Continuing Education Activity

Benign prostatic hyperplasia is a common condition encountered in aging men and a common cause of lower urinary tract symptoms. Histological prevalence is common, and disease progression is associated with bladder outflow obstruction. This may present clinically in both the emergency surgical and outpatient clinical settings. This activity reviews the natural history of benign prostatic hyperplasia and highlights the role of the interprofessional healthcare team in evaluating and managing these patients.

Participants will explore the definitions of benign prostatic hyperplasia, benign prostatic enlargement, and bladder outlet obstruction, gaining clarity on the terminology used to describe the various aspects of the condition. They will acquire a thorough understanding of benign prostatic hyperplasia, its clinical implications, and evidence-based approaches to its evaluation and management. This knowledge will equip healthcare professionals and interprofessional team members with the tools necessary to enhance patient care and outcomes in affected individuals.

Objectives:

• Apply a comprehensive understanding of the natural history of benign prostatic hyperplasia to guide long-term treatment strategies and mitigate potential complications.

• Identify modifiable and non-modifiable risk factors for benign prostatic hyperplasia, including age, genetics, geographical location, and obesity, to personalize preventive strategies and enhance overall patient outcomes.

• Select appropriate treatment modalities, ranging from watchful waiting to surgical interventions, based on a thorough evaluation of patient characteristics and preferences.

• Collaborate with the interprofessional healthcare team to ensure a holistic approach in evaluating and managing patients with benign prostatic hyperplasia, integrating diverse perspectives for optimal care.

Introduction

Benign prostatic hyperplasia (BPH) refers to the nonmalignant growth or hyperplasia of prostate tissue and is a common cause of lower urinary tract symptoms (LUTS) in older men. Disease prevalence has been shown to increase with advancing age. The histological prevalence of BPH at autopsy is as high as 50% to 60% for males in their 60s, increasing to 80% to 90% of those older than 70 years of age.[1]

Several definitions exist in the literature when describing BPH. These include bladder outlet obstruction, LUTS, and benign prostatic enlargement (BPE). BPH describes the histological changes, BPE refers to the increased size of the gland (usually secondary to BPH), and bladder outlet obstruction is defined as the blockage to urinary flow.[2][3] Those with BPE who present with bladder outlet obstruction are also termed benign prostatic obstruction.[4]

LUTS describe the urinary abnormalities shared by disorders affecting the bladder and prostate typically caused by BPH. These terms have largely replaced those symptoms historically termed "prostatism."

The development of BPH is characterized by stromal and epithelial cell proliferation in the prostate transition zone, which surrounds the urethra. This leads to urethral compression and the development of bladder outflow obstruction, which can result in clinical manifestations of LUTS, urinary retention, or infections due to incomplete bladder emptying.[5] Long-term, untreated disease can lead to the development of chronic high-pressure retention (a potentially life-threatening condition) and long-term or permanent changes to the bladder detrusor muscle.

BPH treatment options range from watchful waiting to various medical and surgical interventions. Risk factors may be divided into non-modifiable and modifiable. Other factors such as age, genetics, geographical location, and obesity have all been shown to influence the development of BPH.[6][7]

Etiology

BPH arises due to the loss of homeostasis between prostatic cellular proliferation and apoptosis or cell death. This imbalance favors cellular proliferation without intervention. The result is increased numbers of prostatic periurethral epithelial and stromal cells, which can be seen histopathologically.[5] The etiology of BPH is influenced by a wide variety of risk factors, in addition to the direct hormonal effects of testosterone on prostate tissue. Men who are castrated before puberty or who have an androgen-related disorder do not develop BPH. 

There is conflicting data on the role of non-steroidal anti-inflammatory medications (NSAIDs) in promoting BPH, with some studies indicating a positive association and others discounting any association.[8][9][10] Allopurinol is somewhat protective for BPH, possibly secondary to reduced oxidative stress from hyperuricemia effects.[11]

Testicular androgens are required to develop BPH as dihydrotestosterone (DHT) promotes tissue growth and cellular proliferation by interacting directly with prostatic epithelium and stroma.[5][12] Testosterone is converted to DHT by 5-alpha-reductase 2 in prostatic stromal cells and accounts for 90% of total intraprostatic androgens.[7] DHT directly influences prostatic stromal and adjacent cells, which affect cellular proliferation and apoptosis.[13] Interestingly, there does not appear to be any relationship between testosterone or DHT levels and the development of symptomatic BPH.[14]

Risk Factors

Non-modifiable and modifiable risk factors also contribute to the development of BPH. These have been shown to include diabetes, diet, genetic factors, localized inflammation, obesity, and metabolic syndrome.[7]

• Diabetes and the use of antidiabetic medications, particularly insulin, appear to increase the risk of BPH, LUTS, and prostatic surgery.[15][16]

• Dietary factors also appear to influence the development of BPH. Beta-carotene, carotenoids, and vitamin A seem somewhat protective, while excessive alcohol ingestion, heavy caffeine intake, and high-dose supplemental vitamin C tend to increase BPH risk and symptoms.[17][18][19] No prepared dietary supplement has been proven to help BPH in properly performed, randomized, controlled studies.

• Genetic predisposition to BPH has been demonstrated in cohort studies. First-degree relatives in 1 study demonstrated a 4-fold increase in the risk of BPH compared to the control.[20] These findings have demonstrated consistency in twin studies looking at the disease severity of BPH, with higher rates of LUTS seen in monozygotic twins.[21][22]

• Localized inflammation is often associated with BPH, at least histologically.[23][24][25] While the exact etiology is unclear, possible causes include increased detrusor voiding pressure, obesity, low-grade or chronic prostatitis, compression of the prostatic ducts, and autoimmune disorders. This would suggest that the use of NSAIDs could be used to treat symptomatic BPH. Three randomized studies have confirmed that NSAIDs can improve BPH symptoms, but the difference was relatively modest at <3 points (International Prostate Symptom Scores [IPSS]) and <1 mL/s improvement in urine peak flow rate.[26]

• Obesity is associated with an increased risk of BPH in observational studies.[27][28] The exact cause is unclear but is likely multifactorial, as obesity makes up 1 aspect of metabolic syndrome. Proposed mechanisms include increased levels of systemic inflammation and higher levels of estrogens.[29][30]

• Metabolic syndrome refers to conditions that include hypertension, glucose intolerance/insulin resistance, and dyslipidemia. Meta-analysis has demonstrated those with metabolic syndrome and obesity have significantly higher prostate volumes.[31] Further studies looking at men with elevated glycosylated hemoglobin levels (Hba1c) have demonstrated an increased risk of LUTS.[15] Limitations of these studies are that there were no subsequent significant differences in prostate symptom scores, and the effect of diabetes on LUTS has been shown to be multifactorial.[31][32] Further studies are therefore required to establish causation in these individuals.

Epidemiology

Differences in definitions make the interpretation of population-based studies regarding BPH difficult. For example, BPH can refer to histology, prostate enlargement, prostatic glandular hypertrophy, bladder outlet obstruction, or just a physician's diagnosis of BPH. LUTS refers to the large variety of urinary symptoms shared by disorders affecting the prostate or bladder, which may or may not be due to BPH.

Age is a significant predictor of the development of BPH and subsequent LUTS. Fifty percent of men older than 50 years show evidence of BPH, and the association with the development of LUTS is shown to increase linearly with age.[33][34] This is supported by studies that have demonstrated increases in prostate volume with age (2% to 2.5% increase in size per year).[35]

In the US, studies have shown BPH prevalence to be as high as 70% in those between 60 and 69 years of age and more than 80% in those over 70 years.[36] In a Boston area community health survey, the prevalence of male LUTS alone significantly increased with age from 8% (30 to 39 yrs) to 35% (60 to 69 yrs). Other US population-based studies have shown 56% of men between 50 and 79 years reported BPH symptoms.[37][38]

At a population level, the reported prevalence of BPH increased dramatically between 1998 and 2007 in the US, with the number of cases nearly doubling.[39] These increases are attributed to an aging population, with those older than 80 years projected to be 19.5 million in 2030 (up from 9.3 million in 2003).[40] As the worldwide population grows older, the number of symptomatic BPH cases is expected to rise.

International studies have suggested that Western populations have significantly higher prostate volumes than those from other parts of the world, particularly Southeast Asia.[41] Further studies looking at the correlation of prostate volume with LUTS found that lower prostate volumes did not necessarily correlate with symptoms, as higher mean IPSS were observed in a cohort of Indian men compared to similar Western populations.[42]

Pathophysiology

The development of LUTS and bladder outlet obstruction in men with BPH can be attributable to static and dynamic components.[43] Static obstruction is a direct consequence of prostate enlargement, resulting in periurethral compression and bladder outlet obstruction. Prostate enlargement distorts the bladder outlet, causing urinary obstruction, while periurethral compression requires increasing voiding pressures to overcome flow resistance.[44] 

The prostate's median lobe can enlarge intravesically, where increased detrusor pressure will tend to close the bladder outlet and further restrict urination. If the median lobe enlarges unevenly, it can create a flap or "ball-valve" effect, closing the bladder outlet during voiding, resulting in significantly restricted flow and incomplete bladder emptying.

Dynamic components include the prostatic smooth muscle tension (hence using five alpha-reductase inhibitors to reduce prostate volume and alpha-blockers to relax prostatic smooth muscle).[45] This is explained by decreased elasticity and collagen in the prostatic urethra in men with BPH, which exacerbates symptoms of bladder outlet obstruction due to loss of compliance and increased flow resistance.[46] It also explains why prostate size alone is not always a reliable predictor of disease.

Although BPH can increase prostate-specific antigen levels (PSA), it is not a risk factor for prostate cancer.[47] BPH occurs primarily in the central/transitional portion of the prostate, while malignancies typically form in the prostatic periphery.

Histopathology

Microscopic histological examination demonstrates that BPH is a hyperplastic process with increased cell numbers, including both glandular and stromal cellular proliferation. Hyperplasia occurs both in the periurethral and transition zones. Specifically, periurethral zones demonstrate hyperplastic stromal nodules, whereas glandular nodular proliferation is seen within the transition zone.[48]

History and Physical

History

In the elective setting, a focused medical history should include all aspects of urinary symptomatology, including onset, timing, severity, exacerbating and relieving factors, and degree of bother.

LUTS can be divided into storage (frequency, nocturia, urgency) and voiding disorders (weak or intermittent stream, straining to void [stranguria], hesitancy, prolonged micturition, incomplete emptying) and can help establish other causes of urinary problems such as urinary tract infections (UTIs), overactive bladder, or neurogenicity, in addition to determining the affected organ (bladder vs prostate). Men with BPH are likely to report symptoms of nocturia, poor stream, hesitancy, or prolonged micturition.

Red flags help point to more sinister causes of urinary symptoms such as prostate cancer, spinal disorders such as cauda equina, or chronic high-pressure retention (which can lead to silent renal failure due to reflux). 

A complete medication history should be taken, including any BPH drugs or supplements patients may have tried and their use of anticoagulants, which may affect surgical procedures.

The patient's overall fitness should also be established to determine suitability for future interventions (fitness for anesthesia, independence, exercise tolerance, and ability to complete activities of daily living). The symptom burden on quality of life should also be established.

Various non-urological conditions can cause or exacerbate urinary symptoms. For example:

• Diuretic use for congestive heart failure and hypertension can worsen urinary frequency and nocturia.[49][50]
• Neurological problems such as Parkinson's, stroke, cauda equina syndrome, multiple sclerosis, and various spinal cord disorders can affect the complex reflexes involved in bladder storage and voiding.[51][52][53]
• Poorly controlled diabetes causes polyuria due to osmotic diuresis and detrusor neuropathy, resulting in decreased bladder sensation, reduced contractility, and incomplete emptying.[54][55]
• Diabetes insipidus will cause increased urinary frequency and polyuria.[55][56]

Physical Examination

In the elective setting, the examination should include an abdominal examination (looking for palpable bladder/loin pain, lumps, hernias, or masses) and an examination of the external genitalia (meatal stenosis, testicular abnormalities, or phimosis). A neurological examination will help identify any neuropathy. The examination should include a digital rectal examination (DRE), making note of the particular size, shape, symmetry, nodularity, and consistency (smooth/hard) of the prostate. A smooth, enlarged prostate typically characterizes BPH.

Further evaluation includes the following: [57]

• Urinalysis
• Digital rectal examination
• IPSS or American Urological Association symptom (AUA) symptom score
• Postvoid residual volume (PVR) to determine whether the bladder is emptying adequately
• A frequency-volume chart or 24-hour voiding diary (optional)
• Peak flow test (optional)
• Laboratory evaluation for kidney function (BUN and creatinine) and diabetes (fasting glucose, Hgb A1c) if not previously performed.
• PSA test if appropriate (See our companion StatPearls reference article on "Prostate Cancer Screening.")[58]

Symptom Score Questionnaires

Both the AUA symptom score and IPSS have been verified and validated. They are used to identify significant LUTS, determine their type (obstructive or irritative), and assess their severity.[59] They are useful when quantifying symptom severity, tracking symptom relief with therapy, and categorizing patients for treatment.[7] 

New male patients aged 50 or older can be given a simplified questionnaire to fill out while in the waiting room or after arrival in the examination room before the physician's entrance. A quick look at the symptom score will instantly identify urinary issues that should be addressed. Treatment is generally indicated when the symptom scores reach ≥10. The scoring can also be used after treatment to track symptom improvement.

The AUA symptom score (and the similar IPPS) uses the following questions.[59][60][61]

American Urological Association Symptom Score

The history of the patient presenting with symptoms of acute urinary retention should focus on LUTS using questions such as, "Over the past month, ..." 

• How frequently have you had the sensation of not being able to empty your bladder completely after voiding?

• How frequently have you had to urinate again less than 2 hours after finishing urination?

• How frequently have you found you stopped and started several times when you were voiding?

• How often have you found it difficult to postpone urination?

• Over the past month, how often have you had a weak stream?

• How often have you had to push or strain to begin urination?

• How many times did you get up to urinate from the time you go to bed until you get up in the morning?

 Responses are then scored according to the following:

• 0 = Not at all

• 1 = < 1 time in 5 (once in a while)

• 2 = < half the time

• 3 = About half the time

• 4 = > than half the time

• 5 = Almost always or all the time

The IPSS and AUA symptom scores categorize patients into 3 groups based on symptoms. The groups are mild (scores 0 to 9), moderate (scores 10 to 19), and severe (scores 20 to 35). 

A symptom score ≥ 10 suggests that BPH treatment should be initiated, increased, or otherwise modified to provide additional relief. Those with more severe symptoms are less likely to benefit substantially from conservative or medical measures alone.

Evaluation

Standard investigation of BPH includes a urinalysis, IPSS or AUA symptom score, a DRE, PVR determination, and urine flow studies to establish if there is evidence of obstructive or irritative voiding. Further tests may be indicated depending on these results and the patient's history.

Urinalysis

Urine specimen testing can help detect infection, microscopic hematuria, or metabolic disorders (glycosuria). Leukocytes and nitrites are common findings associated with infection, while the presence of proteinuria may suggest an underlying renal disorder. The AUA BPH Guidelines also recommend a urinalysis.[57]

Blood Tests

Blood tests, including BUN and creatinine, are useful to establish baseline renal function. They can help support the diagnosis of renal failure or acute kidney injury in someone with chronic high-pressure or acute retention. A fasting glucose level or a Hgb A1c can identify diabetes. 

24-Hour Voiding Diary

A 24-hour urinary voiding diary, where the patient measures and records the time and volume voided for a complete day, can be extremely helpful in evaluating urinary disorders, particularly nocturia. High urinary volumes at night are more consistent with nocturnal polyuria, while small volumes suggest bladder overactivity. (See our companion StatPearls reference article on "Nocturia.")[50]

Prostate-Specific Antigen (PSA)

Prostate-specific antigen testing is somewhat predictive of prostate volume.[62][63][64][65] Benign prostates of 35 cc size will typically generate a PSA of 1.5 ng/mL.[66] PSA testing is recommended where cancer is suspected (hard prostatic nodule, asymmetry, metastatic disease suspected) or a previous baseline PSA has been previously established. PSA testing is not a routine test done for BPH but is recommended before starting five alpha-reductase therapy or performing surgery to avoid missing a possible prostatic malignancy. (See our companion StatPearls reference articles on "Prostate Specific Antigen" and "Prostate Cancer Screening.")[58][67]

Postvoid Residual Volume

A postvoid residual urine volume is measured to determine how well the bladder empties after urination. This can be done with a bladder scan, formal bladder ultrasound, or a quick straight catheterization. The easiest way is to do a bladder scan if that is available. The normal PVR would be <100 to 150 mL, while >200 mL would be considered pathological. The measurement should be performed immediately after the patient voids but is still useful if done within 15 to 20 minutes. The postvoid residual measurement is an important and valuable determinant in evaluating and assessing BPH. It is also recommended by the AUA 2021 Guidelines on the Management of BPH before surgical intervention.[57]

While urology offices and hospitals typically have dedicated bladder scanners, most primary care facilities do not. Many experts recommend bladder scanners for primary care offices to measure PVR and diagnose urinary retention in patients with suprapubic pain, incontinence, urinary difficulty, or symptoms of BPH. A bladder scan model specifically designed for primary care offices can also screen patients for abdominal aortic aneurysms. This makes it very cost-effective even for small primary care offices.

Urinary Flow Studies (Flowmetry)

Urine flow studies (flowmetry) determine peak urinary flow rates. This can help establish whether there is objective evidence for urinary obstruction. The peak flow rate is the most significant measurement. A peak flow ≥ 13 cc/sec is considered acceptable. A flow test requires a volume of at least 150 cc to be considered valid. (If the peak flow ≥13 cc/sec, then the volume does not matter.)

Optimally, the postvoid residual measurement is made immediately after the flowmetry study. Decreased peak flow unrelated to inadequate volume is typically due to either obstruction (BPH, detrusor sphincter dyssynergia, urethral stricture, or bladder neck contracture) or detrusor hypotonicity. Flowmetry is recommended by the AUA 2021 Guidelines on Management of BPH before surgical intervention.[57]

Pressure/Flow Studies

A pressure/flow study is recommended in cases of abnormal urination where the diagnosis is uncertain or the benefit of surgical intervention is unclear. Noninvasive studies such as PVR measurements and flowmetry are certainly sufficient in most cases, but only a pressure/flow study can reliably determine the adequacy of detrusor muscular contractility and the presence of bladder outlet obstruction.[68][69] Most men with obstructive BPH will have a low urinary peak flow of <10 cc/sec with a normal or high detrusor voiding pressure.[68] Pressure/flow studies are recommended by the AUA 2021 Guidelines on Management of BPH before surgical intervention.[57]

Urodynamics

Urodynamic studies are used to see how the bladder empties and fills. They include pressure/flow studies but also evaluate sphincteric function and possible neurogenicity. Urodynamics can help further assess patients where the diagnosis is not certain or where a neurogenic/overactive bladder is suspected (ie, neurological conditions that may affect the bladder, detrusor sphincter dyssynergia, equivocal flow studies, unclear diagnoses, spinal cord injuries, sacral disorders, etc). Urodynamics are not required in most patients with BPH and are only indicated where there is doubt about urinary function and obstruction, even after simpler studies.

Renal Ultrasound

Renal ultrasound scans are used to look for evidence of hydronephrosis. They are only indicated in patients with high residual volumes, acute or chronic urinary retention, or unexplained renal impairment. Other indications include suspicion of urinary tract stones or to investigate unexplained hematuria. If nephrolithiasis or bladder calculi are suspected, a KUB x-ray or a noncontrast CT of the abdomen and pelvis may be used (see Image. CT of Pelvis Showing Multiple Bladder Stones).

Cystoscopy

Flexible cystoscopy should be used to investigate red-flag symptoms such as unexplained hematuria, possible bladder calculi, or suspected bladder cancer. It can also identify urethral strictures, evaluate median lobe enlargement, detect intravesical median lobe extensions and lobulations, determine the degree of obstruction in the prostatic urethra, and evaluate the bladder for stones and signs of damage. Cystoscopy provides a good estimate of prostate size and shape, can evaluate the degree of obstruction, and permits visualizing signs of bladder damage. It is strongly recommended before BPH surgical intervention. The bladder can be filled during the cystoscopy, allowing a urinary flow study and determining PVR. 

Before surgical intervention for BPH, measurement of prostatic size is recommended, as many procedures have prostatic volume or shape limitations. While this is typically done by cystoscopy, it may also be accomplished by abdominal or transrectal ultrasonography, CT scan, or MRI. 

Treatment / Management

Acute Urinary Retention

Men with BPH may present emergently with acute urinary retention or may be seen routinely in a primary care setting with chronic retention issues. Acute retention typically presents with significant lower abdominal or suprapubic pain, weak urinary stream or dribbling, and possibly incontinence from overflow. 

Standard therapy for acute urinary retention from BPH is Foley catheter drainage to immediately relieve the obstruction, reduce renal damage, eliminate patient discomfort, and allow for detrusor muscle recovery. The amount of urine drained immediately should be documented as this reasonably predicts the bladder muscle's recovery potential.

The normal maximum bladder capacity is about 500 mL, so any amount over this is considered abnormal or pathological. Patients with acute retention who have residual amounts up to 1000 mL will generally see a rapid recovery of bladder muscle tone. Recovery of detrusor muscle activity and tone is less likely as the residual volume increases, especially beyond 1500 mL to 2000 mL. In these cases, bladder muscle recovery is more problematic, and prolonged catheter drainage or self-intermittent clean catheterization may be required. There is also the immediate risk of postobstructive diuresis. (See our companion StatPearls reference articles on "Postobstructive Diuresis" and "Male Urinary Retention.")[61][70]

In addition to the Foley catheter, initial therapy usually includes treatment with an alpha-blocker. Such medical therapy should be initiated with alfuzosin (10 mg daily) or high-dose tamsulosin (0.8 mg) to maximize the success rate of a subsequent voiding trial. At least 72 hours should pass before a voiding trial is attempted to allow for the medication to reach full effect and the over-stretched detrusor muscle to recover. (five alpha-reductase inhibitors are not used in the immediate treatment of acute urinary retention from BPH as they take months to be effective.)

Intractable urinary retention that is refractory to medical therapy generally requires surgery. International studies have demonstrated that BPH accounts for over two-thirds of all cases of acute urinary retention.[71] Men who experience acute urinary retention have a 15% chance of another episode in the future, with 75% of these individuals requiring surgery.[72]

Chronic Urinary Retention

Chronic urinary retention may be either low or high pressure. High-pressure chronic retention commonly occurs over time in bladder outflow obstruction due to the elevated detrusor pressures required to overcome the outflow obstruction from BPH.[71] As bladder pressure increases, ureteral drainage into the bladder is impeded, resulting in bilateral hydronephrosis and renal functional deterioration. This can be identified by unexplained renal failure on blood tests and bilateral hydronephrosis on ultrasound or CT imaging studies. High-pressure retention is more likely associated with vesicoureteral reflux from the breakdown of the antireflux mechanism at the ureterovesical junction and nocturnal enuresis due to decreased bladder-neck muscle tone overnight.[71]

Immediate management consists of Foley catheterization. Some patients may develop postobstructive diuresis immediately after catheter placement, especially if they have renal failure (elevated serum creatinine) or are fluid-overloaded. There is no benefit to clamping or restricting urinary drainage in these patients, and catheters should be allowed to drain freely.[73]

Long-term management for recurrent or intractable acute retention and chronic urinary retention is usually a transurethral resection of the prostate (TURP) or similar surgery. Intermittent self-catheterization is an option in selected patients. Permanent Foley catheterization or suprapubic tube placement may also be appropriate in some situations.

Treatment of Benign Prostatic Hyperplasia 

In men with symptomatic BPH, treatment options range from watchful waiting to medical and surgical intervention. The type and nature of therapy will depend on the degree of "bother" or disease burden to the patient (as assessed by an IPSS or AUA symptom score) after a complete discussion of the available options, along with their respective risks and benefits.

Observation

Watchful waiting is a process of managing patients by giving lifestyle advice. Examples include weight loss, reducing caffeine intake, restricting fluid intake in the evening, implementing pelvic floor (Kegel) muscle exercises, and avoiding constipation to try and reduce risk factors and improve urinary symptoms. Patients should be involved in the discussion and informed of the risks of disease progression. Clinical progression has shown to be around 31% in 1 observational study, with 5% developing acute urinary retention.[74] These measures may be considered in those with mild symptoms.[7]

Medical Therapy

Both static and dynamic components contribute to the pathophysiology of BPH. Medical therapy aims to address both of these components.

Alpha-blockers are designed to minimize muscle tone in prostate stromal smooth muscle and bladder neck tissue. Alpha 1-adrenoreceptor blockage results in stromal smooth muscle relaxation addressing the dynamic component of BPH, thus improving flow and urinary symptoms. Typical improvement in IPSS and AUA symptoms scores is 4 to 6 points. Examples include selective alpha-blockers specifically designed for the prostate, such as tamsulosin (0.4 to 0.8 mg once daily), alfuzosin (10 mg once daily), and silodosin (4 to 8 mg once daily). Their effect maximizes in about 72 hours. 

When used for patients with acute urinary retention, this suggests that the patient needs at least 3 days for the medication to reach peak efficacy before attempting a voiding trial. When used for this purpose, it is suggested that the 0.8 mg dose of tamsulosin or 10 mg of alfuzosin be used. If successful, the dosage can be reduced. When used for routine BPH symptoms, the 0.4 mg dose of tamsulosin can be tried first.

These medications are associated with floppy iris syndrome and should be used cautiously in patients requiring cataract or glaucoma surgery. Such situations should be discussed with the patient's ophthalmologist. Ejaculatory issues are a common side effect of alpha-blocker therapy, along with dizziness and low blood pressure. Patients with severe sulfa allergies may rarely react to tamsulosin, although most such patients can take the medication safely. Unlike five alpha-reductase inhibitors, alpha-blocker therapy does not appear to affect the long-term risk of acute urinary retention or the eventual need for surgical BPH management.[75]

Other alpha-blockers, such as terazosin and doxazosin, are equally effective in relieving prostatic issues but are much more likely to cause generalized side effects such as orthostatic hypotension.

Tadalafil is a phosphodiesterase type 5 inhibitor similar to sildenafil that is indicated for erectile dysfunction (ED). It has also been found to be useful in treating symptoms of BPH and is roughly equivalent in efficacy to tamsulosin 0.4 mg.[76][77][78][79] Since it can treat both ED and BPH when given at the recommended 5 mg/day dosage, it can be particularly useful for patients requiring treatment for both conditions.[80][81] Combination therapy with daily tamsulosin 0.4 mg and tadalafil 5 mg has improved efficacy in treating BPH symptoms over monotherapy from either medication alone, although these results have been questioned, and side effects did increase.[82][83] Therefore, the 2021 AUA Management Guidelines for BPH do not recommend combination therapy.[57]

Unlike tamsulosin, there is no risk of an allergic reaction to sulfa or "floppy iris" syndrome with tadalafil, and ED has not been associated with its use.[84] Tadalafil can also be safely used with overactive bladder medications such as mirabegron.[85] Tadalafil is generic, relatively inexpensive, with few side effects, and is a very reasonable, if underutilized, therapy choice for patients with both BPH and ED.

Five alpha-reductase inhibitors, such as finasteride (5 mg once daily) and dutasteride (10 mg once daily), block the intraprostatic conversion of testosterone to DHT.[86]. This causes a reduction in individual cell volume and an increase in cellular apoptosis.[87] The overall effect is a reduction in prostatic tissue volume, although it takes several months to show noticeable improvement, with 6 months needed for maximal effectiveness.[7] As a result of treatment, serum PSA can be reduced by 50%, with prostate volume decreasing by up to 25%.

In general, only patients with prostates larger than 30 gm in size are likely to see any clinical benefit from this medication. Five alpha-reductase inhibitors have been shown to alter the disease process, prolong the effectiveness of alpha-blocker BPH medications, and delay the need for surgical intervention.[75] While similar, dutasteride has a longer half-life and appears slightly more effective than finasteride.[88]

Five alpha-reductase inhibitors can help reduce bleeding during and after prostate surgery if started 2 to 4 weeks earlier.[89] They are also useful for controlling prostatic bleeding unrelated to surgery and have been shown to reduce the risk of urinary retention and delay the need for BPH surgical intervention.

An alpha-blocker and a five alpha-reductase inhibitor are often combined to improve voiding symptoms. This is backed by studies confirming the effectiveness of combination therapy over monotherapy for symptomatic BPH.[90][91]

The use of five alpha-reductase inhibitors has also been shown to significantly reduce the incidence of bladder cancer and improve survival.[79][92][93][94] Their impact on prostate cancer is a bit more complicated. The latest meta-analysis review concluded that five alpha-reductase inhibitors significantly reduced the overall risk of prostate cancer, although a greater incidence of higher-grade prostatic malignancy was found.[79] This did not appear to impact either overall or cancer-specific survival.[95]

Antimuscarinics are commonly used for urinary frequency, urgency, and bladder overactivity symptoms. They are also useful for the symptomatic management of detrusor instability due to bladder outlet obstruction from BPH, which can result in increased urgency (overactive bladder) and frequency. Muscarinic receptor antagonists can help with these symptoms by blocking muscarinic receptors in the detrusor muscle. This reduces smooth muscle tone and can improve irritative symptoms in those with bladder overactivity. Examples include solifenacin, tolterodine, trospium, and oxybutynin.

Those who fail antimuscarinic treatment may be considered for mirabegron or vibegron use (beta-3 adrenoreceptor agonists), which also cause detrusor relaxation and relieve symptoms of overactivity with no cholinergic or mental side effects.

Bladder relaxing therapies for men with BPH may be used alone if there is good urinary flow and low PVRs. They are often used together with alpha-blockers for most patients with symptomatic BPH being treated medically to reduce postvoid volumes, provide symptom relief, and minimize the risk of urinary retention.

Surgery

Patients who fail or do not tolerate medical therapy should undergo further evaluation and consider surgical intervention.

Guidelines for the indications for surgery in BPH as outlined by the European Association of Urology (EAU) and the AUA include the following: [57][96]

• Bladder stones
• Hematuria refractory to medical treatment (other causes excluded)
• High-pressure chronic or recurrent urinary retention (absolute indication)
• Intolerance of medical therapy
• Increased postvoid residual (typically >200 mL)
• Recurrent urinary infections
• Refractory urinary retention
• Renal failure with bilateral hydronephrosis due to bladder outlet obstruction
• Renal insufficiency
• Urinary symptoms unresponsive to medical therapy

Surgical management of BPH has broadened significantly over the years, with the development of further minimally invasive techniques. Current recommended procedures include TURP and newer techniques, such as laser vaporization and holmium laser enucleation, which have largely replaced open prostatectomy. Minimally invasive surgical options such as paclitaxel-coated prostatic balloon dilation, prostatic urethral internal lateral suturing (prostatic urethral lift), transurethral microwave thermotherapy, and water vapor or steam infusion therapy are also available and FDA-approved. In rare cases, prostatic artery embolization can be considered.

Additional recommended studies before surgical interventions include a urinalysis and the following:

• Cystoscopy to assess prostatic size and shape, the degree of urinary obstruction, and the condition of the bladder. 
• PSA determination as prostate cancer should be excluded before any prostatic surgery.
• Postvoid residual determination can be measured with a bladder scan, dedicated bladder ultrasound, or a quick straight catheterization. Amounts >200 mL are considered pathological.
• Uroflowmetry. The minimal acceptable urinary flow rate is generally about 13 mL/s peak flow. A voided volume ≥150 mL is sufficient for valid measurement.
• A pressure/flow study should be considered in questionable cases.
• Patients should be informed that surgeries are not guaranteed, and additional treatments may be necessary, particularly after minimally invasive procedures.
• Urodynamics is not routinely necessary but may be considered in selected cases, such as:
  • Patients with visibly abnormal bladders on cystoscopy or imaging and those with persistently high residual volumes without direct evidence of obstruction may be considered candidates for these extra studies.
  • A detrusor muscle that cannot generate at least 30 mL of water pressure is unlikely to be able to empty satisfactorily after surgery without further intervention, such as clean, self-intermittent catheterization.
  • It is best to inform patients of this likelihood before any surgical intervention.

Surgical management options are outlined below.

Transurethral Resection of the Prostate 

TURP focuses on debulking the prostate to produce an adequate channel for urine to flow. This is achieved using electrical diathermy to produce a high-frequency current that allows tissue cutting and coagulation. An adequate channel can be created by resecting all obstructing prostatic tissue to allow urine to flow freely. Bipolar diathermy has largely replaced monopolar diathermy techniques for TURP, with increased benefits such as resection in saline and a reduced risk of "TUR syndrome." However, bipolar resection may be somewhat slower and requires new instrumentation.[97] The AUA guidelines approve both monopolar and bipolar instrumentation for surgical BPH treatment.[98]

The primary advantage of TURP surgery is that it definitively removes the blocking tissue, there are no size or shape limits (although few surgeons have the skill to safely do a TURP on a prostate >75 grams in size), and it provides substantial tissue for pathological examination. TURP was developed in the early 1940s but is still considered the "gold standard" surgical treatment for BPH. (See our companion StatPearls reference article on Transurethral Resection of the Prostate.)[97]

Transurethral incision of the prostate is similar to a TURP but limited to just creating a limited channel in the prostatic urethra along with an incision of the bladder neck. It is typically performed on smaller prostates (<30 gm) in patients with high comorbidities. No prostatic tissue is removed, so appropriate prostate cancer screening needs to be done before surgery. If the bladder neck incision is omitted, normal ejaculation is likely to be preserved.[99]

Transurethral electrovaporization of the prostate is also similar to a TURP but uses a roller or vaporization electrode instead of a cutting loop. This vaporizes the prostatic tissue instead of cutting it. It can be performed with monopolar or bipolar instrumentation. The benefit is increased safety and less bleeding, but the process is slower than a TURP, and no tissue is available for pathological analysis.[100] Overall efficacy in properly selected patients is similar to TURP.[101]  It has been largely supplanted by laser vaporization, which provides similar results but can be done much faster.

Transurethral laser vaporization is one of the more popular options for safely removing obstructing prostatic tissue. Instead of an electrical wire loop cutting the prostatic tissue (as in TURP), this technique uses a laser fiber with an angled tip that directs the laser energy laterally. The high energy of the laser vaporizes the tissue. The surgery is done under direct cystoscopic vision. The laser is directed in a sweeping, rotational manner to cover the entire prostate. It has the main advantage of good hemostasis, so it is often preferred for patients on anticoagulants.[102]

Like electrovaporization, no tissue is available at the end of the procedure for pathological examination. Compared to TURP, vaporization is relatively slow and requires specialized equipment that may not be available in every hospital and surgical facility.[103] 

Holmium and Thulium Laser Enucleation of the Prostate 

Previously, only open prostatectomy allowed an enlarged prostatic adenoma to be removed or enucleated off its capsule. This can now be achieved with laser enucleation, referred to as Holmium laser enucleation of the prostate (HoLEP) or Thulium laser enucleation of the prostate (ThuLEP), depending on the laser used.

Energy is transmitted to the tip of the laser fiber, where the irrigation fluid absorbs it. This creates a vaporization bubble that ablates prostatic tissue with minimal tissue penetration. This is then used to enucleate the prostatic transitional zone along the surgical capsule. A separate device then chops up the prostatic tissue into smaller pieces that can be extracted.

Laser enucleation of larger prostates generally results in shorter Foley catheterization times, fewer perioperative bleeding complications, and reduced inpatient hospital days compared to TURP.[104] Meta-analysis has shown significantly improved urinary flow rates, reduced PVRs, and overall symptom improvement comparable to TURP.[105] 

The main advantage of laser enucleation is the ability to manage larger prostates (>75 to 100 gm) without the need for an open procedure. Other benefits include a lower transfusion rate with no increase in complications compared to TURP. However, limitations include the need for specialized equipment and training, making it less readily available.[106] Also, the number of prostates large enough to require this technique is relatively small, so training and gaining substantial experience with the technique can take time.

Minimally invasive surgical therapies for symptomatic BPH have also been developed. They can help minimize the risk of bleeding, anesthesia, and other complications in patients with high-risk comorbidities. They may also be preferred by selected patients desiring a low-risk surgical option or merely to avoid the need for continuing medications. Since no tissue is retrieved for pathological examination, appropriate prostate cancer screening should be done before any of these treatments.

Paclitaxel-coated prostatic balloon dilation is now FDA-approved as a minimally invasive therapy for BPH. Paclitaxel is a taxane-based chemotherapy drug used to treat breast, ovarian, and non-small cell lung cancer, as well as Kaposi's sarcoma, lymphoma, and leukemia.[107] It's a microtubule-stabilizing compound that induces mitotic arrest, leading to cellular death.[108] It is also used as the key medication in drug-eluding vascular stents and angioplasty balloons to prevent arterial restenosis, as it has significant anti-proliferative and anti-inflammatory properties.[109][110][111][112][113] 

A prostatic dilating balloon is used to produce an anterior commissurotomy that separates the lateral lobes of the prostate while simultaneously delivering paclitaxel to the prostatic urethra. A prostatic dilation balloon coated with paclitaxel provides uniform, concentric drug delivery to the surrounding prostatic urethral tissue when the balloon is inflated.[114] The paclitaxel prevents new tissue growth and promotes healing with an open urinary passage through the prostatic urethra, allowing normal voiding.[114][115]

Previous balloon dilation treatments of the prostate did not maintain efficacy, but studies indicate that the paclitaxel-coated prostatic balloon dilation treatment retains symptomatic BPH improvement for at least 1 and as long as 4 years.[114][115][116][117][118][119] The mean IPSS score dropped from a pretreatment baseline of 22.3 to 11.5 at 4 years, indicating sustained, long-term symptomatic improvement.[115]

The average peak urinary flow rate improved by 119%, from 8.9 mL/s before treatment to 19 mL/s measured a year after the procedure.[114] Advantages of paclitaxel-coated balloon dilation therapy include no reported ED or change in ejaculation, and the symptomatic benefits are noticeable within days of the procedure.[114] Also, the procedure does not involve prostatic incisions or resection, thermal ablation, microwave therapy, tissue burning, vaporization, cutting, steam injection, radiation, or implants.

Prostatic urethra internal lateral suturing (prostatic urethral lift) involves compressing the coapting and obstructing prostate lobes laterally. This allows the urinary channel to be substantially widened without cutting or resectioning the prostate while leaving the bladder neck intact. This preserves ejaculation and sexual function while still improving LUTS. Studies have shown preserved sexual function, improved symptom scores (IPSS, AUA), and higher peak urinary flow rates (QMax), but proper patient selection is important.[120] Peak flow rates typically improve by 30%.

Improvement in urinary symptoms occurs very quickly, typically within a few days to weeks. The procedure is suitable for patients with prostate sizes 30 cc to 80 cc. It is unsuitable for patients with a significantly enlarged median lobe, especially if there is a large intravesical component, as the treatment is performed only on the obstructing lateral lobes. Transurethral resection, electrovaporization, or laser vaporization of the median lobe can be performed, but that changes the procedure's minimally invasive nature. The overall success rate is about 85%.

Water vapor thermal infusion is primarily an office-based procedure designed for prostates 30 cc to 80 cc in size. Minimal anesthesia is required, making it suitable for frail patients unable to tolerate a full anesthetic.[121] Steam is injected directly into the prostate under cystoscopic guidance during the procedure through a retractable transurethral needle in 9-second bursts. A microwave generator produces the steam. Unlike direct microwave therapy, there is limited tissue penetration as the heat transfer is convection-controlled and very localized. Peak flow rates improved by 6 mL/s.[122] Sexual function and ejaculation were unaffected since the bladder neck area was untreated.[123] 

The treatment diminishes the prostate size by about 30% over time, and this reduction is localized to the obstructing lobes[124]. Unlike prostatic lift procedures, water vapor thermal infusion can also treat median lobe enlargement. Overall, it is considered safe and effective for most patients with BPH.[125][126] Efficacy is similar to prostatic urethral lift procedures, but water vapor infusion is considerably less costly.[127] However, it takes longer to perform and requires more time until peak efficacy is achieved, typically about 3 months.  

A recent study found efficacy in selected patients with prostates larger than 80 mL. In this study, the IPSS score improved by 70%, and peak urinary flow increased by 59% after 12 months without adversely affecting sexual performance.[128]

Transurethral microwave thermotherapy is an outpatient procedure to treat BPH that uses a microwave antenna inserted transurethrally into the prostatic urethra to treat obstructing tissue. This causes heat necrosis of the obstructive tissue, which is then slowly reabsorbed over time, resulting in an open prostatic passage and normalized voiding. It is generally considered a safe procedure with relatively few side effects but is done blindly without direct cystoscopic observation.[129] Transurethral microwave thermotherapy (TUMT) requires specialized equipment, and results have sometimes been spotty with relatively high retreatment rates.[129] It is most suitable for men with significant comorbidities, making more invasive surgical options unacceptable.

Selective prostatic artery embolization can be effective for controlling otherwise intractable prostatic bleeding. Incidentally, it has also been found to shrink prostatic enlargement from BPH. The procedure is technically demanding and requires a skilled interventional radiologist to perform. Efficacy appears reasonable, if not quite equivalent to standard BPH surgery. It is intended mainly for patients too frail or ill for other surgical procedures.[130][131][132][133][134] Prostatic artery embolization for BPH is still considered investigational.[57]

Experimental Treatments and Other Procedures No Longer Available or Recommended: 

• Due to unpredictable and unreliable results, transurethral needle ablation (TUNA) is no longer recommended by the 2021 AUA Guidelines on Management of BPH/LUTS.

• Indigo laser prostatic thermotherapy, which uses a diffusing laser fiber inserted directly into the obstructing prostatic lobes under direct vision via cystoscopy, is no longer available. While effective, considerable operator skill and experience were needed for optimal results. Also, the special laser fibers required had a limited number of built-in treatment activations and were quite costly.

• Prostatic balloon dilation using a spherical balloon is another minimally invasive procedure that initially produced promising results, which has also now been discredited and is no longer used or recommended.[118][119] The treatment was found to primarily rupture the prostatic capsule rather than permanently treat the tissue of the obstructing lobes. When the ruptured capsule healed, symptoms returned as the prostate grew. 

• Recently, the use of a columnar balloon for prostatic dilation has been investigated, and early results appear promising.[135][136][137]

• High-intensity focused ultrasound can reliably ablate prostatic tissue. Like water vapor thermal infusion, it takes some time to be fully effective and for the ablated tissue to be reabsorbed. It is still considered investigational at this time.

Differential Diagnosis

Differential diagnoses for LUTS are broad and include the following:

• Atonic or decompensated bladders
• Bladder neck strictures
• Bladder or prostate cancer
• Bladder overactivity
• Cauda equina syndrome or neurogenic bladder (can present with acute retention)
• High-pressure chronic retention (presentation can be insidious or with acute renal failure)
• Hydronephrosis
• Neurogenic bladder (can be secondary to Parkinson's, multiple sclerosis, diabetes, etc)
• Penile cancer
• Phimosis
• Prostate cancer
• Prostatitis
• Renal failure
• Sexually transmitted diseases
• Spinal disorders
• Urethral strictures
• Urinary retention
• UTIs
• Urinary tract stones (bladder stones)

Prognosis

Deterioration in LUTS with increasingly problematic voiding symptoms is the most common indicator of BPH disease progression. Patients may also present with complications, including urinary retention, infections, or hematuria.

Observational studies have demonstrated that when left without treatment, clinical progression of BPH increased over 48 months, with 31% of the cohort requiring further treatment and 5% developing acute retention in the same period.[74]

The risk of acute urinary retention increases with age. In an Olmsted County, Minnesota study, the incidence of retention in men increased over 10-fold, from 3 per 1000 (40 to 49 years) to 34.7 per 1000 (70 to 79 years).[138] Left untreated, BPH has a significant risk of progression. Men with significantly enlarged prostates (>30 gm) are at increased risk of disease progression.[139] In another study, up to 42% of men who presented with urinary retention went on to have surgery.[140]

The 5 alpha-reductase inhibitors have been shown to reduce the incidence of urinary retention and delay the need for surgery, while alpha-blockers have not.

Complications

Common Complications

• Acute urinary retention
• Bladder calculi
• Chronic urinary retention
• Decompensated bladder
• Detrusor hypotonicity
• Elevated PSA unrelated to prostate cancer
• Hematuria
• Hydronephrosis
• Incomplete bladder emptying
• Renal failure
• Suprapubic distension or discomfort
• UTIs (due to incomplete emptying)
• Weak or intermittent urinary stream

Other complications may arise as a result of catheterization for the management of LUTS in BPH and include the following:

• Failed trial without catheter
• Long-term catheter complications (blocked catheters, retention, hematuria, UTIs)

Urinary Tract Infections

This complication occurs due to incomplete bladder emptying, resulting in stagnant urine, which promotes infections and stone formation. Recurrent infections may indicate a need for additional treatment to prevent associated comorbidities and complications.

Hematuria

This complication is common in BPH patients and a frequent cause for a urological referral for further investigation. Due to the increased vascularity of larger prostates, small superficial vessels may be disrupted, causing bleeding.[71] Finasteride has been shown to decrease the density of vessels and can help manage problematic BPH-related hematuria.[141]

Deterrence and Patient Education

Lifestyle factors such as weight loss and improved diabetic control should be explained to the patient to allow modifiable risk factors to be addressed. This may also help reduce the risk of future BPH surgery. Lifestyle measures such as reducing caffeine and optimizing the timing of fluid intake can also be used to address specific problematic urinary symptoms. For example, if the patient takes furosemide, administering the medication 6 to 8 hours before bedtime helps reduce nocturia.[50]

Patients managed with long-term catheters or intermittent self-catheterization should be taught the importance of hygiene and catheter care to prevent UTIs. This may be done with the assistance of dedicated specialist nurses. The provision for managing the catheter in the community should also be made.

Patients with BPH should understand the risks of disease progression before committing to treatment options and should be counseled on alternative management, such as watchful waiting, medical therapy, and any other surgeries available to make an informed decision.

Pearls and Other Issues

• The evaluation of BPH starts with a urinalysis, a PSA test, a DRE, a symptom score (IPSS or AUA), and a PVR.

• A 24-hour voiding diary can be helpful if the patient has significant frequency or nocturia.

• Asymmetry on a DRE should be considered possibly suspicious for prostate cancer.

• Bladder scanners are extremely useful in evaluating BPH, abdominal pain, suprapubic fullness, incontinence, and various voiding disorders, even in primary care clinics.

• Noninvasive testing (bladder scan for postvoid residual determinations and flowmetry), along with a PSA test and DRE, are usually sufficient to diagnose and treat symptomatic BPH medically.

• A bladder scan is recommended for all primary care offices to allow for noninvasive testing of postvoid residual urine volumes in all males older than 50 years with urinary symptoms.

• A renal ultrasound is strongly recommended in patients with BPH and unexplained renal failure or urinary retention.

• Persistent hydronephrosis after adequate urinary drainage with a catheter suggests possible prostate cancer.

• When treating patients with alpha-blockers for acute retention, use a maximum dose and allow at least 72 hours before any voiding trial. (The dosage can always be reduced later.)

• Medications for BPH treatment typically require at least 4 weeks or longer for evaluation. Five alpha-reductase inhibitors require 6 months to achieve full effectiveness.

• Five alpha-reductase medications can be used to reduce prostatic bleeding regardless of any surgery.

• Before using anticholinergics or beta-agonists for overactive bladder symptoms, ensure that the urinary flow rate and PVR are acceptable.

• Patients choosing less invasive therapies should be informed that such treatments often have less symptomatic improvement than more aggressive surgeries.

• Although generally considered investigational, prostatic artery embolization can be performed for carefully selected patients, typically individuals who are too ill or frail for other procedures, if the technical expertise is available.

• Always ask your emergency room department to record the volume drained immediately after placing a Foley catheter for urinary retention, as this helps predict the rehabilitation time for the detrusor muscle.

• Do not clamp the Foley catheter or restrict drainage when a residual urine volume of 1500 mL or more is drained. Allow it to drain freely. Be aware of the possibility of postobstructive diuresis.

• If no option is available other than long-term catheter drainage, a suprapubic tube is generally preferred over a urethral Foley for patient comfort and reduced complications. 

Enhancing Healthcare Team Outcomes

Addressing BPH requires a multifaceted approach from physicians, advanced practitioners, nurses, pharmacists, physical therapists, and other health professionals. Clinicians caring for BPH patients must possess diagnostic skills to differentiate the severity of the condition and determine appropriate interventions. Developing a comprehensive strategy involves evidence-based decision-making, considering individual patient preferences. Professionals need strategic thinking to address BPH's varied clinical presentations, ensuring a tailored approach that aligns with patient needs and overall well-being. Competence in selecting and implementing medical or surgical treatments based on patient factors is crucial. 

Medical outcomes can be optimized through the use of IPSS or AUA scoring systems. These can help stratify patients according to symptom severity and guide decision-making. Adherence to lifestyle factors affecting BPH may also be addressed through dietary advice, weight loss, exercise, and improved glycemic control. Endocrinologists, nutritionists, and diabetic nurse specialists can help address these areas, and early referral to such experts is recommended. Optimizing these factors before surgery can also be beneficial in reducing the risk of comorbidities and postoperative complications.

Catheter care is important for patients performing intermittent self-catheterization due to symptoms or with long-term Foleys. This can be addressed by specialist nurses who can help educate the patient to ensure adequate training, support, and follow-up in the community. In the UK, the Department of Health advocates integrating continence services for those with long-term urinary problems.[142] Those involved in community catheter care and management should be aware of the indications for catheterization and hospital referrals; implementing a catheter passport can help with this.[143]

Pharmacists are particularly important due to the increasing incidence of BPH with age and the high rate of polypharmacy associated with geriatric patients. It is critically important that any drug interactions are promptly and properly identified. The use of concomitant anticoagulants should be recognized to ensure that they may be appropriately held before surgery or other invasive procedures offered to the patient.

Overall, close interplay is needed between primary care physicians, advanced care practitioners, urologists, nephrologists, nurses, pharmacists, and physical therapists to ensure patients are managed and referred appropriately. By honing skills, employing strategic decision-making, sharing responsibilities, fostering communication, and coordinating care effectively, the interprofessional team can contribute to patient-centered care, improved outcomes, patient safety, and enhanced team performance in BPH management.