Selecting medications for the treatment of urinary incontinence

Selecting medications for the treatment of urinary incontinence

Barry D. Weiss

Urinary incontinence is one of the most common chronic medical conditions seen in primary care practice. It is more prevalent than diabetes, Alzheimer’s disease, and many other conditions that receive considerably more attention. Incontinence is an expensive problem, generating more costs each year than coronary artery bypass surgery and renal dialysis combined. (1,2)

Women have higher rates of urinary incontinence than men. Prevalence increases with age; one third of women older than 65 years have some degree of incontinence, and 12 percent have daily incontinence. (3,4) Approximately one half of patients with incontinence have never discussed the problem with a physician.

Because of the high prevalence and costs of incontinence, and the increase in prevalence that will occur as the population ages, there is a growing market for drugs aimed at treating the condition. Pharmaceutical companies have developed several new incontinence medications. Sales of these medications were predicted to measure billions of dollars in 2004. This article will review the general evaluation and treatment of urinary incontinence, with a focus on the use of these new medications.


Before prescribing medications for the treatment of incontinence, it is essential to determine the nature and cause of the incontinence. This evaluation has three basic steps (Figure 1). (5) The first step is to search for conditions that may require special assessment or specialist care, and reversible conditions that may be contributing to or causing incontinence (Tables 1 and 2). A history, physical examination, and urinalysis can identify, or at least suggest, these conditions. If any of these conditions are identified (e.g., urinary infection, atrophic vaginitis), a trial of therapy is appropriate; treatment may of therapy is appropriate; treatment may eliminate or improve incontinence.


If the evaluation reveals none of the conditions mentioned in Tables 1 and 2, the next step is to confirm that the patient does not have overflow bladder (i.e., urinary retention caused by bladder outlet obstruction or inadequate bladder contractions). Overflow bladder is detected by measuring post-void residual urine volume with urethral catheterization or ultrasonography immediately eterization after the patient urinates. Normally, there will be no more than 50 mL of urine remaining in the bladder after voiding. Residual volumes of more than 200 mL indicate overflow bladder and the need for urodynamic testing to determine the cause.

Having excluded reversible conditions, conditions requiring special evaluation, and overflow bladder, the final step is to determine whether the patient has urge incontinence (i.e., overactive bladder caused by uncontrolled detrusor contractions) or stress incontinence (i.e., inadequate urinary sphincter function). This determination usually can be made on the basis of the history alone (Table 3). Further evaluation, such as urodynamic testing (cystometrography), pad testing, or cotton-swab testing, generally is required only if the history does not provide sufficient clues to distinguish between urge and stress incontinence, or if treatment fails. Urodynamic testing also may be considered in patients with underlying neurologic problems such as spinal cord injuries or multiple sclerosis.


The patient should be treated for urge or stress incontinence based on the factors listed in Table 3. Some patients will exhibit symptoms suggestive of both urge and stress incontinence. This so-called mixed incontinence occurs in 25 to 35 percent of patients. (3) When the evaluation suggests mixed incontinence, treatment should be directed at whichever type seems predominant.


The anticholinergic agents oxybutynin (Ditropan; Oxytrol) and tolterodine (Detrol) are used widely to treat urge incontinence. These medications are not, however, the most effective therapies. Behavior therapies are more effective, and they–not medications–should be first-line treatment.

Behavior Therapy. Behavior therapies for urge incontinence include bladder training and pelvic floor muscle (Kegel) exercises. Bladder training (i.e., learning to hold urine longer and longer between voids) is more effective than oxybutynin and improves incontinence in more than 50 percent of patients. (6) Kegel exercises are even more effective. In a randomized controlled trial (RCT) (7) comparing Kegel exercises with oxybutynin in patients with urge incontinence, patients performing Kegel exercises had an 81 percent reduction in incontinence episodes compared with a 69 percent decrease in oxybutynin-treated patients, a statistically significant difference. cally significant difference.

Although biofeedback commonly is used to help patients learn effective Kegel technique, evidence suggests that biofeedback training does not result in decreased frequency of incontinence episodes compared with Kegel exercises alone. (8) Physicians should keep in mind that successful use of Kegel exercises is dependent on a patient’s motivation and ability to cooperate with the exercise routine.

Treatment for urge incontinence generally should include behavior therapy. However, medications can be prescribed as an adjunct to behavior therapy. Indeed, the combination of Kegel exercises and medications results in better control of incontinence than either treatment alone. (9)

Medications. When prescribing medications for urge incontinence, physicians must decide which agent to use. One option is oxybutynin, a nonselective anticholinergic agent available in short- and long-acting oral forms (Ditropan) and as a transdermal patch (Oxytrol). Tolterodine, a selective anticholinergic agent, has relatively more action on cholinergic receptors in the bladder than in the salivary glands and other organs. It is available in short- and long-acting oral forms. The long-acting formulations of oxybutynin and tolterodine are preferred over their short-acting counterparts because they are more effective in controlling incontinence symptoms and cause fewer anticholinergic side effects. (10-12) Older anticholinergic agents, such as scopolamine (Transderm Scop) and hyoscyamine, have little role in the modern management of urge incontinence.

Data on which to base selection of one anticholinergic agent over another are limited. Studies have compared short-acting oral oxybutynin with short-acting oral tolterodine. (13) These studies found short-acting oxybutynin to be slightly more effective in controlling incontinence, but short-acting tolterodine has fewer anticholinergic side effects and is better tolerated.

Similar results were found in a recent study (14) study comparing long-acting oral oxybutynin with long-acting tolterodine. This study, sponsored by the manufacturers of oxybutynin, randomized almost 800 patients with urge incontinence to receive 10 mg of long-acting oxybutynin per day or 4 mg of long-acting tolterodine per day. After 12 weeks, patients in both groups had similar reductions in incontinence episodes (from about 37 per week to 11 per week). Slightly more patients in the oxybutynin group had no episodes of incontinence (23 versus 17 percent in the tolterodine group), but oxybutynin-treated patients had a 50 percent higher rate of moderate or severe dry mouth.

Transdermal oxybutynin is the newest anticholinergic agent available for treating urge incontinence. It is more effective than placebo in reducing episodes of urge incontinence. (15) The one published study (16) comparing transdermal oxybutynin with oral anticholinergics used oral, long-acting tolterodine as the comparison drug. This 12-week study, sponsored by the manufacturer of transdermal oxybutynin, found that the transdermal agent was as effective as oral tolterodine and caused fewer anticholinergic side effects, presumably because of the “smoother” release of the drug from a transdermal patch. Cutaneous side effects, however, were frequent: 20 percent of patients reported moderate to severe reactions. It is not clear how this study applies to primary care patients with a new diagnosis of urge incontinence, because the study enrolled subjects with both urge and mixed incontinence who had been on long-term treatment with anticholinergic drugs. Furthermore, an independent analysis (17) of transdermal oxybutynin concluded that this agent probably is less effective than oral medications for controlling incontinence.

The limited number of comparisons between drugs for treatment of urinary incontinence leaves physicians in a quandary about which medication is best. A recent Cochrane review (18) concluded only that anticholinergics, as a class, are superior to placebo for treating urge incontinence. It provided no guidance about which agent is superior. Another recent authoritative review (19) suggested that all of the anticholinergic drugs have similar efficacy.

Until further research in primary care settings is performed, there is little evidence to guide family physicians in the choice of anticholinergic medications for urge incontinence. Cost is not an important factor; prices for all of these agents are similar (Table 4). Patients who prefer a transdermal preparation may be candidates for transdermal oxybutynin, assuming they do not experience cutaneous side effects. The choice between long-acting oral tolterodine and long-acting oral oxybutynin is more difficult and depends largely on whether more emphasis is put on having slightly better control of incontinence (in which case oxybutynin is preferred) or minimizing anticholinergic side effects (in which case tolterodine is preferred). Common anticholinergic side effects include constipation and dry mouth (which, in addition to being unpleasant, can lead to dental caries in some patients). Anticholinergic agents may worsen cognitive function and should be used with caution in patients with dementia; limited evidence suggests that tolterodine may have less effect on the central nervous system. (20) Anticholinergic agents are contraindicated in patients with angle-closure glaucoma and urinary with angle-closure glaucoma and urinary outflow obstruction.

Electrical Therapy. Electrical therapy is indicated in patients with severe refractory urge incontinence who do not respond to behavior therapy and medications. Treatment is administered through a generator device that is inserted into the subcutaneous tissue of the lower back or buttocks. The generator powers a lead that typically is placed through the sacral foramen to stimulate the S3 sacral nerve to decrease detrusor muscle contractions.

Given that patients receiving this treatment have severe incontinence that has been unresponsive to other therapies, the device is remarkably effective: most patients experience symptomatic improvement, and some become dry. (21,22) The device costs about $10,000, plus a similar amount for costs associated with surgical implantation; these costs are covered by Medicare.


When treating a female patient with stress incontinence, many physicians consider only Kegel exercises and surgery. There are, however, many other therapies available (Table 5). (23)

Nonpharmacologic Treatments. Stress incontinence can be treated with intravaginal support devices, pessaries, and urethral “plugs.” Collagen can be injected alongside the urethra as a bulking agent to improve urethral closure. Patients also can be treated with the extracorporeal magnetic innervation (ExMI) chair, which has been approved by the U.S. Food and Drug Administration (FDA) for this purpose. This device strengthens pelvic floor muscles through application of a low-intensity magnetic field. (24,25) All of these modalities have a role in the treatment of stress incontinence.

There are no high-quality clinical trials comparing these treatments, which leaves physicians uncertain about the best approach to therapy. Table 5 offers some suggestions, based on generally accepted clinical practice, for selecting treatments for patients with stress incontinence.

Medications. Alpha-adrenergic agonists and estrogens sometimes are used to treat stress incontinence, and one new medication, duloxetine (Yentreve), is currently under review by the FDA as a treatment for stress incontinence (and has been approved for the treatment of depression under the brand name Cymbalta). Anticholinergics (i.e., oxybutynin and tolterodine) are neither appropriate nor effective in treating stress incontinence.

Alpha-adrenergic agonists stimulate urethral closure, and studies (26,27) conducted decades ago suggested benefit in the treatment of stress incontinence. Most studies evaluated phenylpropanolamine, (26) which later was withdrawn from the market when it was linked to intracerebral hemorrhage. One additional study (27) from 1975 found ephedrine to be effective in treating stress incontinence, but current standards preclude using ephedrine for this indication.

Pseudoephedrine (Sudafed), which is available without a prescription, sometimes is recommended for treatment of stress incontinence because its actions are similar to those of phenylpropanolamine and ephedrine. There are, however, no published studies evaluating pseudoephedrine in the treatment of stress incontinence, and the FDA has not approved this use of the product.

Estrogen has been used widely to treat stress incontinence. The rationale for estrogen therapy is its ability to increase urethral vascularity and thickness, and to sensitize [alpha]-adrenergic receptors in the bladder neck, both of which theoretically could improve urethral closure. Although some early studies suggested a benefit from estrogen–particularly from topical estrogens–a review and meta-analysis (28) of 23 published studies found no objective improvement in measured urine loss. A small, more recent RCT (29) supported these results, finding no benefit with estrogen therapy in treating stress incontinence.

The lack of evidence that estrogen therapy improves stress incontinence, combined with concerns about estrogen supplementation raised by the Women’s Health Initiative, (30) has made estrogen a poor choice for treatment of stress incontinence. Furthermore, the FDA has not approved estrogen therapy for this indication.

Duloxetine is a combined and balanced inhibitor of serotonin and norepinephrine reuptake. The drug has efficacy in the treatment of depression, (31) and the FDA has granted the drug “approvable” status as a treatment for stress incontinence; a final decision is pending. Duloxetine increases serotonin and norepinephrine levels in the sacral spinal cord, thereby enhancing pudendal nerve activity, which in turn leads to increased contraction of the urethral sphincters during the urine storage phase of the micturition cycle–a potential benefit in stress incontinence.

In two RCTs (32,33) including more than 1,100 women treated with duloxetine at varying dosages, those taking duloxetine had a 54 to 64 percent reduction in incontinence episodes, compared with a 41 percent reduction in control patients. The most common side effect is nausea, which often resolves with continued use of the drug. If the FDA authorizes marketing of duloxetine for treatment of stress incontinence, it will be the first medication approved for this indication.

Until and unless duloxetine is approved for the treatment of stress incontinence, no strong recommendations can be made for pharmacologic treatment. Other treatment modalities (Table 5) are safer and possibly more effective. In patients with occasional stress incontinence and another indication for pseudoephedrine or estrogen treatment, it might be reasonable to prescribe these medications.

Strength of Recommendations

Key clinical recommendation Label References

Patients with urge incontinence should be taught A 7, 8

Kegel exercises. Biofeedback does not improve

the efficacy of the exercises.

zSelection of an oral anticholinergic agent for C 13, 18, 19

treatment of urge incontinence should be based

on a discussion with the patient about efficacy

and side effects.

Electrical therapy can be considered in patients B 21, 22

with severe refractory urge incontinence who do

not respond to behavior therapy and medications.

Estrogen therapy should not be used as a B 28, 29

treatment for stress incontinence.

A = consistent, good-quality patient-oriented evidence;

B = inconsistent or limited quality patient-oriented evidence;

C = consensus, disease-oriented evidence, usual practice,

opinion, or case series. See page 225 for more information.


Conditions Associated with Urinary Incontinence that

May Require Further Evaluation

Condition * Actions to consider

Recurrent urinary tract Urinary tract imaging (e.g.,

infections ultrasonography or computed

tomography; consider cystoscopy

for patients at risk for

bladder neoplasms)

Hematuria Evaluation to determine cause of


Prior incontinence surgery Referral to urogynecologist or


Gross pelvic prolapse Referral to urogynecologist or


Recent onset (within 1 to 2 Cystoscopy to exclude bladder

months) of irritative voiding neoplasm

symptoms like urgency or urge


Prior radical pelvic surgery Referral to urogynecologist or


Prior pelvic radiation Referral to urogynecologist or


*–Listed in order of frequency with which these conditions

are likely to be encountered in primary care practice.


Potentially Reversible Causes of Urinary

Incontinence in Women

Method for initial detection


Cause History examination Urinalysis

Adverse effects of medications X

Atrophic vaginitis X

Delirium from medications or X

medical illness

Excessive urination related to X X *

medications or diabetes

Fecal impaction X X

Limited mobility (preventing X X

timely access to toilet)

Urinary tract infection X

*–Excessive urination caused by diabetes will be accompanied by



Distinguishing the Type of Incontinence Using the Medical History

Stress Urge

Symptom incontinence incontinence Comment

Loss of urine X Patients with stress

with incontinence usually have

coughing, a small-volume loss that

sneezing, stops when the stress

lifting, activity (e.g., coughing)

exercising, stops. Occasionally,

etc. repetitive coughing,

sneezing, or similar

repetitive actions induce

bladder contractions in

patients with overactive

bladders (i.e., urge


Urgency X Urge to urinate comes on

suddenly, and patient

feels the need for

immediate access to a


Frequency X Patients with urge

incontinence may report

the need to urinate eight

or more times per day.

Patients may feel the

need to urinate again

shortly after voiding.

Nocturia X Uncontrolled bladder

contractions occur at

night; patient often

wakes up multiple times

to void.

Amount of Small Large In urge incontinence,

urine loss once an uncontrolled

bladder contraction is

underway, it often

continues and results in

a large-volume loss.

NOTE: Use of this table to distinguish stress incontinence from urge

incontinence assumes that the patient has been evaluated to exclude

reversible causes of incontinence, conditions needing special care

or evaluation, and overflow incontinence. Some patients have “mixed”

incontinence, with features of both stress and urge incontinence.

Patients with mixed incontinence should be treated for the type of

incontinence for which symptoms are predominant.


Medications for Treatment of Urge Incontinence

Agent Dosage Cost *

Oral agents

Oxybutynin (Ditropan XL)

Low dosage 5 mg daily $94

Intermediate dosage 10 mg daily 96 to 107

Maximum dosage 30 mg daily 212 to 224

Tolterodine (Detrol)

Low dosage 2 mg daily 93

Maximum dosage 4 mg daily 95 to 107

Transdermal agent

Oxybutynin (Oxytrol) One patch twice 86 to 95


*–Estimated cost to the pharmacist for one month’s treatment

based on average wholesale prices in Red book. Montvale, N.J.:

Medical Economics Data, 2004. Cost to the patient will be

higher, depending on prescription filling fee.


Treatments for Urinary Stress Incontinence in Women

Treatment Comments

Behavior therapy

Pelvic floor muscle (Kegel) Safe but time consuming. Appropriate in

exercises highly motivated patients with ability

to contract pelvic muscles who have no

evidence of pelvic prolapse.

… with biofeedback Improves patient’s ability to correctly

identify contraction of pelvic muscles.

No evidence of long-term benefit for

decreasing incontinence frequency.

… with vaginal weights May improve patient’s ability to

(cones) correctly contract pelvic muscles.

No evidence of benefit compared with

Kegel exercises alone.


Alpha-adrenergic stimulants Not FDA-approved for treatment of

Estrogen stress incontinence. No good

evidence of efficacy. May be

appropriate in patients with other

indications for these medications.

Duloxetine Balanced and selective serotonin and

norepinephrine reuptake inhibitor that

increases urethral sphincter

contraction during the storage phase

of urination cycle. In final stages of

FDA review.


Extracorporeal magnetic Patient sits in an FDA-approved chair

innervation (ExMI) chair that stimulates pelvic muscles via a

low-intensity magnetic field.

Treatments are administered twice

weekly in 20-minute sessions for 8

weeks. Appropriate in patients with

uncomplicated, mild stress incontinence

who have never undergone surgery.

Intravaginal support devices Can be used on a temporary or

occasional basis, such as in patients

with exercise-induced incontinence.

Requires manipulation and manual


Pessaries Can be used on a temporary or long-term

basis; often used in older patients

who have not responded to other

therapies. Long-term use requires

monitoring for vaginal infection and


Urethral occlusion inserts Can be used on a temporary or

(plugs) occasional basis, such as for

exercise-induced incontinence. Requires

manipulation and manual dexterity.

Invasive treatments

Colposuspension procedures Most effective treatment, but

incontinence may recur over time.

Best treatment in patients with stress

incontinence accompanied by uterine


Tension-free vaginal tape Urethral sling created under local

procedure anesthesia, often in outpatient

surgical unit. Effectiveness similar to

that of colposuspension.

Injection of bulking agents Periurethral injection of collagen

results in high short-term cure rates,

but effectiveness diminishes over time.

Appropriate in patients with

difficult-to-control incontinence in

whom urodynamic testing reveals

intrinsic sphincter deficiency.

FDA = U.S. Food and Drug Administration.

Adapted with permission from Weiss BD, Newman DK. New insight

into urinary stress incontinence: advice for the primary care

clinician. Accessed online November 12, 2004, at:


(1.) Wagner TH, Hu TW. Economic costs of urinary incontinence in 1995. Urology 1998;51:355-61.

(2.) Resnick NM. Improving treatment of urinary incontinence. JAMA 1998;280:2034-5.

(3.) Nygaard I, Turvey C, Burns TL, Crischilles E, Wallace R. Urinary incontinence and depression in middle-aged United States women. Obstet Gynecol 2003;101:149-56.

(4.) Thom D. Variation in estimates of urinary incontinence prevalence in the community: effects of differences in definition, population characteristics, and study type. J Am Geriatr Soc 1998;46:473-80.

(5.) Fantl JA. Urinary incontinence in adults: acute and chronic management. Rockville, Md.: U.S. Dept. of Health and Human Services, Public Health Service, Agency for Health Care Policy and Research, 1996. Accessed online December 2, 2004, at: http://www.

(6.) Wyman JF, Fantl JA. Bladder training in ambulatory care management of urinary incontinence. Urol Nurs 1991;11:11-7.

(7.) Burgio KL, Locher JL, Goode PS, Hardin JM, McDowell BJ, Dombrowski M, et al. Behavioral vs drug treatment for urge urinary incontinence in older women: a randomized controlled trial. JAMA 1998;280:1995-2000.

(8.) Burgio KL, Goode PS, Locher JL, Umlauf MG, Roth DL, Richter HE, et al. Behavioral training with and without biofeedback in the treatment of urge incontinence in older women: a randomized controlled trial. JAMA 2002;288:2293-9.

(9.) Burgio KL, Locher JL, Goode PS. Combined behavioral and drug therapy for urge incontinence in older women. J Am Geriatr Soc 2000;48:370-4.

(10.) Van Kerrebroeck P, Kreder K, Jonas U, Zinner N, Wein A. Tolterodine once-daily: superior efficacy and tolerability in the treatment of the overactive bladder. Urology 2001;57:414-21.

(11.) Appell RA, Sand P, Dmochowski R, Anderson R, Zinner N, Lama D, et al. Prospective randomized controlled trial of extended-release oxybutynin chloride and tolterodine tartrate in the treatment of overactive bladder: results of the OBJECT Study. Mayo Clin Proc 2001;76:358-63.

(12.) Blonski J. Is tolterodine (Detrol) or oxybutynin (Ditropan) the best for treatment of urge urinary incontinence? J Fam Pract 2001;50:1017.

(13.) Harvey MA, Baker K, Wells GA. Tolterodine vs oxybutynin in the treatment of urge urinary incontinence: a meta-analysis. Am J Obstet Gynecol 2001;185:56-61.

(14.) Diokno AC, Appell RA, Sand PK, Dmochowski RR, Gburek BM, Klimberg IW, et al. Prospective, randomized, double-blind study of the efficacy and tolerability of the extended-release formulations of oxybutynin and tolterodine for overactive bladder: results of the OPERA trial. Mayo Clin Proc 2003;78:687-95.

(15.) Dmochowski RR, Davila GW, Zinner NR, Gittelman MC, Saltzstein DR, Lyttle S, et al. Efficacy and safety of transdermal oxybutynin in patients with urge and mixed urinary incontinence. J Urol 2002;168:580-6.

(16.) Dmochowski RR, Sand PK, Zinner NR, Gittelman MC, Davila GW, Sanders SW. Comparative efficacy and safety of transdermal oxybutynin and oral tolterodine versus placebo in previously treated patients with urge and mixed urinary incontinence. Urology 2003;62:237-42.

(17.) Oxybutynin transdermal (Oxytrol) for overactive bladder. Med Lett Drugs Ther 2003;45:38-9.

(18.) Hay-Smith J, Herbison P, Ellis G, Moore K. Anticholinergic drugs versus placebo for overactive bladder syndrome in adults. Cochrane Database Syst Rev 2004;(2):CD003781.

(19.) Ouslander JG. Management of overactive bladder. N Engl J Med 2004;350:786-99.

(20.) Todorova A, Vonderheid-Guth B, Dimpfel W. Effects of tolterodine, trospium chloride, and oxybutynin on the central nervous system. J Clin Pharmacol 2001;41:636-44.

(21.) Janknegt RA, Hassouna MM, Siegel SW, Schmidt RA, Gajewski JB, Rivas DA, et al. Long-term effectiveness of sacral nerve stimulation for refractory urge incontinence. Eur Urol 2001;39:101-6.

(22.) Amundsen CL, Webster GD. Sacral neuromodulation in an older, urge-incontinent population. Am J Obstet Gynecol 2002;187:1462-5.

(23.) Weiss BD, Newman DK. New insight into urinary stress incontinence: advice for the primary care clinician. Accessed online November 12, 2004, at: http://www.

(24.) Galloway NT, El-Galley RE, Sand PK, Appell RA, Russell HW, Carlin SJ. Update on extracorporeal magnetic innervation (EXMI) therapy for stress urinary incontinence. Urology 2000;56(6 suppl 1):82-6.

(25.) Goldberg RP, Sand PK. Electromagnetic pelvic floor stimulation for urinary incontinence and bladder disease. Int Urogynecol J Pelvic Floor Dysfunct 2001;12:401-4.

(26.) Goode PS, Burgio KL. Pharmacologic treatment of lower urinary tract dysfunction in geriatric patients. Am J Med Sci 1997;314:262-7.

(27.) Diokno AC, Taub M. Ephedrine in treatment of urinary incontinence. Urology 1975;5:624-5.

(28.) Fantl JA, Cardozo L, McClish DK. Estrogen therapy in the management of urinary incontinence in postmenopausal women: a meta-analysis. First report of the Hormones and Urogenital Therapy Committee. Obstet Gynecol 1994;83:12-8.

(29.) Fantl JA, Bump RC, Robinson D, McClish DK, Wyman JF. Efficacy of estrogen supplementation in the treatment of urinary incontinence. The Continence Program for Women Research Group. Obstet Gynecol 1996;88:745-9.

(30.) Rossouw JE, Anderson GL, Prentice RL, LaCroix AZ, Koopenberg C, Stefanick ML, et al. Risks and benefits of estrogen plus progestin in healthy postmenopausal women: principal results from the Women’s Health Initiative randomized controlled trial. JAMA 2002;288:321-33.

(31.) Detke MJ, Lu Y, Goldstein DJ, Hayes JR, Demitrack MA. Duloxetine, 60 mg once daily, for major depressive disorder: a randomized double-blind placebo-controlled trial. J Clin Psychiatry 2002;63:308-15.

(32.) Norton PA, Zinner NR, Yalcin I, Bump RC. Duloxetine versus placebo in the treatment of stress urinary incontinence. Am J Obstet Gynecol 2002;187:40-8.

(33.) Dmochowski RR, Miklos JR, Norton PA, Zinner NR, Yalcin I, Bump RC. Duloxetine versus placebo for the treatment of North American women with stress urinary incontinence [published correction appears in J Urol 2004;171:360]. J Urol 2003;170:1259-63.

BARRY D. WEISS, M.D., is professor of family and community medicine at the University of Arizona College of Medicine, Tucson. He received his medical degree from the State University of New York at Buffalo School of Medicine and Biomedical Sciences and completed a family medicine residency at the University of Arizona College of Medicine. Dr. Weiss is editor of Family Medicine, the national journal of the Society of Teachers of Family Medicine, and served on the Agency for Health Care Policy and Research (now the Agency for Healthcare Research and Quality) expert panel that wrote the 1996 practice guideline on diagnosis and management of urinary incontinence.

Address correspondence to Barry D. Weiss, M.D., Department of Family and Address correspondence to Barry D. Weiss, M.D., Department of Family and Community Medicine, 1450 N. Cherry, Tucson, AZ 85719 (e-mail: bdweiss@ Reprints are not available from the author. Reprints are not available from the author.

Dr. Weiss has received consulting fees, speaker’s honoraria, and research funding from Pfizer, Inc., and consulting fees and speaker’s honoraria from Eli Lilly and Company.

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