Ординатура / Офтальмология / Английские материалы / Clinical Ocular Pharmacology 5th edition_Bartlett, Jaanus_2008

better compliance. Patients need to be educated and counseled in the simplest, most direct manner possible. If not, they may misunderstand instructions and fail to use medications correctly.

Practitioners should supplement verbal instructions with written and visual aids in counseling patients on proper medication use. Caution should be taken in relying on patients to read and understand the medication inserts required by the U.S. Food and Drug Administration (FDA). Studies of medication inserts used for glaucoma medications have found most to be written on a higher reading grade level than the average glaucoma patient comprehends. Written dosage schedules should be tailored for each patient as a reminder of when and how to use eyedrops or ointments. This is especially important for patients who require chronic therapy for conditions such as glaucoma. Studies of noncompliance in glaucoma patients have determined that patients desire their physicians to teach them how to instill their eyedrops, tell them about new or alternate medications as they become available,and offer new ways to make their drug regimen easier.

The route of drug administration is one of the most important decisions to make when instituting ocular pharmacotherapy. In most cases this is straightforward. Eyedrops, formulated for topical ophthalmic use only, are used as diagnostic agents for patients undergoing tonometry or pupillary dilation. Patients with infectious or inflammatory disease, however, can be given therapeutic agents in a variety of forms. Most ocular surface infections,such as blepharitis or conjunctivitis, are best treated with topical antimicrobial eyedrops or ointments. Some infections of the adnexa such as hordeolum and preseptal cellulitis are treated more effectively with orally administered antimicrobials. Less commonly, patients need injections into or around the eye. Such periocular, intracameral, and intravitreal injections are discussed in Chapter 3.These methods of drug administration are used more often in surgery or for the treatment of complicated inflammatory or infectious diseases that respond poorly to topical therapy alone.

DETERMINING CONTRAINDICATIONS TO DRUG USE

Successful diagnosis and management of ocular disease require rational drug selection and administration. Poorly chosen or contraindicated drug regimens can contribute to iatrogenic ocular or systemic disease with potentially adverse medicolegal consequences. To avoid the use of drugs that may be contraindicated in certain patients, pharmacotherapy should follow guidelines recommended by the FDA. Pharmacists or other qualified drug experts should be consulted when necessary.

Patient History

A careful history alerts practitioners to possible adverse drug reactions and enables practitioners to select the

most appropriate pharmacotherapy for the patient (Box 1-1).

Ocular History

Clinicians should ask about past and current eye disease as well as past ocular trauma. Practitioners should inquire about a history of contact lens wear. Many topically applied medications can cause corneal complications when used in the presence of soft contact lenses. Obtaining a history of current ocular medications is essential. If their continued use is necessary, the old and

Box 1-1 Essential Elements of the Patient History

Ocular history

Past or current eye disease

Trauma

Strabismus or amblyopia

Contact lens wear

Current ocular medications

Eye surgery

Medical history

Renal and hepatic disease

Cardiovascular disease

Pulmonary disorders

Thyroid disease

Diabetes

Seizure disorders

Affective and mental disorders

Pregnancy

Myasthenia gravis

Erythema multiforme

Blood dyscrasias

Immune status

Medication history

Antihypertensives Dopamine or dobutamine

Bronchodilators, steroid inhalers, other asthma medication

Tricyclic antidepressants, monoamine oxidase inhibitors Over-the-counter antihistamines, decongestants Allergies (preservatives, penicillins, sulfonamides,

neomycin, opioids)

Family history

Open-angle glaucoma

Social/cognitive history

Drug abuse

Mental abuse

Occupational history

new medications must be spaced properly to avoid dilution and to achieve maximum benefit. A history of ocular surgery is also important.Topically applied prostaglandin analogues for treatment of glaucoma may increase the risk of cystoid macular edema in pseudophakic patients.

Medical History

A careful medical history, including a review of systems, is essential. Practitioners can then identify drugs that may be contraindicated on the basis of systemic disease. Topically applied ocular medications, such as β-blockers, readily enter the systemic circulation and have high bioavailability throughout the body. However, one would typically avoid prescribing a topical β-blocker in patients already taking systemic β-blockers.

Renal and Hepatic Disease. Systemic anti-inflammatory drugs must be used with caution in patients with renal impairment. These drugs can cause kidney damage. Patients with hepatic disease may not be able to properly metabolize systemically administered medication.

Cardiovascular Disease. Patients with systemic hypertension, arteriosclerosis, and other cardiovascular diseases may be at risk when high concentrations of topically administered adrenergic agonists such as phenylephrine are used. Repeated topical doses or soaked cotton pledgets placed in the conjunctival sac have been associated with adverse cardiovascular effects. Likewise, β-blockers should be avoided or used cautiously in patients with congestive heart disease, severe bradycardia, and high-grade atrioventricular block. Topical β-blockers, however, may be used safely in patients with cardiac pacemakers.

Respiratory Disorders. Topically applied β-blockers can induce asthma or dyspnea in patients with preexisting chronic obstructive pulmonary disease. Clinicians should inquire about a history of pulmonary disorders before initiating glaucoma treatment with β-blockers. A history of restrictive airway disease also contraindicates the use of opioids for treatment of ocular pain.

Thyroid Disease. Elevated blood pressure or other adverse cardiovascular effects can result when patients with Graves’ disease receive adrenergic agonists with vasopressor activity. This is due to the increased catecholamine activity associated with hyperthyroidism. The primary agent to be avoided or used cautiously is topically applied phenylephrine for pupillary dilation.

Diabetes Mellitus. Systemic administration of some hyperosmotic agents can cause clinically significant hyperglycemia in patients with diabetes. This is particularly important when oral glycerin is given for treatment of acute angle-closure glaucoma. Systemic corticosteroid therapy may represent a significant risk in patients with

diabetes because of drug-induced hyperglycemia. Adequate pupil dilation in patients with diabetes can be difficult to achieve when topically administered mydriatics are used.Topical β-blockers may mask signs associated with hypoglycemia in diabetes.

Central Nervous System Disorders. Clinicians should be cautious when using topically applied central nervous system stimulants such as cyclopentolate. High concentrations of these drugs in normal children, and occasionally in adults, have resulted in transient central nervous system effects.The use of topical β-blockers for treatment of glaucoma has been associated with central nervous system side effects, including depression, fatigue, weakness, confusion, memory loss, headaches, and anxiety.

Affective and Mental Disorders. Anxiety and emotional instability can be associated with psychogenic reactions, such as vasovagal syncope, that may appear to be drug related. Medications used to treat these disorders may potentiate the activity of ophthalmic medications. The use of monoamine oxidase inhibitors or tricyclic antidepressants can enhance the systemic effects of topically applied phenylephrine and α2-adrenergic agonists.

Pregnancy. Systemic drugs should not be administered during pregnancy unless absolutely essential for the wellbeing of either the expectant mother or the fetus. Most topically administered medications, however, are permissible if given in relatively low concentrations for brief periods. Ophthalmic pharmacotherapy for pregnant patients is discussed later in this chapter under Managing Special Patient Populations.

Other Medical Conditions. Other systemic disorders can be affected by or contraindicate the use of topically applied medications. Examples include myasthenia gravis, which can be worsened with topical timolol,and erythema multiforme (Stevens-Johnson syndrome), which can be caused or exacerbated by topical ocular sulfonamides and related antiglaucoma drugs such as carbonic anhydrase inhibitors.

Medication History

A thorough medication history should be taken. Patients may be taking systemic drugs that have a high potential for adverse interactions with ocular pharmacotherapeutic agents. Such interactions can play a significant role in enhancing drug effects and may exacerbate adverse reactions. Several drug–drug interactions between ocular antiglaucoma and systemic medications have been well documented (Table 1-1). Patients with cardiac disease who are treated with potent inotropic agents such as dopamine or dobutamine should not be given topical ocular β-blockers. Likewise, β-blockers may block exogenous stimulation of β2 receptors by medications such as isoproterenol, metaproterenol, and albuterol.

Table 1-1

Adverse Interactions Between Antiglaucoma and

Systemic Medications

Practitioners should be aware of over-the-counter (OTC) medications and folk or home remedies that patients may be using. Many patients may not consider OTC agents, especially antihistamines and decongestants for hay fever and colds, as “drugs.” These can affect the autonomic nervous system. OTC preparations can potentially interact with ocular drugs, such as homatropine and phenylephrine, that also influence autonomic functions.

Although the risk of anaphylactic reactions associated with topically administered drugs is extremely remote, inquiry regarding drug allergies is essential. Hypersensitivity to thimerosal or benzalkonium chloride is not uncommon among patients wearing contact lenses. Knowledge of allergy to topically and systemically administered medications is helpful when initiating therapy. For example, those patients with penicillin allergies should not be given either penicillins or cephalosporins, and those allergic to sulfonamides should not be given topical ocular sodium sulfacetamide or carbonic anhydrase inhibitors. Narcotic analgesics should be avoided in patients allergic to opioids. Cross-sensitivity of proparacaine with other local anesthetics is rare and usually not an important clinical consideration (see Chapter 6). A history of hypersensitivity to specific local anesthetics should nevertheless be noted.

Family History

A history of familial eye disease can be helpful in identifying contraindications to drug use. Studies have demonstrated that approximately 70% of the first-degree offspring of individuals with primary open-angle glaucoma have clinically significant elevations of intraocular pressure (IOP) when given topical steroids long term. When topical steroid therapy is contemplated in close relatives of individuals with glaucoma, steroids less likely to elevate IOP should be chosen and IOP should be monitored carefully.

Social/Cognitive History

preclude successful pharmacotherapy. A history of drug abuse may indicate personal instability.This may suggest noncompliance with the intended drug therapy. Observation of the patient’s mental status is helpful in designing a pharmacotherapeutic program with which the patient is likely to comply. Simple drug regimens should be stressed, especially for patients who may have difficulty understanding more complicated treatments.

Clinical Examination

Physical Limitations Affecting Compliance

Unlike oral drug therapy in which the dosage unit is usually a tablet or capsule that is swallowed, ocular pharmacotherapy requires a measure of manual dexterity if topical solutions or ointments are to be instilled successfully.When patients cannot successfully instill their ocular medications independently, alternative approaches may need to be considered. Solutions include consideration of altered routes of administration of similar drugs and aid in the administration of the drug by family members or attendants.

Comprehensive Eye Examination

A complete eye examination is essential to make the definitive diagnosis and to identify contraindications to the intended pharmacotherapy. Some portions of this evaluation should be performed before drug use. Some clinical procedures can be influenced by previously administered drugs.

Visual Acuity. Measurement of corrected visual acuity should be the initial clinical test performed at every patient visit. This “entrance” acuity measurement legally protects clinicians and provides baseline information when patients are monitored on successive visits. Topically applied gels and ointments and even some drops may have a detrimental effect on visual acuity, although usually this is transient.

Pupil Examination. A meaningful evaluation of pupils after drug-induced mydriasis or miosis is impossible. Pupillary examination, including pupil size and responsiveness, should be undertaken before instilling mydriatics or miotics.The presence and nature of direct reflexes as well as the presence or absence of a relative afferent pupillary defect should be recorded.

Manifest Refraction. Topically applied cycloplegics may affect the manifest (subjective) refractive error. When indicated, cycloplegic refraction may be performed after the initial manifest refraction or as the initial refractive procedure in children (see Chapter 21).

Questions regarding the social history may uncover important patient attributes.These can either enhance or

Amplitude of Accommodation. Because of the cycloplegic and mydriatic effects of anticholinergic drugs, amplitude

of accommodation should be measured before administering these agents.

Tests of Binocularity. Binocular vision, including accom- modation–convergence relationships, should be evaluated before administering cycloplegics. These drugs can produce alterations in the observed heterophoria or heterotropia measurements.

Biomicroscopy. The cornea and other anterior segment structures should be evaluated before instilling any agent.Any topically applied drugs, especially anesthetics, or procedures such as applanation tonometry and gonioscopy may compromise the corneal epithelium. The indiscreet application of a sodium fluorescein– or lissamine green–impregnated filter paper strip may result in corneal staining patterns associated with the iatrogenic foreign body abrasion. Certain mydriatics, such as phenylephrine, can liberate pigmented cells in the anterior chamber. It can be important in determining the diagnosis to know whether such cells are iatrogenic. Careful evaluation of the aqueous is essential before pupillary dilation. Evaluation of the anterior chamber angle depth is necessary before administering mydriatics to dilate the pupil (see Chapter 20). In other instances certain drugs should precede others so that the corneal epithelium and precorneal tear film are not adversely affected.

Tonometry. In eyes with narrow anterior chamber angles, it is important to record the IOP before dilating the pupil with mydriatics. Cycloplegics can cause slight IOP increases in eyes with open angles, but acute and dangerous IOP elevation occurs in eyes undergoing angle-closure glaucoma attack induced by mydriatics. Thus, baseline tonometry needs to be taken immediately before dilating pupils in eyes with narrow angles.

Tests of Cardiovascular Status. Pulse strength, regularity, heart rate, and blood pressure measurements should be evaluated. Some topically administered ocular drugs, such as atropine and β-blockers, can affect systemic blood pressure and cardiac activity.This is especially important before and during long-term treatment with β-blockers in those patients with glaucoma.

MINIMIZING DRUG TOXICITY AND OTHER ADVERSE REACTIONS

Adverse effects associated with ocular drugs are not uncommon, but serious reactions are extremely rare. These adverse reactions are usually manifestations of drug hypersensitivity (allergy) or toxicity.The allergic or toxic reaction usually occurs locally in the ocular tissues. Occasionally, as in erythema multiforme potentiated by sulfonamide agents, adverse reactions can manifest as a systemic response.

Ocular Effects of Locally Administered Drugs

Numerous adverse ocular effects from topically administered drugs have been observed (Box 1-2).These occur through a variety of mechanisms. Ocular tissues respond by manifesting cutaneous changes, conjunctivitis,

Box 1-2 Adverse Ocular Effects From Topically

Administered Drugs

Eyelids

Urticaria and angioedema

Allergic contact dermatoconjunctivitis Allergic contact dermatitis Photoallergic contact dermatitis Irritative or toxic contact dermatitis Phototoxic dermatitis

Cumulative deposition

Melanotic hyperpigmentation or hypopigmentation Microbial imbalance

Conjunctiva

Anaphylactoid conjunctivitis

Allergic contact (dermato-) conjunctivitis Cicatrizing allergic conjunctivitis

Nonspecific (papillary) irritative or toxic conjunctivitis Follicular irritative or toxic conjunctivitis

Cicatrizing and keratinizing irritative or toxic conjunctivitis (including pseudotrachoma)

Cumulative deposition Microbial imbalance

Cornea

Anaphylactoid keratitis

Allergic contact keratitis

Irritative or toxic keratitis

Phototoxic keratitis

Toxic calcific band keratopathy

Pseudotrachoma

Cumulative deposition

Microbial imbalance

Intraocular pressure

Elevation (glaucoma)

Reduction (hypotony)

Uvea

Hypertrophy of pupillary frill (iris “cyst”)

Iridocyclitis

Iris sphincter atrophy

Crystalline lens

Anterior subcapsular opacification

Posterior subcapsular opacification

Retina

Detachment

Cystoid macular edema

Modified from Wilson FM. Adverse external ocular effects of topical ophthalmic medications. Surv Ophthalmol 1979;24(2):57–88.

keratitis, hyperpigmentation or hypopigmentation, or infectious complications. Clinicians who administer or prescribe ocular drugs must be aware of these potential complications.

Any topically applied drug or its inactive ingredients can elicit a hypersensitivity response. Such local allergic reactions are especially common with neomycin and with the preservatives thimerosal or chlorhexidine. Practitioners should carefully question patients about any previous drug reactions. If an allergic profile is identified by history or examination, this fact should be recorded on the chart. Alternative drug regimens should be selected. Patients should be informed about expected side effects of drugs as well as allergic and other adverse drug reactions. Patients may incorrectly identify transient burning and stinging of certain eyedrops as an allergic response. Most topical ophthalmic preparations are preserved with benzalkonium chloride. Management of mild hypersensitivity reactions that occasionally occur from topical application of ocular drugs is considered in later chapters.

Iatrogenic infection is possible but can be avoided by careful handling of medications. Airborne contamination is of little significance. The main source of pathogens is the dropper tip that has come into contact with the practitioner’s fingers or with the nonsterile surface of the patient’s lids, lashes, or face. Cases of inadvertent conjunctival trauma related to contact with drug container tips also have been documented. Self-induced injury diagnoses should be considered in cases of poorly explained delayed healing of the ocular surface, especially if localized in the inferior or nasal bulbar conjunctiva (Figure 1-1). Expired or contaminated solutions should be discarded.

Since 1990 considerable attention has been devoted to developing artificial tears and lubricants without preservatives. Long-term use of agents with preservatives can damage the ocular surface. This toxicity manifests as superficial punctate keratitis accompanied by irritation, burning, or stinging. Preservative-free artificial tear preparations can be used at frequent dosage intervals for long periods without compromising the ocular surface.

Long-term use of topical antiglaucoma medications can induce local metaplastic changes in the conjunctiva. These are related to the active medications themselves, to their preservatives, or to the duration of topical treatment. Conjunctival shrinkage with foreshortening of the inferior conjunctival fornix is a possible consequence. Subsequent glaucoma surgery may be less successful.

Topically administered ophthalmic preparations can affect visual acuity. Examples are lubricating gels and ointments for dry eye, antimicrobial ointments for ocular infections, and gel-forming solutions for glaucoma. Although acuity is only slightly reduced and is only temporary, this effect can be annoying to patients and may lead to noncompliance.

Figure 1-1 Self-induced injury. Fluorescein staining of the inferior bulbar conjunctiva shows a typical epithelial defect caused by contact with an ointment tube tip. (From Solomon A. Inadvertent conjunctival trauma related to contact with drug container tips. Ophthalmology 2003;110:798.)

Abuse of topically administered drugs by practitioners or patients can cause significant ocular toxicity. Infiltrative keratitis has occurred from long-term use of anesthetic eyedrops for relief of pain associated with corneal abrasions. Bilateral posterior subcapsular cataracts have developed after the topical administration of prednisolone acetate 0.12% twice daily over long durations. Practitioners should closely monitor patients treated with drugs known to have potentially significant ocular or systemic side effects.

Systemic Effects of Topically

Administered Drugs

Topically applied ocular drugs can have systemic effects. Drugs are absorbed from the conjunctival sac into the systemic circulation through the conjunctival capillaries, from the nasal mucosa after passage through the lacrimal drainage system, or, after swallowing, from the pharynx or the gastrointestinal tract. Topically applied drugs avoid the first-pass metabolic inactivation that normally occurs in the liver.These drugs, then, can exert the same substantial pharmacologic effect as a similar parenteral dose. Each 50-mcl drop of a 1.0% solution contains 0.5 mg of drug. Solutions applied topically to the eye in excessive amounts may exceed the minimum toxic systemic dose.Table 1-2 summarizes some of the clinically important systemic effects caused by topical ocular medications.

Adherence to the following guidelines can reduce systemic drug absorption and reduce the risk of adverse reactions:

●Advise patients to store all medications out of children’s reach.Twenty drops of 1% atropine can be fatal if swallowed by a child.

●Instruct patients to wipe excess solution or ointment from the lids and lashes after instillation.

●Use the lowest concentration and minimal dosage frequency consistent with a drug’s clinical purpose. Avoid overdosing.

●Confirm the dosage of infrequently used drugs before prescribing or administering them.

●Consider the potential adverse effects of a drug relative to its potential diagnostic or therapeutic benefit. Warn patients so they can give informed consent.

●Consult with each patient’s primary physician before prescribing β-blockers for patients with suspected

cardiac or pulmonary contraindications.

●Recognize adverse drug reactions. Practitioners often fail to recognize the clinical signs of drug toxicity or

allergy,which can occur only a few seconds or minutes after drug administration or months or years later. Consider the use of manual nasolacrimal occlusion

(see Chapter 3) or gentle eyelid closure, particularly for patients who are at high risk for systemic complications associated with certain topically applied drugs (e.g., use of β-blockers in patients with chronic obstructive pulmonary disease).

Ocular Effects of Systemically

Administered Drugs

Practitioners must be aware of the effects of systemic medications on vision and ocular health. Many druginduced changes are common but benign, such as mild symptoms of dry eye associated with anticholinergic drugs. Some instances, however, can be vision threatening, such as ethambutol-induced optic neuropathy. Knowledge of systemic medications taken by individual

patients can reduce ocular morbidity associated with drug use.

MANAGING SPECIAL PATIENT

POPULATIONS

Practitioners who use ophthalmic medications must be knowledgeable about the unique needs of certain patients to enhance the effectiveness of drugs and to avoid or minimize side effects. Practitioners seeking information regarding special patient populations should review the package inserts available for all prescription medications. Package inserts are printed in hard copy forms in drug packaging and also can be accessed on-line. Information provided is approved by the FDA and is based on clinical trials. The package inserts for thousands of prescription medicines are compiled into reference books such as The Physicians’ Desk Reference (United States), the Compendium of Pharmacy Specialties (Canada), and the British National Formulary (United Kingdom). These books and on-line resources compile thousands of prescription medicine monographs into reference sources. The information in a package insert or in these resources follows a standard format for every medication. Box 1-3 shows an example of the information provided by the package insert.

Women Who Are Pregnant or Lactating

Mothers are the principal targets for drugs administered during pregnancy. In reality, however, their fetuses become inadvertent drug recipients. Some effects on fetuses can be expected throughout pregnancy, the intrapartum period, and even into early neonatal life because drugs are delivered to infants through breast milk.

Practical Considerations

The FDA, on approval of medications for commercial use, assigns to each drug a category of risk (A, B, C, D, or X) to suggest the potential safety of the medication during pregnancy. Risk categories range from A (Adequate wellcontrolled studies in pregnant women have not shown increased risk) to X (Contraindicated; adequate wellcontrolled or observational studies in animals or pregnant women have demonstrated positive evidence of fetal abnormalities or risks). The FDA pregnancy category is found in standard drug information sources, including the drug package insert. When medications need to be prescribed to pregnant patients, the practitioner should consult with the patient’s primary care physician or obstetrician.

Pediatric Patients

Examination of pediatric patients requires use of diagnostic agents. Investigation and clinical use of spray instillation have grown in the last decade (Figure 1-3). A wide variety of ocular conditions found in the pediatric population are treated through pharmacotherapeutic intervention using both topical and systemic routes.These include eye injuries and acute infections such as hordeolum, blepharitis, conjunctivitis, and dacryocystitis as well as amblyopia and progressive myopia. Special considerations for drug therapy in pediatric patients are discussed in Chapters 20, 21, and 34.

Special Precautions

Pediatric patients are not just smaller adult patients. Dosage calculations are not just fractions of recommended adult dosages. Dosage determinations based on age and weight solely may actually underestimate the required dose. Pediatric dosing requires knowledge of the individual patient, the disease group, the age group, the drugs to be administered, pharmacokinetic data for children, and an understanding of the dose–response

relationship of specific drug receptors in growth and development.

Challenges of pediatric dosage determination include the need for precise drug measurement and drug-delivery systems and the lack of commercially available dosage forms and concentrations appropriate for children.There is also a need for more published research on the pharmacokinetics and clinical use of new drugs in children. Further, individual dosages need to be calculated either based on the age of the patient (Young’s rule), the weight of the patient (Clark’s rule), or on the child’s body surface area.This may lead to a high frequency of errors in dosage calculations and associated serious medication errors.

The calculation for Young’s rule is as follows:

= × age (years) Pediatric dose adult dose

age + 12

The calculation for Clark’s rule is as follows:

= × weight (kg) Pediatric dose adult dose

70

or

= × weight (lb) Pediatric dose adult dose

150

Dosage Considerations

Use of dosage determinations based on body surface area may be the most sensitive approach to approximating agedependent variations in drug disposition. Several body surface area dosing nomograms are available, including some that are condition specific (e.g., Marfan’s disease).

Labeling regarding pediatric use, which is based on study in clinical trials, is the most accurate determinant of dosage. Before 1994 few drugs prescribed to children provided information by the manufacturer regarding pediatric use, instead stating “Safety and effectiveness in children have not been established.” Changes in FDA policy have increased the number of clinical trials to investigate drug usage in this population, and more drugs now provide information regarding pediatric use. Clinicians should refer to this section of the package insert in making prescribing decisions.

Adjusting the dosage of ophthalmic topical agents in the pediatric population is infrequently done. Researchers have investigated drop size reduction as a mechanism to further reduce risk of systemic toxicity. For the youngest pediatric patients, an approximation may be to use half the adult dose for children from birth to age 2 years and two-thirds the dose for children 2 to 3 years old.

Practical Considerations

administrator can more readily determine whether instillation has been successful. Administering ophthalmic medications during nap time or regular bedtime may also facilitate the process.

The oral route of drug administration may be indicated for some conditions in pediatric patients, such as in dacryocystitis and orbital or preseptal cellulitis. Young patients are able to swallow liquid suspensions and solutions more easily than oral solids (e.g., tablets or capsules). Oral medications are the most reliable form of dosing and delivery and continue to be the mainstay in pediatric drug therapy.

Children and their parents or caregivers should be present for drug counseling and should be given the opportunity to ask questions. Family members and children’s teachers are the best resources to assist with compliance. These individuals should be encouraged to inform the prescribing optometrist or ophthalmologist of any apparent or suspected problems with the drug therapy.

Geriatric Patients

Special Precautions

Because of systemic disease and multiple drug therapy, geriatric patients may experience more adverse drug reactions. Systemic absorption of topically applied drugs may cause adverse effects. Eyelid laxity, as occurs in agerelated ectropion, may increase the retention time of ophthalmic drugs in the conjunctival sac, exacerbating the local drug effect or causing ocular toxicity.

Poor compliance with eyedrop dosage schedules is common in the geriatric population. Cognitive difficulties in following directions for drug administration must be evaluated. Not only can preexisting conditions such as stroke and Alzheimer’s disease impair cognitive function, but the use of ophthalmic medications such as β-blockers and oral carbonic anhydrase inhibitors may also contribute to patient confusion and cognitive impairment.

Arthritis, tremors, and other conditions such as rheumatoid arthritis may impair fine motor skills and preclude proper self-administration of topical ophthalmic drops or ointments. Some elderly patients find that ophthalmic bottles are too rigid to enable drops to be easily squeezed out. Clinicians must be aware of systemic conditions that may affect ocular pharmacotherapy. Special attention should be given to the combined ophthalmic and systemic use of β-blockers and steroids. Certain cardiac agents, psychotropic drugs, antidepressants, and antiarthritic agents may have adverse ocular effects. Although some adverse effects are transient or disappear on drug discontinuation, others are vision threatening and can be irreversible. Practitioners must detect evidence of ocular toxicity before significant damage occurs (see Chapter 35).

In the general primary eye care population, 75% to 90% of the elderly use at least one prescription or

nonprescription drug. Polypharmacy is the prescription or use of more medications than is clinically necessary. Patients may have contraindicated drug combinations, redundant medications prescribed by several clinicians, erroneous duplications of drugs or categories of drugs, interactions from prescription and OTC medications, and outdated drugs or dosage schedules. Inappropriate drug prescribing for elderly patients is a growing problem requiring greater community-based educational and perhaps regulatory efforts.

Dosage Considerations

Therapeutic dosages for systemic medications in geriatric patients are generally lower than the “normal adult dosage”cited in the drug manufacturer’s product information. It is not uncommon for the appropriate dose to be 25% to 50% of the average adult dose. Systemic drug therapy should be started with doses at the lower end of the recommended adult dosage range. Doses can then be slowly titrated upward. Topical dosages of ophthalmic medications, however, are not generally adjusted in the treatment of the elderly.

Renal function is the most important factor in determining systemic dosage regimens in elderly patients. Geriatric dosing usually makes allowances for reduced renal clearance.An age-related decline in creatinine clearance occurs in approximately two-thirds of the population as a function of renal elimination. Because the kidney serves as the principal organ for drug elimination, elderly patients are prone to potentially toxic accumulations of drugs and their metabolites.

Independent of the dosing guidelines, clinical judgment and common sense must remain sovereign over simple dosage calculations. Because elderly patients are more sensitive to the therapeutic and nontherapeutic effects of drugs, the best individualized drug regimen must be determined to preserve the vitality and independence of geriatric living.The long-term use of topical medications by elderly patients with glaucoma is an example of balancing the risk-to-benefit considerations, especially with respect to the individual person’s quality of life measures.

Practical Considerations

Elderly patients appreciate handwritten dosing charts, large numerals written on bottles to signify dosage frequency, and color codes for drug identification. Dosage schedules should be established to fit the patient’s lifestyle (e.g., four-times-a-day dosing is usually best facilitated on arising and at lunch, dinner, and bedtime).

Patients should be asked to repeat the identification of prescribed medications and the dosing schedules. In addition, they should be able to find telephone numbers of their prescribing practitioner and dispensing pharmacy.

Attention should also be directed toward both the ophthalmic and systemic medication schedules of the geriatric patient. Patients who receive ophthalmic

medications may stop or become confused about continuing their systemic medications.

Practitioners should develop provisions for additional health care needs and continuity of care for elderly patients. Family members or close friends may accept responsibility for assisting or overseeing drug scheduling and administration.These individuals should be included in the drug counseling process. Community geriatric assistance is available through third-party insurance carriers, skilled nursing facilities, and independent agencies.

Patients with Visual Impairments

Blindness or low vision affects over 3 million Americans or approximately 1 in 28 of those older than 40 years. Persons with visual impairments may find complying with prescribed drug regimens inherently difficult, and their problems can extend beyond the scope of visual compromise.

Special Precautions and Practical Considerations

Vision loss can limit the proper use of topical or systemic medications, especially when multiple drug therapies require differentiation of one medication from another. Many patients with visual impairments are capable of recognizing their topical ophthalmic medications but find it difficult to be sure that an administered drop has reached the intended eye. Storage of solutions or suspensions in the refrigerator can provide enough cold temperature sensation for patients to feel the drop when instilled into the eye. Alternative techniques using a variety of aids and utilizing proprioception to compensate for decreased vision have been documented (Figures 1-4 to 1-7).

Figure 1-5 While holding the bottle, the second knuckle of the thumb (interphalangeal joint) of the dominant hand is placed against the first knuckle of the index finger (metacarpophalangeal joint). (From Ritch R, et al. An improved technique of eyedrop self-administration for patients with limited vision.Am J Ophthalmol 2003;135:531–532.)

Studies of visual acuity and the ability of the visually impaired to read medication instructions have documented the inability of patients to read instructions on their bottle of eyedrops. Subjects with best corrected distance visual acuity of 6/24 or worse benefit from larger font size such as Arial 22. Like geriatric patients, individuals with low vision appreciate handwritten dosing charts using large print, large numerals displayed on bottles to signify dosage frequency (Figure 1-8), and color codings for drug identification.

Patients with visual impairments must be able to identify their medications and the dosing schedules for each

Figure 1-4 The patient grasps the center of the lower lid using the index finger of the nondominant hand and pulls the lid down.The index finger is bent at a right angle at the second knuckle (proximal interphalangeal). (From Ritch R, et al. An improved technique of eyedrop self-administration for patients with limited vision.Am J Ophthalmol 2003;135:531–532.)

Figure 1-6 After sliding the second knuckle of the thumb slowly toward the eye along the index finger,the thumb rests upon the second knuckle of the index finger. (From Ritch R, et al. An improved technique of eyedrop self-administration for patients with limited vision.Am J Ophthalmol 2003;135: 531–532.)