Short-, Intermediate-, and Long-term Quality of Life Outcomes Following Radical Prostatectomy for Clinically Localized Prostate Cancer
Management Review
ManageMent Review Short-, Intermediate-, and Long-term Quality of Life Outcomes Following Radical Prostatectomy for Clinically Localized Prostate Cancer Vinay Prabhu, MD, MS, Ted Lee, BS, Tyler R. McClintock, BS, Herbert Lepor, MD Department of Urology, New York University School of Medicine, New York, NY Many clinically localized prostate cancers that are diagnosed today are low risk, and prevention of disease-specific mortality may only be realized decades after treatment. Radical prostatectomy (RP) may adversely impact health-related quality of life (HRQOL) by causing both transient or permanent urinary incontinence and erectile dysfunction. In contrast, RP may also improve HRQOL via relief of lower urinary tract symptoms in men suffering from these symptoms prior to surgery. Because the average man treated for prostate cancer has a life expectancy of approximately 14 years, it is imperative to consider the long-term impact of RP on both survival and HRQOL in treatment decision making. This comprehensive literature review examines short-, intermediate-, and longterm HRQOL following RP. In addition, the long-term results of RP are compared with other treatment modalities for treating clinically localized prostate cancer. [ Rev Urol. 2013;15(4):161-177 doi: 10.3909/riu0604] ® © 2014 MedReviews , LLC Key words Radical prostatectomy • Prostate cancer • Health-related quality of life • Lower urinary tract symptoms I n the Western world, prostate cancer is the most common cancer in men and the second most common cause of cancer death in men.1 Widespread adoption of prostate-specific antigen (PSA) testing and prostate biopsy has increased the detection of clinically localized prostate cancer,2 resulting in increased use of radical prostatectomy (RP).3 Of the over 240,000 cases of prostate cancer Vol. 15 No. 4 • 2013 • Reviews in Urology • 161 4004170006_RIU0604.indd 161 16/01/14 5:24 PM QOL Outcomes Following RP for Localized Prostate Cancer continued diagnosed annually in the United States, approximately one-third to one-half of men are managed initially with RP.4-6 Many clinically localized prostate cancers that are diagnosed today are low risk, and, therefore, prevention of disease-specific mortality may only be realized decades after treatment. RP may also adversely impact health-related quality of life (HRQOL) by causing both transient or permanent urinary incontinence and erectile dysfunction (ED).7,8 In contrast, RP may also improve HRQOL via relief of lower urinary tract symptoms (LUTS) in men who have these symptoms prior to surgery.9 Because the average man treated for prostate cancer has a life expectancy of approximately 14 years,10 it is imperative to consider both the long-term impact of RP on survival and HRQOL in treatment decision making. This comprehensive literature review examines short-, intermediate-, and long-term HRQOL following RP. In addition, the long-term results of RP are compared with other treatment modalities for treating clinically localized prostate cancer. Short-, Intermediate-, and Long-term Assessment of HRQOL Following RP Most men experience some degree of urinary incontinence and ED immediately following RP. Because it was, and often still is, generally assumed that recovery of continence and potency plateaus at 2 years, there is abundant literature discussing this time period.11,12 Therefore, we define short-term outcomes as the first 2 years following RP. There is extensive literature examining short-term HRQOL following RP. There are fewer studies examining HRQOL between 2 and 10 years following RP, which we arbitrarily define as intermediateterm outcomes. There are two studies examining HRQOL at 10 years and beyond, which we define as long-term outcomes. General HRQOL General HRQOL represents a general assessment of well-being. General HRQOL is most commonly assessed by the Medical Outcome Study Short Form (SF-36),13 also called the RAND-36 when scored by a modified scale. The SF-36/ RAND-36 assesses eight health concepts: physical, social, role limitation, emotional problems, bodily pain, mental health, vitality, and health perception.14 Other scales measuring general HRQOL have been less frequently employed for prostate cancer.8,15,16 In a study of over 1000 men evaluated for 6 months following RP, the majority reported similar or improved overall HRQOL scores compared with baseline, and in psychological symptoms, wellbeing, or subjective HRQOL among men treated with RP and AS.19 No demonstrable differences in HRQOL were observed among men undergoing RP and radiation therapy (RT). Men undergoing both RP and RT show similar short-term declines in vitality, energy, and role function scores shortly after treatment. These scores recover to baseline levels by 1 year following treatment.20,21 No differences were observed in studies comparing overall general HRQOL among RP, RT (external beam radiation therapy [EBRT] or brachytherapy [BT]), and control subjects.22 In one comparative study, RP was associated with better function for role physical, role emotional, vitality, and general health scales.23 Several baseline characteristics have been associated with better outcomes on general HRQOL surveys in men undergoing RP, including: age , 65 years,24 better general health,24 better preoperative func- In a study of over 1000 men evaluated for 6 months following RP, the majority reported similar or improved overall HRQOL scores compared with baseline, and 78% of responders indicated they would elect the same treatment again, despite any negative effects on urinary and sexual function. 78% of responders indicated they would elect the same treatment again, despite any negative effects on urinary and sexual function.17 Favorable outcomes in physical and mental component summaries of the RAND-36 have been shown to persist for up to 4 years following RP.18 No observable differences in general HRQOL domains have been observed among men treated for prostate cancer and men electing active surveillance (AS) or agematched control subjects without prostate cancer.8 Likewise, there is no observed difference tional status,15 fewer medical or psychiatric comorbidities,15 higher education level,25 and less pain after treatment.26 General HRQOL outcomes also depend on whether the assessment was made by the patient or surgeon.27 The clinical relevance of changes in general HRQOL domains varies amongst individuals. More recently, investigators have introduced individualized measurements that allow respondents to nominate significant HRQOL domains not captured on standard questionnaires and determine the relative weight of each domain.28,29 162 • Vol. 15 No. 4 • 2013 • Reviews in Urology 4004170006_RIU0604.indd 162 16/01/14 5:24 PM QOL Outcomes Following RP for Localized Prostate Cancer Satisfaction Patient satisfaction, a component of general HRQOL, is an independent measure of quality of care and health status30,31 and is positively associated with global and disease-specific HRQOL.23,32,33 The National Cancer Institute recognizes satisfaction as a priority for outcomes assessment in cancer.34 Despite its recognized importance, assessment of satisfaction following all treatments for prostate cancer has been underreported. Satisfaction following RP has been most commonly ascertained via satisfaction with outcome or satisfaction with treatment or using institution-developed surveys, such as the Service Satisfaction Scale for Cancer Care7 or the Client Satisfaction Questionnaire.35 Outcome satisfaction after RP has only been studied by two groups. Sanda and colleagues observed that both patient and partner satisfaction were significantly associated with changes in sexual, hormonal, urinary, and bowel function, independent of treatment modality.7 Abraham and colleagues reported outcome satisfaction following RP in 1542 consecutive men undergoing RP by a single surgeon at various time intervals between 3 and 24 months.36 Satisfaction ranged between 92% and 94% at the various assessments.36 Perioperative factors, including duration of indwelling Foley catheterization, were associated with satisfaction at 3 months, whereas sexual function, urinary function, and biochemical failure were associated with satisfaction at the 2-year assessment.36 Several groups have reported on comparative treatment satisfaction. Of the 2365 men in the Prostate Cancer Outcomes Study (PCOS) who were surveyed at 2 years following RP, RT, androgen deprivation therapy (ADT), and no intervention, 83.1%, 90.9%, 90.9%, and 86.3% were at least mostly satisfied with their decision, respectively.32 The perception of being cancer free was the factor most significantly associated with treatment choice satisfaction; other significant factors included urinary, sexual, and bowel function; general health; and preservation of social relationships.32 In a prospective cohort study comparing self-assessment of satisfaction with care, RP treatment was associated with higher satisfaction than EBRT (odds ratio [OR] 7.9; P 5 .043).23 Disease-specific HRQOL Disease-specific HRQOL following treatment for clinically localized prostate cancer includes side effects impacting urinary, sexual, and bowel function. The primary limitation of both RP and RT is related to their impact on these diseasespecific HRQOL domains.8 Urinary Dysfunction: Urinary Incontinence and LUTS The etiology for urinary dysfunction following treatment for clinically localized prostate cancer involves both bladder and sphincteric dysfunction, which are manifested by LUTS and urinary incontinence, respectively. Incontinence Incontinence following RP negatively impacts HRQOL and satisfaction.36-38 Continence following RP has been defined using a summary score incorporating a number of continence domains or as a binary variable (continent vs incontinent), using specific definitions for continence. The UCLA-Prostate Cancer Index Urinary Function Index (UCLA-PCI-UFI) is a commonly used continence summary score that captures five domains of urinary incontinence: leaking frequency, urinary control, diaper and pad use, dripping problems, and climacturia. These domains are individually scored out of 100 and the composite score is the mean of the components.39 The Expanded Prostate Cancer Index Composite (EPIC) Incontinence subscale captures the same domains as the UCLA-PCI except for climacturia, and is similarly scored out of 100.40 There is no consensus on what constitutes clinically significant changes in these urinary function scores. Methodologies for assessing these continence variables can vary greatly and include: face-to-face interviews with or without a physician present, telephone interviews, self-administration of validated questionnaires, 24-hour pad weighing, and/or spousal report.11,41,42 The optimal continence assessment is utilization of a self-administered, validated questionnaire. There is no universally agreedupon definition of urinary continence. Definitions in the literature include: daily use of 0 pads,12,43-46 daily use of up to 1 pad,9,46-48 total control or occasional dribbling,9,49-51 no problem dripping or leaking urine,47 leaking once daily,47 or no leak, total control, and 0 pads.52 Lepor and Kaci have previously shown that 13.4% of men experienced occasional or frequent dribbling before RP.9 Therefore, if the definition of urinary continence is strictly total control, then 13.4% of men would be considered incontinent prior to undergoing RP. To better identify how men self-define their own continence, Lepor and associates correlated responses to the UCLA-PCI-UFI with patients’ self-assessments of whether they considered themselves continent or incontinent.53 At 3 and 24 months following RP, 82.5% and 100% of men using one Vol. 15 No. 4 • 2013 • Reviews in Urology • 163 4004170006_RIU0604.indd 163 16/01/14 5:24 PM QOL Outcomes Following RP for Localized Prostate Cancer continued pad per day considered themselves continent, respectively. Similarly, at 3 and 24 months, 92% and 100% of men reporting occasional dribbling of urine considered themselves continent, respectively. The fact that a greater percentage of men using one pad per day consider themselves continent suggests that the single pad is less saturated and often worn as a “safety” pad for the rare and minimal degree of urinary leakage. Therefore, we consider men continent at 24 months who require one pad in 24 hours and those who have occasional dribbling of urine, because the patient considers himself continent. Therefore, some “continent” men may experience further improvement in continence over time. Glickman and colleagues reported that almost one-quarter of continent men reported subjective improvements in continence between 2 and 4 years after RP.49 Short-term Outcomes Due to different definitions of continence, methodology for ascertaining continence, and variation in patient selection,11,27,47,48 reported continence rates at 3, 6, 12, and 24 months range between 51% and 78%,9,12,53-57 70% and 89%,9,12,50,54-57 80% and 98%,9,12,50,54-57 and 86% and 98.5%,7,9,12,37,43,45,49 respectively. Despite these wide ranges, continence is consistently worst immediately after surgery and continues to improve through 2 years postRP.11 Continence composite scores, such as the UCLA-PCI, show similar time-dependent increases until 2 years after RP.18,25,58 Several factors have been associated with better short-term continence following RP: lower age,7,18,38,46-48,50,59-63 fewer preoperative comorbidities,46,59,64-67 nerve sparing,47,55,68,69 higher socioeconomic status,64 nonblack race,7 higher education level,25 lower PSA,7 higher baseline urinary function,68 lack of preoperative ED,70 nonuse of ADT,68 lower body mass index (BMI),46 lower prostate volume,46 no preoperative LUTS,46 use of various anastomotic techniques,69,71,72 and absence of anastomotic stricture.69 The impact of prostate size on postoperative continence does not appear to have an impact on continence rates in adjusted analyses.41,59,69,73 In our prospective Institutional Review Board–approved longitudinal outcomes study, age, Gleason score, nerve sparing, estimated blood loss, baseline LUTS, and presence of benign prostatic tissue in the apical soft tissue margin were not associated with early continence recovery at 3 months.9 Intermediate and Long-term Outcomes There is no agreement on timedependent changes in urinary continence after 2 years (Table 1). In a study of 156 men at the Cleveland Clinic (Cleveland, OH) following RP by multiple surgeons, the proportion of patients using up to one pad per day increased from 12.5% to 17.7% between 2 years and mean 7.8-year follow-up (statistical significance not reported).55 In the 15-year follow-up study of the PCOS, the percentage of men experiencing no control or frequent urinary leakage increased progressively from 9.6% to 13.4% to 18.3% at 2, 5, and 15 years postRP, respectively (statistical significance not reported).51 The increase in urinary incontinence was consistent with increasing bother due to incontinence. Between October 2000 and September 2012, 1788 of 1836 men who underwent RP by a single surgeon gave consent to participate in the New York University Prospective Longitudinal Outcomes Study (NYUPLOS). The UCLAPCI-UFI was self-administered at baseline and at 6 time points over 10 years of follow-up.74 A change in the proportion of men using up to one pad daily was statistically significant between 2 and 10 years (4.5%– 8.9%; P 5 .024). The increase in the incontinence rate was driven by the subgroup of men aged 60 years. The PCOS similarly demonstrated a “slight” decline in longterm mean UCLA-PCI-UFI score from 5 to 15 years.51 Parker and colleagues also prospectively administered the EPIC to 378 (77%) of 490 men undergoing RP at baseline and 246 (65.1%) of these men at 5 years after RP, showing that EPIC incontinence subscale scores plateaued at 12 months and subsequently stabilized until 5 years.68 In contrast, Miller and colleagues reported that incontinence subscale scores were stable for 665 men who underwent RP and completed the EPIC at a median of 2.6-year and 6.2-year follow-up.38 In the NYUPLOS, there was a modest, yet statistically significant, decrease in UCLA-PCI-UFI score between 2 and 8 years (83.8 vs 81.8; P 5 .007) and 8 and 10 years (81.8 vs 79.6; P 5 .04). The slight decrease in UCLA-PCI-UFI score was attributable to the subgroup of men aged 60 years. Overall, these data suggest that between 2 and 15 years following RP, there is a slight linear decline in both urinary continence rates and composite continence score. The deterioration of urinary continence appears to occur after 5 years and in men who underwent RP beyond age 60 years. Continence rates, as well as continence summary scores, in men not undergoing RP are generally accepted to worsen with age.75,76 Therefore, the proportion of the observed progressive decline in urinary continence attributable to the long-term sequelae of RP versus the natural history of urinary dysfunction is unclear. In addition, it is unknown what the continence status of men undergoing RP would have been had they chosen AS, 164 • Vol. 15 No. 4 • 2013 • Reviews in Urology 4004170006_RIU0604.indd 164 16/01/14 5:24 PM 4004170006_RIU0604.indd 165 15 Resnick MJ et al.51 (PCOS) Prospective, longitudinal (baseline recalled) Prospective, longitudinal (baseline) 1164 1788 152 994 (665 RP) 382 Number of Eligible RP Patients Incontinence rate increased from 2 y to mean 7.2 y follow-up (12.5-17.7%, P unknown) Nerve-sparing improved long-term continence rate EPIC scores stable from 2.6-6.2 y median follow-up EPIC scores plateau at 1 y and stable until 5y Results Incontinence increased from 2-10 y (4.5-8.9%; P 5 .024), UCLA-PCI-UFS decreased from 2-8 y (83.8-81.8; P 5 .007) and 8-10 y (81.8-79.6; P 5 .04) Both results more prominent in men 60 y Continence: Incontinence increased from 2-5 to 15 y no control or frequent (9.6-13.4 to 18.3%; P unknown) urinary leakage “Slight decline” in mean UCLA-PCI-UFS UCLA-PCI-UFI from 5-15 y Continence: # 1 pad per day UCLA-PCI-UFI Continence: # 1 pad per day EPIC Incontinence Domain EPIC Incontinence Domain Definition of Continence/ Continence Scale EPIC, Expanded Prostate cancer Index Composite; LUTS, lower urinary tract symptoms; NYUPLOS, New York University Prospective Longitudinal Outcomes Study; PCI, Prostate Cancer Index; RP, radical prostatectomy; PCOS, Prostate Cancer Outcomes Study; UCLA-PCI-UFI, UCLA-PCI-Urinary Function Index; UCLA-PCI-UFS, UCLA-PCI-Urinary Function Score. 10 Prospective, longitudinal (no baseline) 7.2 (mean) Nandipati KC et al55 Long-term Studies ( 10 y) Prabhu V et al.74 (NYUPLOS) Prospective, longitudinal cohort (no baseline) 6.2 (median) Prospective, longitudinal (baseline) Miller DC et al38 Intermediate-term Studies (2-10 y) Parker WR et al68 5 Study Length of Follow-up (y) Study Design (Baseline?) Selected Studies Examining Intermediate- (2- to 10-Year) and Long-term ( 10 Years) Urinary Continence and Function Outcomes in Patients Undergoing Radical Prostatectomy for Clinically Localized Prostate Cancer Table 1 QOL Outcomes Following RP for Localized Prostate Cancer Vol. 15 No. 4 • 2013 • Reviews in Urology • 165 16/01/14 5:24 PM QOL Outcomes Following RP for Localized Prostate Cancer continued recognizing continence may have deteriorated due to aging or in surgical intervention for progressive, local disease causing bladder outlet obstruction. Three studies comparing men undergoing RP to age-matched control subjects or those choosing AS provide insights into the natural history of continence in aging men with and without prostate cancer. Investigators from the Prostate, Lung, Colorectal, and Ovarian (PLCO) Cancer Screening Trial conducted telephone interviews with 529 men with screen-detected prostate cancer and 514 noncancer control subjects between 5 and 10 years following prostate cancer diagnosis in their randomized, controlled trial assessing the risks and benefits of screening for prostate cancer.42 Men undergoing RP (n 5 201) exhibited worse EPIC Short Form Urinary Function scores (P , .001), which assesses both continence and two LUTS symptoms (weak stream, urinary frequency), as well as pain, burning, and bleeding with urination.40 In another study, 293 men with localized prostate cancer selected randomly from the New Mexico Tumor Registry were compared with age and ethnicity-matched noncancer control subjects. At 5 years, men undergoing RP demonstrated worse urinary function (P , .001).77 Baseline urinary function was recalled at 6 months posttreatment, introducing potential recall bias. In addition, the survey was not validated and captured both incontinence severity and one LUTS (frequency). The 41 men who chose conservative management (21 ADT, 20 watchful waiting [WW]) also exhibited significant declines in urinary function from baseline to 5 years (P , .03), suggesting that local disease progression may play a role in urinary function decline. The Scandinavian Prostate Cancer Group Study Number 4 (SPCG-4) compared degree of incontinence in 208 and 192 men who were randomly assigned to either RP or WW with a median 12.2-year follow-up.78 Men in the RP group demonstrated markedly higher rates of daily urinary leakage (41% vs 11%; relative risk [RR] 3.79; 95% confidence interval [CI], 2.36-6.06). Because baseline data were not collected, it is unknown how many men experienced daily urinary leakage prior to randomization. Few studies compare intermediate- or long-term incontinence rates or continence scores between RP and RT. Two studies reported that incontinence rates following RP were significantly higher than RT at 4 to 5 years.51,58 The PLCO telephone interview of 201 RP and 110 RT patients between 5 and 10 years postdiagnosis demonstrated that men who underwent RP had poorer EPIC Short-Form Urinary Function scores compared to RT (71.48 vs 84.04; P , .001).42 Miller and associates prospectively compared outcomes in groups at 15 years, despite better short-term outcomes after RT.51 LUTS LUTS include storage and voiding urinary symptoms, most commonly caused in men by benign prostatic hyperplasia (BPH).79 LUTS adversely impact overall urinary HRQOL80,81 and increase resource utilization, work productivity loss, activity impairment, pain, anxiety, and depression.80-85 Medical and surgical treatments for BPH are estimated to cost the US economy $4 billion per year,86 in addition to causing potentially serious side effects.87,88 The American Urological Association Symptom Index (AUASI) was designed to capture the severity of baseline LUTS and the response of LUTS to treatment of BPH. The International Prostate Symptom Score (IPSS) is simply the AUASI combined with a single question querying urinary HRQOL.89 The AUASI independently scores four voiding (bladder emptying, intermittent urinary stream, caliber of urinary stream, and straining to urinate) and three storage LUTS adversely impact overall urinary HRQOL and increase resource utilization, work productivity loss, activity impairment, pain, anxiety, and depression. Medical and surgical treatments for BPH are estimated to cost the US economy $4 billion per year, in addition to causing potentially serious side effects. 665 and 231 men undergoing RP and RT, respectively, at a median of 2.6 and median 6.2 years. EPIC incontinence subscale scores in the RT group declined over the 3.6 years compared with stable scores in the RP group.38 This significant intermediate-term decline in urinary continence after RT explains why PCOS-reported continence rates were similar in the RP and RT (frequency, urgency, and nocturia) symptoms on a scale of 0 to 5, with a composite score (AUASS) calculated between 0 and 35. AUASS of 0 to 7, 8 to 19, and 20 to 35 define mild, moderate, and severe LUTS, respectively; therefore, a composite score . 7 is defined in clinical practice guidelines as clinically significant LUTS.79,90,91 Improvements in the AUASS of 8.8, 5.1, and 3.0 points 166 • Vol. 15 No. 4 • 2013 • Reviews in Urology 4004170006_RIU0604.indd 166 16/01/14 5:24 PM QOL Outcomes Following RP for Localized Prostate Cancer correlate with marked, moderate, and slight changes in LUTS, respectively.92 The EPIC irritative/ obstructive subscale is a less frequently employed instrument that captures three LUTS (weak stream, nocturia, and frequency) along with hematuria, pain with urination, and burning with urination symptoms not typically associated with LUTS.40 Short-term Outcomes There are 2 competing factors that influence LUTS following RP. First, in the early phase, many men will time voiding to minimize incontinence. This voiding pattern leads to frequent voiding and a decreased stream due to decreased voided urine volume, which contributes to higher AUASS. In addition, up to 40% of men have coexisting clinically significant LUTS secondary to BPH, which has been shown to improve following removal of the prostate. Several short-term studies have characterized time-dependent changes in LUTS during the first 2 years following RP (Table 2).7,9,93,94 The severity of LUTS generally increases immediately after RP and plateaus at 3 months. After 3 months, LUTS generally decreases, reaching a nadir by 1 or 2 years. Lepor and Kaci were the first to examine the short-term effect of RP on LUTS following RP and also stratified outcomes according to baseline LUTS severity.9 By 1 year following RP, the mean decrease in AUASS for men with baseline clinically insignificant (AUASS # 7) and clinically significant (AUASS . 7) LUTS was 0.7 and 5.4, respectively. This 5.4-point decrease in mean LUTS corresponds to a moderate improvement in LUTS, whereas the decrease of 0.7 corresponds to a clinically insignificant change. Others have subsequently confirmed these findings.7,93,94 Several other factors aside from baseline clinically significant LUTS have been associated with improved short-term LUTS outcomes in men undergoing RP: a larger prostate,7 younger age,93 lower BMI,94 and urinary continence at 3 months.94 Intermediate-term Outcomes There is a paucity of intermediateterm studies examining LUTS following RP (Table 2). Slova and Lepor prospectively administered the AUASI to 453 men undergoing RP at baseline and several time points up to 4 years following RP. In men with baseline clinically significant LUTS, the early improvements persisted for 95 4 years. Interestingly, after an initial rise in AUASS postoperatively, the mean AUASS was unchanged between 1 and 4 years for the subgroup with baseline clinically insignificant LUTS, suggesting that RP may alter the natural history of progressive LUTS due to BPH.95 Parker and colleagues reported on 378 patients who completed the EPIC irritative/obstructive subscale at baseline and at multiple follow-up intervals over 5 years following RP. LUTS severity increased between baseline and 1 month and then progressively improved, plateauing at 24 months and remaining stable in the 246 evaluable men at 5 years following RP.68 The mean EPIC irritative/obstructive score at 5 years was higher (indicating an improvement of LUTS) than at baseline (92.1 vs 88.0), although statistical significance was not reported. Miller and associates similarly administered the EPIC survey to 665 men at a mean follow-up of 2.6 and 6.2 years: over the mean 3.6 years of follow-up, EPIC irritative/obstructive scores did not significantly change.38 However, no change was observed in control subjects without cancer over this same period. Long-term Outcomes The NYUPLOS is the only longterm study of LUTS following RP (Table 2).96 The AUASS was selfadministered at baseline and nine scheduled assessment points over 10-year follow-up. Overall, the mean AUASS at baseline (6.87) and 10 years (5.90) was not significantly different. The time-dependent changes in mean AUASS were also examined according to baseline severity of LUTS. The percentage of men with clinically significant LUTS (AUASS .7) at baseline (35.5%) versus 10 years (26.9%) was significantly lower (P 5 .02). As expected, the benefit of RP on LUTS was greatest in those men presenting with clinically significant LUTS. In this subgroup, the mean AUASS at 10 years (8.81) was significantly lower than baseline (13.5; P , .001). The baseline (3.23) and 10-year (4.58) mean AUASS in the subgroup of men with baseline clinically insignificant LUTS were statistically, but not clinically, significantly different. After an initial rise of 1.7 points between baseline and 1 year, mean AUASS in these men did not increase by . 0.4 points between assessment intervals thereafter through 10 years. The prevalence of clinically significant LUTS in community-dwelling men progressively increases beginning in the fifth decade of life and exceeds 40% by the eighth decade of life.83,97-106 In the NYUPLOS, the prevalence of clinically significant LUTS at baseline for men in their fifth, sixth, seventh, and eighth decades of life was 27%, 31%, 42%, and 46%, respectively, which parallels age-matched men in the general Vol. 15 No. 4 • 2013 • Reviews in Urology • 167 4004170006_RIU0604.indd 167 16/01/14 5:24 PM 4004170006_RIU0604.indd 168 Length of Follow-up (y) 1788 964 (665 RP) 382 453 AUASI EPIC IrritativeObstructive Domain EPIC IrritativeObstructive Domain AUASI LUTS Scale (Same findings at 10 y as Slova and Lepor95 above) LUTS unchanged from 2.6-6.2 y median follow-up LUTS also unchanged in noncancer controls over same interval LUTS improved (88-92.1; P unknown) from baseline to 5-y follow-up LUTS improved in men with baseline clinically significant LUTS (AUASS . 7) No LUTS progression in men without baseline clinically significant LUTS (AUASS # 7) Results AUASI, American Urological Association Symptom Index; AUASS, American Urological Symptom Score; EPIC, Expanded Prostate cancer Index Composite; LUTS, lower urinary tract symptoms; NYUPLOS, New York University Prospective Longitudinal Outcomes Study; RP, radical prostatectomy. Prospective, longitudinal (baseline) Prospective, longitudinal cohort (no baseline) 6.2 (median) Miller DC et al38 Long-term Studies ( 10 y) Prabhu V et al74 (NYUPLOS) 10 Prospective, longitudinal (baseline) 5 Prospective, longitudinal (baseline) Study Design (Baseline?) Parker WR et al68 Intermediate-term Studies (2-10 y) Slova and Lepor95 4 Study Authors Number of Eligible RP Patients Studies Examining Intermediate- (2- to 10-Year) and Long-term ( 10-Year) LUTS in Patients Undergoing RP for Clinically Localized Prostate Cancer Table 2 QOL Outcomes Following RP for Localized Prostate Cancer continued 168 • Vol. 15 No. 4 • 2013 • Reviews in Urology 16/01/14 5:24 PM QOL Outcomes Following RP for Localized Prostate Cancer population.96 Based on the natural history of LUTS in age-matched control subjects without cancer, we would have anticipated LUTS to progress in men in the NYUPLOS. The fact that LUTS remained constant between 2 and 10 years following RP in both men with and without baseline clinically insignificant LUTS in the NYUPLOS suggests that RP interferes with the natural history of BPH by removing the prostate, the primary contributor to LUTS progression in men. The SPCG-4 provides further insight into the natural history of LUTS in men with untreated, clinically localized prostate cancer. A total of 376 men were randomized to RP or WW and LUTS outcomes were compared at 4 years. One symptom (weak urinary stream) was worse in the WW arm at 4 years (RR 0.6; 95% CI, 0.5-0.9).19 In addition, the fraction of men with clinically significant LUTS at 4 years was greater in the WW arm (35% RP vs 49% WW; RR 0.7; 95% CI, 0.5-0.9). The lower proportion of men with clinically significant LUTS following RP compared with WW is due to the therapeutic benefit of RP and the natural history of untreated LUTS in the WW group attributable both to the development of progressive LUTS due to aging and local progression of the cancer. Gore and associates administered the AUASI at baseline and multiple follow-up intervals to 307 and 90 men who underwent RP and BT, respectively.58 Voiding and storage symptoms were both more prevalent after BT than after RP (P , .001). Pardo and colleagues reported EPIC irritative/obstructive scores at baseline and at multiple time points up to 3 years in a prospective cohort of 123, 127, and 185 men undergoing RP, EBRT, and BT, respectively. Baseline EPIC irritative/obstructive scores were similar. BT and EBRT were associated with greater progression of LUTS at 3 years compared with RP (P 5 .002).107 The favorable impact of RP on short-, intermediate-, and longterm LUTS is highly clinically relevant. Millions of American men are on medical treatment for LUTS/ BPH and many millions more undergo surgical resection and ablation of the prostate to alleviate bladder outlet obstruction, collectively amounting to annual expenditures of $4 billion.86 The HRQOL and economic benefits attributed to obviating the need for medical or surgical management of BPH are significant. Combined Urinary Function Because the EPIC questionnaire captures both incontinence and LUTS, it conveniently enables simultaneous assessment of these two outcomes using a single survey. The EPIC questionnaire is designed to independently report incontinence and irritative/ obstructive subscores, or alternatively report a composite Urinary Summary, Urinary Function, or Urinary Bother score, which combine elements of both incontinence and irritative/obstructive symptoms.40 Most longitudinal studies following RP report incontinence and irritation/obstruction subscores separately,38,68,107 along with Urinary Function and Urinary Bother scores.38,42,68,107,108 Due to the pathophysiology of LUTS and continence, reporting a composite urinary function score is of limited utility for clinical management or research. Composite scores conflate physiologically unique aspects of urinary function and imply trends in urinary function and bother that are confusing and potentially misleading. Sexual Function and Potency ED, or impotence, is a major concern of men undergoing RP. As many as 45% to 64% of RP candidates suffer from ED preoperatively.19,78,109,110 The treatment-related incidence of ED is far more common than incontinence at all follow-up intervals. Therefore, a large proportion of men will be impacted temporarily and permanently by ED. Global sexual function (SF) can be assessed using several validated instruments. The most common instrument is the International Index of Erectile Function (IIEF), a validated, self-administered 15-item questionnaire that queries five domains: erectile function (EF) (six items), orgasm function (two items), sexual desire (two items), intercourse satisfaction (three items), and overall satisfaction (two items).111,112 The UCLA-PCI Sexual Function Index (UCLA-PCI-SFI), or its slightly modified version, the EPIC Sexual Domain, is composed of eight questions addressing sexual desire, orgasm ability, intercourse frequency, erection upon awakening, erection ability, erection quality, erection frequency, and overall SF.39,40 It is generally believed that sexual dysfunction following RP is manifested primarily by ED. Thus, the nerve-sparing RP was designed to restore EF and not other problems associated with impaired SF, including climacturia, loss of emission, and diminished orgasmic pleasure. Elucidating the impact of RP and other treatments of prostate cancer requires assessing the many other factors contributing to SF captured by the UCLA-PCI-SFI or the EPIC Sexual Domain. The Sexual Health Inventory for Men (SHIM) is a shortened, five-question version of the IIEF that specifically examines EF and demonstrates similar efficacy to the IIEF.113 EF can also be defined more specifically as erection adequate for intercourse with or without phosphodiesterase-5 inhibitors Vol. 15 No. 4 • 2013 • Reviews in Urology • 169 4004170006_RIU0604.indd 169 16/01/14 5:24 PM 4004170006_RIU0604.indd 170 Length of Follow-up (y) 4 5 5 5 6.2 (median) Glickman L et al49 Rabbani F et al131 Penson DF et al134 Parker WR et al68 Miller DC et al38 15 Resnick MJ et al51 (PCOS) Prospective, longitudinal (baseline recalled) Prospective, longitudinal (baseline) Prospective, longitudinal cohort (no baseline) Prospective, longitudinal (no baseline) Prospective, longitudinal (baseline) Prospective, longitudinal (baseline recalled) Population-based, prospective, longitudinal (baseline) Prospective, longitudinal (baseline) Study Design (Baseline?) 1164 1785 964 (665 RP) 361 1288 136 731 1269 Number of Patients At 5 y, 28% had EF adequate for sexual intercourse, compared with 22% at 2 y Decreasing sexual bother from 2-4 y Sexual function stable from 2-5 y Sexual bother returns to baseline by 3 y but does not improve afterward EPIC scores stable from median 2.6-6.2 y Gradual improvement in UCLA-PCI-SFS from 1-4 y 42% report subjective improvement in EF and 4% report deterioration in EF from 2-4 y 8%, 20%, and 23% experienced improvement in EF at 3, 4, and 5 y, respectively Results UCLA-PCI-SFS stable from 2-8 y, with a slight decline from 8-10 y Qualitative improvements in EF in 35.9% and 19.9% between 2-4 y and 5-7 y, respectively Items adapted from previously ED in 13% at 5 y and 24% at 15 y (P unknown) validated and reliable Men with RP more likely than men with RT to instruments have ED at 2 y (OR 3.46; 95% CI, 1.93-6.17) ED 5 EF inadequate for sexual and 5 y (OR 1.96; 95% CI, 1.05-3.63), but no intercourse significant difference at 15 y UCLA-PCI-SFI EPIC Sexual Domain Items adapted from previously validated and reliable instruments EPIC Sexual Domain Nonvalidated 5-point EF scale Self-report UCLA-PCI-SFI Outcome Measure CI, confidence interval; ED, erectile dysfunction; EF, erectile function; EPIC, Expanded Prostate Cancer Index Composite; NYUPLOS, New York University Prospective Longitudinal Outcomes Study; PCOS, Prostate Cancer Outcomes Study; OR, odds ratio; RP, radical prostatectomy; RT, radiotherapy; UCLA-PCI-SFI, UCLA Prostate Cancer Index Sexual Function Index; UCLA-PCI-SFS, UCLA Prostate Cancer Index Sexual Function Score. 10 Sivarajan G et al135 (NYUPLOS) Long-term Studies ( 10 y) 4 Huang GJ et al18 Intermediate-term Studies ( 2 y) Study Selected Studies Examining Intermediate- ( 2-Year) and Long-term ( 10-Year) Sexual and EF in Patients Undergoing RP for Clinically Localized Prostate Cancer Table 3 QOL Outcomes Following RP for Localized Prostate Cancer continued 170 • Vol. 15 No. 4 • 2013 • Reviews in Urology 16/01/14 5:24 PM QOL Outcomes Following RP for Localized Prostate Cancer (PDE5-I),113,114 SHIM score . 15 to 21,115 sexual intercourse in the past month with or without PDE5-I,116 UCLA-PCI-SFI score 80 to 100,117 erection whenever wanted,117 good or very good SF,115,117 or ability to have erection spontaneously or elicited.78 The development of the nervesparing prostatectomy in the 1980s resulted in markedly improved SF and EF outcomes.12,118-122 The large variations in definitions of EF, patient selection, surgeon experience, and methodology for reporting outcomes account for the very wide range of reported potency rates.114,117,123,124 Ideally, potency outcomes should be ascertained using a validated, self-administered questionnaire administered at baseline and multiple predetermined time points following RP. It is also critical to determine interventions that are required to restore EF. The assessment of SF should go beyond EF. The operating surgeon must be uninvolved with data acquisition, collection, retrieval, and statistical analysis in order to minimize biases. Short-term Outcomes Initial studies examining EF and SF following nerve-sparing RP reported results up to 24 months, because it was assumed that potency rates plateaued by this time.12,122 Recovery of EF at 3, 6, 12, 18, and 24 to 36 months ranges between 19% and 68%,12,114 24% and 86%,12,114 39% and 90%,12,114 44% and 86%,12,50 and 35% to 94%,114,116,125 respectively. Because of these broad ranges, most men undergoing RP do not have realistic expectations regarding preservation of EF. A number of factors have been shown to hold strong associations with postoperative return of EF or SF within 2 years, which include time after RP,18,126 nerve-sparing,45,116,125,127-129 lower age,18,116,122,125-131 better preoperative SF score,125,131 early treatment with PDE5-I,132 frequency of pre-RP intercourse,127 absence of diabetes mellitus,116 lower pathologic or clinical stage,122,128,129 lower PSA,125 absence of seminal vesicle or lymph node involvement,127 greater education,25 absence of post-RP incontinence or strictures,127 lower cancer volume,127,130 and cauteryfree technique.114 Intermediate-term Outcomes Studies examining intermediateterm SF outcomes provide compelling and consistent evidence that recovery of EF occurs beyond 2 years after RP (Table 3). Glickman and colleagues have shown that as many as 42% and 4% of men report subjective improvement or deterioration in EF from 2 to 4 years postRP, respectively.49 Similarly, in a study of 136 preoperatively potent men who had not recovered potency by 2 years, Rabbani and associates reported that 8%, 20%, and 23% of men subsequently gained EF at 3, 4, and 5 years post-RP.133 The Cancer of the Prostate Strategic Urologic Research Endeavor cohort also demonstrated gradual improvement in UCLA-PCI-SFI scores from 1 to 4 years post-RP.18 Of the 1288 men who completed the UCLA-PCI-SFI in the PCOS at 2 and 5 years after RP, the proportion of men with erections adequate for sexual intercourse increased significantly from 22% to 28% (P 5 .003), with decreasing sexual bother.134 Independently derived erectile recovery models also demonstrate continued potency recovery through at least 4 years after RP.126,131 Other studies have shown stabilization of SF after 2 years: Miller and colleagues reported stable EPIC Sexual Summary Scores in 665 men longitudinally evaluated at median follow-up of 2.6 years and then 6.2 years,38 whereas Parker and associates demonstrated stable EPIC Sexual Function Scores from 2 to 5 years post-RP in their cohort of 361 men followed longitudinally.68 The apparent discordance between EF and SF outcomes may be explained by variable timedependent effects of EF compared with the other domains captured by a composite SF assessment. Long-term Outcomes One of the limitations of the PCOS for assessing time-dependent changes in EF is that potency was preserved in only 24% of men at 5 years.51 Nevertheless, potency rates in the PCOS decreased from 24% to 13% between 5 and 15 years after RP, respectively.51 Interestingly, only half of men with ED indicated that this was a cause of bother and this percentage decreased over time,51 likely due to declining sexual interest or adjustment to ED over time. The NYUPLOS reported that the mean UCLA-PCI-SFI scores were stable from 2 to 8 years postRP, with a slight decline from 8 to 10 years.135 Mean EF scores, on the other hand, improved in a timedependent manner until 8 years post-RP. The divergence between intermediate-term EF and SF scores has also been observed by other investigators, and suggests that EF is not the only parameter that drives SF scores. Overall, we observed that 35.9% and 19.9% of men reported subjective improvements in their EF between 2 and 4 years and 5 and 7 years post-RP, respectively. A total of 42% and 25.3% of men aged , 60 years reported improvements in their erections between 2 to 4 and 5 to 7 years, respectively, whereas only 14.8% and 6.6% reported a deterioration of their erections over these time intervals. Based on these responses, one would predict that mean EF scores would increase between 2 and 8 years for men aged , 60 years, which is consistent Vol. 15 No. 4 • 2013 • Reviews in Urology • 171 4004170006_RIU0604.indd 171 16/01/14 5:24 PM QOL Outcomes Following RP for Localized Prostate Cancer continued with their findings. Of men aged . 60 years, 28.4% and 13.1% reported subjective improvements of their erections between 2 to 4 and 5 to 7 years, respectively, whereas 12.4% and 14.3% reported deterioration of their erections over these time intervals. Based on these responses, one would predict that between 2 to 8 years, mean EF scores would essentially be unchanged for men aged . 60 years, which is also consistent with their findings. Mean SF scores were stable for men aged , 60 years between 2 to 8 years, whereas they significantly decreased for men aged . 60 years. The mean SF score captured frequency of intercourse and other parameters that appeared to be age dependent and independent of quality of erection. It is well recognized that rates of ED steadily increase in community-dwelling men as they age.115,136 It is therefore unexpected that age-dependent factors influencing deterioration of EF were not operational in men following RP. The prevalence of ED in men treated for prostate cancer is consistently higher than that of age-matched control subjects, at any age.42,77,115 In a study of men chosen randomly from the New Mexico Tumor Registry, men with prostate cancer treated with RP had twice the rate of ED at 5 years than age- and ethnicity-matched control subjects (72% vs 36%), despite comparable prevalence of ED at baseline (27% vs 30%; between-group change over time, P , .001).77 Telephone interviews of men from the PLCO between 5 and 10 years postdiagnosis also showed that men undergoing RP had poorer SF scores than noncancer controls (P , .001), as measured by the EPIC Short-Form Sexual Function Score.42 It is conceivable with longer follow-up that the gap between men treated with RP and age-matched, untreated control subjects will converge, owing to stability of EF following RP observed in men during the eighth decade of life. The SPCG-4 trial comparing RP versus WW provides insights into EF in those electing no treatment for localized prostate cancer. After 9 years, prerandomization ED rates increased from 24% to 75% in the WW arm but only from 66% to 81% in the RP arm. Unlike control subjects without cancer in the general population, men with clinically localized prostate cancer electing WW demonstrated much faster deterioration of EF and SF.78 The high rate of ED (75%) in the WW reflects both the natural history of ED in aging males and also a significantly greater likelihood of receiving ADT for disease progression, which affects all aspects of SF. Based on the available literature, it appears that at short- and intermediate-term follow-up, RT has better SF outcomes than RP. SF was less likely to return following RP (P , .001) 4 years after RP in a study at UCLA,58 5 years after RP in the PCOS,77 and 5 to 10 years after diagnosis in the PLCO.42 It is due to the ADT, then the outcomes assessment is heavily biased in favor of RT. ADT not only causes ED, but also loss of libido, genital atrophy, loss of penile length, hot flashes, fatigue, and body feminization.138,139 The short-term advantage of RT on EF and SF for the subgroup not receiving neoadjuvant/adjuvant ADT appears to dissipate over time.56,113 In a comparative study of 147 and 665 men undergoing RT and RP, deterioration of EPIC Sexual Summary Scores was observed in the RT group compared with stability in the RP group between a median of 2.6- and 6.2-year follow-up.38 In the PCOS, the ability to achieve erections adequate for intercourse was similar among treatment groups at 15 years, with ED affecting a larger percentage of those in the RT group versus the RP group (93.9% vs 87%).51 Bowel Function Bowel dysfunction is not considered an adverse side effect of RP, although it can develop and negatively impact HRQOL.8 Bowel function is most commonly Based on the available literature, it appears that at short- and intermediate-term follow-up, RT has better SF outcomes than RP. SF was less likely to return following RP (P , .001) 4 years after RP in a study at UCLA, 5 years after RP in the PCOS, and 5 to 10 years after diagnosis in the PLCO. important to consider that many men with intermediate- and highrisk prostate cancer may deliberately undergo partial or complete excision of the neurovascular bundle in order to maximize oncologic control at the expense of EF. In contrast, in the modern era, most men with intermediate- and highrisk prostate cancer undergoing RT receive neoadjuvant and adjuvant ADT.137 If these men are censored from comparisons of RP and RT assessed via the UCLA-PCI Bowel Function Score, which captures rectal urgency, loose stools, distress, and crampy pain,39 or the adapted EPIC Bowel Domain questionnaire which incorporates additional bowel symptoms: bloody stools, frequency of bowel movements, painful bowel movements, and uncontrolled stool leakage.40 Longitudinal data demonstrate an immediate decline in bowel function after RP, but there 172 • Vol. 15 No. 4 • 2013 • Reviews in Urology 4004170006_RIU0604.indd 172 16/01/14 5:24 PM QOL Outcomes Following RP for Localized Prostate Cancer is improvement to baseline by 4 months, and subsequent stability up to a median follow-up of 6.2 years.38,68 The early changes in bowel function may be related to altered diet, self-imposed dehydration to decrease incontinence, and narcotic pain medications. Bergman and Litwin showed that 5-year bowel function outcomes are similar in men undergoing RP and those choosing AS,140 indicating that RP does not negatively impact bowel function at intermediate-term follow-up. On the contrary, the PCOS reported increasing bowel urgency rates at 2, 5, and 15 years of 13.6%, 16.3%, and 21.9%, respectively.51 In the absence of a randomized control trial, most would assume the time-dependent increase in bowel urgency is attributable to aging. Despite possible increases in bowel dysfunction, , 6% of men in the PCOS were bothered by decline in bowel function.51 In comparison, there is compelling evidence that RT causes short-, intermediate-, and long-term bowel dysfunction. Outcomes assessments at 1, 2, 3, 4, 5, and 10 years consistently demonstrate treatment-dependent bowel dysfunction following all forms of radiation delivery to the prostate.7,42,51,58,107,141 The data from the PCOS demonstrates that bowel dysfunction in men undergoing RP and RT converges at 15 years.51 Open RP Versus Robotic-assisted Laparoscopic RP The ability to perform roboticassisted laparoscopic RP (RALRP) was first described in 2000.142 Over the past decade, RALRP has gained widespread acceptance and now is the dominant approach to RP in the United States.143 Many attribute the adoption of the RALRP to marketing as opposed to any objective outcomes data showing superiority over the open approach.144 All of the intermediate- and longterm HRQOL outcomes reported in the literature are limited to open RP. The question is, are these findings relevant to RALRP? Unfortunately, there are no randomized studies comparing HRQOL outcomes following open versus robotic RP. The majority of studies comparing HRQOL outcomes between the two techniques Schroeck and associates compared satisfaction between open and RALRP performed by experienced surgeons at Duke University Medical Center (Durham, NC).147 Men who underwent open RP were significantly more likely to be satisfied and over four times less likely to be regretful compared with those who underwent RALRP (OR 4.45; 95% CI, 1.90-10.4).147 The authors, who included experienced open and robotic surgeons and experts in health services research, Unfortunately, there are no randomized studies comparing HRQOL outcomes following open versus robotic RP. The majority of studies comparing HRQOL outcomes between the two techniques are flawed in design. are flawed in design.145 First, the level of experience of surgeons performing the two techniques and their patient volume are often not comparable. In addition, validated instruments for capturing outcomes are usually not employed. Surgeons are sometimes involved in the data acquisition, entry, and interpretation, which can introduce bias. There are several studies that have examined large administrative databases, which often mitigate bias, but the quality of outcome measures is subject to criticism. A few studies stand out as objective and worthy of comment. Hu and colleagues compared 1938 men who underwent minimally invasive RP with and without robotic assistance with 6899 men who underwent open RP using Surveillance, Epidemiology, and End Results (SEER) Medicarelinked data and found that minimally invasive RP was associated with higher rates of genitourinary complications (4.7% vs 2.1%; P 5 .001), diagnoses of incontinence (15.9 vs 12.2 per 100 person-years; P 5 .02), and ED (26.8 vs 19.2 per 100 person-years; P 5 .009).146 speculated that men undergoing robotic surgery had unrealistic expectations about the “minimally invasive” new treatment, leading to greater dissatisfaction and more regret.147 A subsequent study by the same investigators prospectively ascertained expectations of outcome and reported that men undergoing RALRP expected better functional outcomes compared with those undergoing open RP.148 Barocas and colleagues compared men undergoing open and RALRP and failed to show any advantages of either approach for preventing biochemical recurrence.149 The most definitive comparison of continence and potency outcomes was recently reported by Barry and colleagues.150 In this study, a targeted disease-specific HRQOL survey was mailed to 797 men (86% response rate) in the SEER-Medicare database who had undergone open or RALRP from August 2008 through December 2008. Of the 406 and 220 responders undergoing RALRP and open RP, respectively, they reported a nonsignificant trend toward greater problems with continence Vol. 15 No. 4 • 2013 • Reviews in Urology • 173 4004170006_RIU0604.indd 173 16/01/14 5:24 PM QOL Outcomes Following RP for Localized Prostate Cancer continued following RALRP (OR 1.41; 95% CI, 0.97-2.05) and no differences in potency. These results, well beyond the so-called learning curve of RALRP, provide compelling evidence that HRQOL outcomes do not appreciably differ between the two techniques. The majority of intermediateand long-term outcomes data is derived from open RP series. Based on comparable short-term HRQOL outcomes between open RP versus RALRP, it is reasonable to speculate that the intermediate- and longterm HRQOL outcomes following RALRP will at best be comparable with open RP. Therefore, we believe the conclusions of this review can be extrapolated to RALRP. Conclusions Screening, diagnosis, and treatment for prostate cancer have evolved dramatically over the past two decades. Lower-risk prostate cancers are being diagnosed at a younger age. In the majority of contemporary RP series, the mean age of men undergoing the procedure is approximately age 60 years.7,51,68,96,151 Therefore, the average man undergoing curative intervention of his disease is expected to live at least 14 years.10 Many men undergoing RP will experience significant short-term urinary incontinence, LUTS, and sexual dysfunction that may impair both their general and disease-specific HRQOL. As men in the general population age, there are natural tendencies for LUTS, sexual dysfunction, and, to a lesser degree, urinary incontinence, to become clinically significant issues. In addition, as men age into and beyond their seventies, issues such as sexual dysfunction may be perceived as less bothersome relative to other issues such as LUTS. 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