important role as a coenzyme for the formation of hemoglobin as well as amino acid and protein metabolism.

Question 10

A dilated fundus exam reveals white crystalline deposits within the macular region of your patient. Which of the following medications is MOST likely responsible for causing these deposits?

A. Amiodarone
B. Tamoxifen
C. Plaquenil®
D. Ciprofloxacin

Answer 10

B.
Explanation - Tamoxifen; is frequently used in the treatment of breast cancer. Patients taking this medication may experience decreased visual acuity due to white crystalline retinal deposits; these are most densely concentrated around the paramacular region. Tamoxifen; may also cause corneal deposits, cystoid macular edema, grey lesions within the RPE, retinal hemorrhages, and optic disc edema.

Plaquenil® is an anti-malarial drug that is frequently prescribed to treat systemic lupus and rheumatoid arthritis. The medication binds to melanin and accumulates in the retina, leading to macular mottling and retinal pigment epithelial disruptions and often resulting in what is known as “bull’s eye maculopathy”.

Amiodarone is an anti-arrhythmic medication. Use of this drug commonly causes yellow/brown or white powdery corneal epithelial deposits located infero-centrally that appear to swirl outward while sparing the limbus (vortex keratopathy).

Fluoroquinolones are a powerful class of antibiotics that inhibit bacterial DNA gyrase but, when taken orally, pose a risk of tendon rupture and tendinitis. The risk of the aforementioned side effects increases in individuals over the age of 60 or those with renal failure or taking oral steroids or in people who have undergone an organ transplant. Fluoroquinolone use also may be associated with diplopia.

Question 11

Which of the following glaucoma medications causes lengthening and thickening of eyelashes as a side effect?

A. Dorzolamide (Trusopt®)
B. Brimonidine (Alphagan-P®)
C. Bimatoprost (Lumigan®)
D. Pilocarpine

Answer 11

C.
Explanation - Lumigan® is classified as a prostaglandin. This category of glaucoma medications can cause growth of eyelashes as a side effect along with pseudodendrites, photophobia, irritation, superficial punctate keratitis, cystoid macular edema, hyperemia and changes to iris color. By taking advantage of this desired cosmetic side effect, Latisse®, patented by Allergan, was created specifically for the purpose of promoting eyelash length and thickness.

Question 12

Which 2 of the following statements are TRUE in regards to the ocular absorption of ophthalmic drugs? (Select 2)

A. The primary absorption pathway for small, lipophilic drugs is the transcorneal route
B. The primary absorption pathway for small, lipophilic drugs is the transconjunctival route
C. The primary absorption pathway for large, hydrophilic drugs is the transcorneal route
D. The primary absorption pathway for large, hydrophilic drugs is the transconjunctival route

Answer 12

A, D
Explanation - Topical instillation of medications is the most common method utilized to administer treatment for ocular conditions. There are two major pathways that allow an ophthalmic drug to enter the eye: the transcorneal route and the transconjunctival (conjunctiva-sclera-ciliary body) route. Various properties of the topical drugs will determine which pathway is used to permeate the ocular tissue barriers. The primary absorption route for small, lipophilic drugs is the transcorneal route, while the primary pathway for larger, hydrophilic drugs is the transconjunctival route.

Question 13

Which of the following pain relievers is MOST LIKELY to cause liver damage and therefore should not be given to a person who suffers from liver disease?

A. Ibuprofen (Motrin®)
B. Acetylsalicylic acid (Aspirin)
C. Acetaminophen (Tylenol®)
D. Naproxen (Naprosyn®)

Answer 13

C.
Explanation - Tylenol® is an oral analgesic that works well for mild to moderate and acute or chronic pain without inhibiting platelet aggregation. Tylenol® is metabolized by the liver and excreted by the kidneys and therefore should not be recommended to people who suffer from liver impairment or chronic alcoholism. Aspirin is also a mild oral analgesic; however, unlike Tylenol®, it can prolong bleeding time as it interferes with platelet aggregation. Aspirin is contraindicated in people who suffer from upper gastrointestinal (GI) disease, asthma, nasal polyps, bleeding disorders or have chronic renal or hepatic disease. Motrin® and Naprosyn® are classified as nonsteroidal anti-inflammatory drugs (NSAIDS) and also work very well for mild to moderate pain relief. NSAIDS may cause GI irritation, mild inhibition of platelet aggregation, and kidney damage. Any of the above drugs can cause liver problems if used inappropriately; however, because it is primarily metabolized by the liver, Tylenol® does have a greater propensity to cause liver damage.

Question 14

Which of the following is a common side effect of oral administration of erythromycin?

A. Weight gain
B. Gastrointestinal upset
C. Tinnitus
D. Otitis media

Answer 14

B.
Explanation - Many patients who take erythromycin experience GI upset; it is advised that this medicine be taken either 1 hour before or two hours after a meal. Erythromycin has not been known to cause weight gain or tinnitus, nor has erythromycin been linked to otitis media. It is noteworthy that aspirin use has been associated with tinnitus.

Question 15

Which of the following cycloplegic/mydriatic ophthalmic drops is CONTRAINDICATED in children with Down’s syndrome (Trisomy 21)?

A. 1% Atropine
B. 1% Tropicamide
C. 1% Cyclopentolate
D. 2.5% Phenylephrine

Answer 15

A.
Explanation - Atropine is a useful ophthalmic drop that is available in 0.5%, 1% and 2% concentrations. Its cycloplegic effect can last for as long as 12 days. It is commonly utilized for cycloplegic refractions in children, treatment of uveitis, amblyopia, and to test for glaucoma by inducing acute angle-closure glaucoma (verifies if angles are open). Its ocular side effects include irritation, contact dermatitis, elevation of intraocular pressure (IOP), and angle-closure glaucoma. Atropine is contraindicated in people who have narrow angle glaucoma and open angle glaucoma because it can cause an increase in IOP. Atropine should also not be used in children with Down’s syndrome because it leads to a hyper-sensitive reaction where the extent of the mydriasis is greater than that of normals. Although some articles currently exist that refute the argument that atropine is not safe to use in people with Down’s syndrome, it is ALWAYS best to exercise caution in the best interests of the patient. There are many other cycloplegic agents that can be used as alternatives without posing a risk to patients with Trisomy 21. Bear in mind that homatropine and scopolamine carry the same contraindications as atropine.

Question 16

In order to maximize drug penetration through the cornea an ophthalmic drug or its vehicle should possess which property?

A. Highly polar component
B. High pH
C. Lipid solubility
D. High alcohol content

Answer 16

C.
Explanation - Ophthalmic drops that are comprised of both lipid (non-polar) and water-soluble (polar) components result in the most effective preparation. The tight junctions of the corneal epithelium keep hydrophilic drugs out but allow good penetration for lipid-soluble drugs. In contrast, the corneal stroma demonstrates good penetration for water-soluble agents. However, a HIGHLY polar agent will not cross the corneal epithelium; therefore, a mildly polar substance is advantageous over a highly polar agent. One should NEVER place alcohol on the eye as it will instantly debride the corneal epithelium; ALWAYS rinse all instruments used for ocular procedures with saline solution after sterilization with any agent that could be toxic to the cornea. Solutions with high pH (basic) are more damaging to the cornea than solutions with a lower pH (acidic). It is important to use solutions that are close to a neutral pH (7.0) to eliminate possible damage to the cornea.

Question 17

Increased intake of which of the following may result in nystagmus?

A. Benadryl® (diphenhydramine)
B. Lipitor® (atorvastatin)
C. Alcohol
D. Aspirin (acetylsalicylic acid)

Answer 17

C.
Explanation - Excessive amounts of alcohol intake can result in nystagmus. Law enforcement officers take advantage of this knowledge to test for sobriety. Alcohol is a central nervous system depressant, and excessive amounts can lead to cognitive and motor impairment. Alcohol is metabolized by the liver, which is capable of processing roughly 0.5 ounce of ethanol per hour (depending on height, weight, food intake etc.). The effects of alcohol on the brain are not uniform. The first area of the brain to be affected is the outer cerebral hemispheres, followed by the limbic system, and lastly, the brainstem (which is comprised of the midbrain, pons, and medulla). Areas of the brain are affected at different rates; this explains why systems that regulate some functions (i.e. emotions) become deficient before others (heart rate and blood pressure). Alcohol causes impairment of smooth pursuits and saccades. Lithium can cause linear waveform jerk nystagmus. Benadryl is sometimes used to treat vertigo, which can also be associated with nystagmus.

Question 18

Which of the following patients possesses the highest likelihood of displaying increased intraocular pressure in response to the use of a topical ophthalmic steroid?

A. 18 year-old Asian male
B. 32 year-old African-American male
C. 50 year-old Hispanic female
D. 7 year-old Caucasian female

Answer 18

D.
Explanation - Research demonstrates that children, particularly those under the age of 10, exhibit a higher likelihood of intraocular pressure (IOP) increases in response to topical steroid use. In the event that a steroid is required, it is prudent to prescribe an ester-based steroid (such as loteprednol) in order to minimize the chances of a steroid induced increase in IOP.

Question 19

Which 4 of the following are relative contraindications of the topical application of phenylephrine? (Select 4)

A. Advanced arteriosclerosis	
B. Orthostatic hypotension	
C. Down's syndrome	
D. Hypertension	
E. Bronchial asthma
F. Cardiac disease

Answer 19

A, B, D, F
Explanation - Bronchial asthma and Down’s syndrome are not relative contraindications of phenylephrine when applied to the ocular surface. Phenylephrine is a sympathomimetic, and, as such, it can affect the heart rate and blood pressure. Although rare, phenylephrine can cause tachycardia, arrhythmia, syncope, and an increase in blood pressure. A rapid increase in blood pressure has also been seen in people who suffer from idiopathic orthostatic hypotension. Note that the above ailments are relative contraindications; therefore, one must exercise caution when using phenylephrine. Be sure to monitor blood pressure in geriatric patients who suffer from cardiac disease. As an extra precaution, occlude the puncta for several minutes post-instillation to minimize systemic absorption.

Question 20

Which of the following drugs is STRICTLY a mast cell stabilizer?

A. Olopatadine (Patanol®)
B. Cromolyn sodium
C. Ketotifen fumarate (Zaditor®)
D. Levocabastine hydrochloride (Livostin®)

Answer 20

B.
Explanation - Cromolyn sodium stabilizes mast cells but does not possess the ability to block H-1 receptor sites. Mast cell stabilizers are useful for chronic allergic eye disease but have an associated lag time and therefore do not provide instant relief of symptoms. Stabilization of mast cells results in prevention of inflammatory mediators such as histamine. Patanol® and Zaditor® are classified as dual-acting agents because they block H-1 receptor sites in addition to stabilizing mast cells preventing degranulation. Livostin® is a topical antihistamine that serves solely to block H-1 receptor sites and therefore is effective in suppressing itching, but does not result in long-term relief.

Question 21

Which 2 of the following medications have been shown to cause vortex keratopathy? (Select 2)

A. Simvastatin
B. Hydrochlorothiazide
C. Amiodarone
D. Chloroquine
E. Crack cocaine

Answer 21

C, D
Explanation - Patients with vortex keratopathy (also known as whorl keratopathy or corneal verticillata) present with whorl-like corneal epithelial deposits that occur as a result of the ingestion of certain systemic medications. These characteristic corneal changes begin as fine greyish or brownish opacities in the inferior corneal epithelium that arborize and create a whorl-like pattern that swirls outward from a point just below the pupil, sparing the limbus. Although deposits typically involve the visual axis, patients do not experience a decrease in visual acuity; however, some may report the presence of haloes around lights.

Common medications that cause vortex keratopathy include chloroquine, hydroxychloroquine, and amiodarone. In the case of chloroquine and hydroxychloroquine, there is no relationship between the development of keratopathy and the dosage or duration of treatment. Additionally, virtually all patients on amiodarone will develop corneal changes; however, the severity is associated with longer duration and higher dosage of the medication. Keratopathy is usually reversible on cessation of therapy. Other medications that may cause this corneal finding include indomethacin, tamoxifen and phenothiazines.

Question 22

You receive a sensitivity report on a sample that was sent to a local laboratory that states that the organism tested is “susceptible” to moxifloxacin. What does this information tell you?

A. The organism is not sensitive to moxifloxacin at the tested dose
B. The organism is likely to be sensitive to a high dose of moxifloxacin
C. The organism is sensitive to the normal dose of moxifloxacin
D. The organism is sensitive to a lower-than-normal dose of moxifloxacin

Answer 22

C.
Explanation - Results of antimicrobial sensitivity testing are typically reported for each drug as follows:
- Susceptible: the organism is sensitive to the normal dosage of the tested antimicrobial agent
- Intermediate: the organism is likely sensitive to a higher-than-normal dose of the tested antimicrobial agent
- Resistant: the organism is not sensitive to the tested dose of the antimicrobial agent

Question 23

Which of the following medications occasionally used to treat meibomian gland dysfunction may cause idiopathic intracranial hypertension when taken orally?

A. Minocycline
B. Erythromycin
C. Tobramycin
D. Penicillin
E. Cephalexin

Answer 23

A.
Explanation - Doxycycline, tetracycline, and minocycline belong to the tetracycline class of medications. These antibiotics are frequently used in the treatment of acne, meibomian gland dysfunction, and other infections. Although the mechanism as to why intracranial hypertension occurs remains unclear at this time, all of these medications have the potential to cause idiopathic intracranial hypertension (also known as pseudotumor cerebri or PTC). Because minocycline possesses a high lipid solubility, it has a higher affinity to pass into the cerebrospinal fluid, which may lead to benign (idiopathic) intracranial hypertension. 

Unlike the typical form of PTC, increased intracranial hypertension as a result of “cycline medication” use occurs equally in males and females and does not have a predilection for overweight females of child-bearing age. The time lag for the development of PTC after the initiation of “cycline” therapy remains unclear, as some patients may displays signs after two weeks of taking the medication while others do not report symptoms until a year has passed after the commencement of therapy. Patients on a “cycline” medication who report headaches, diplopia, or present with sixth cranial nerve palsy or swollen optic nerves should cease taking this medication.

Question 24

Which of the following antiarrhythmic class of agents is CORRECTLY paired with its mechanism of action?
A. Class II agents (examples include propranolol and metaprolol); block calcium channels
B. Class III agents (examples include Bretylium®, amiodarone and sotalol); block alpha adrenergic receptors
C. Class IV agents (examples include verapamil and diltiazem); decrease duration of action potentials
D. Class I agent (examples include Dilantin®, lidocaine and quinidine); block fast sodium channels

Answer 24

D. Explanation - Class I agents affect sodium channels which ultimately serve to either lengthen or shorten the duration of the action potential and help to prevent ventricular arrhythmias. Class II agents decrease sympathetic activity on the heart by blocking beta adrenergic receptors and aid in preventing recurrence of myocardial infarction. Class III agents prolong repolarization by blocking potassium channels, thereby preventing arrhythmias. Class IV agents block calcium channels thereby decreasing conduction through the AV node.

Question 25

Which of the following oral medications has the MOST potential to cause a serious interaction with Amiodarone?
A. Warfarin
B. Zoloft®
C. Simvastatin
D. Lisinopril

Answer 25

A. Explanation - Warfarin is an anti-coagulant frequently prescribed to patients with a history of stroke, blood clots, or a heart attack. Amiodarone is an antiarrhythmic drug. When amiodarone is taken concurrently with warfarin, it enhances warfarin’s mechanism of action, which can result in dramatically increased clotting times and prolonged bleeding. In the event that the two medications are prescribed simultaneously, it is recommended that the dosage of warfarin be halved. Patients who experience unusual bruising or bleeding, blood in their stool, vomiting, nausea, or dizziness are encouraged to consult with their physician immediately. Other medications that have the potential to interact with warfarin include aspirin, ibuprofen, acetaminophen, heparin, certain antibiotics, birth control pills, and cold and allergy medications. Many supplements may also cause an interaction with warfarin including omega 3 oils, vitamin K, co-enzyme Q10, garlic, wintergreen, St. John’s wort, gingko biloba, ginseng, glucosamine, and cranberry extracts.

Question 26

Atropine is used to treat which 3 of the below conditions? (Select 3)
A. Posterior synechiae
B. Amblyopia
C. Glaucoma
D. Presbyopia
E. Keratoconus
F. Anterior uveitis

Answer 26

A, B, and F. Explanation - Atropine is a parasympatholytic drug. Administration of atropine may result in glaucoma in narrow-angle patients because it causes pupil dilation that leads to blockage of the trabecular meshwork, causing a spike in intraocular pressure. Because atropine causes cycloplegia, it can be used in the management of amblyopia, as it forces the child to utilize their weaker eye, hopefully serving to strengthen and increase the visual acuity of that eye. Due to the fact that atropine results in pupil dilation, it is often used in the treatment of anterior uveitis to help prevent formation or promote breakdown of synechiae. It also aids in pain management by controlling pupil size and avoiding unnecessary movement of the iris muscles, which can be very painful in this inflammatory condition.