Epidemiology and Treatment Modalities for the Management of Benign Prostatic Hyperplasia

Soum D. Lokeshwar; Benjamin T. Harper; Eric Webb; Andre Jordan; Thomas A. Dykes; Durwood E. Neal Jr; Martha K. Terris; Zachary Klaassen

Disclosures

Transl Androl Urol. 2019;8(5):529-539. 

In This Article

Management

A middle aged or older man presenting with LUTS is often evaluated in the context of BPH contributing to these symptoms and is therefore treated on the presumption of BPH. The initial diagnostics, as stated above, for a man presenting with LUTS is to take a detailed history of the symptoms as well as to perform a comprehensive physical exam. Physical exam should also include a digital rectal exam to assess the size of the prostate. Laboratory tests should include a urinalysis to evaluate for bacteriuria, pyuria and hematuria.[24] Although previously recommended, the AUA guidelines specifically state that routine creatinine tests are not indicated for patients presenting with LUTS secondary to BPH.[1] While there is no obvious correlation between clinically significant prostate cancer and LUTS,[25,26] patients with certain risk factors such as family history of prostate cancer, African American race, or unexplained lower back pain should be spoken to about prostate cancer screening including a PSA. A patient's medications should also be listed and evaluated as many common medications such as diuretics, antidepressants, and others may contribute to LUTS.[27]

Once a patient has undergone diagnostic evaluation for his LUTS secondary to BPH, his symptomatology can be quantified by the International Prostate Symptom Scorer or the almost identical AUA-Symptom Index.[28] These scores are composed of self-administered questions that assess the severity of three symptom groups: frequency, nocturia and urgency. The aggregate score aids in primary treatment approach. Those patients with a score of ≤8 indicate mild symptoms and may choose observation,[29] which is also an option for those with moderate symptoms without impairment to overall quality of life. Observation involves patient education and the modification of risk factors that may increase LUTS secondary to BPH or lead to Acute Urinary Retention. Strategies to reduce risk and severity of BPH include, weight loss, increased physical activity, and a reduction in the consumption of caffeine and alcohol.[30] A change in a patient's voiding position may improve their urodynamic parameters.[31] Patients with symptom scores above 8 are considered to have moderate to severe symptoms and have several available treatment options. These treatment options vary in approach, invasiveness and outcomes.

Current Treatment Options

Medication Therapy. After lifestyle modifications, medication is generally first line in the treatment of symptomatic BPH.[32] Two drug classes became accepted standard of care in the late 1980s early 1990s; 5-alpha-reductase inhibitors such as finasteride and Alpha-blockers like terazosin.[33] Androgens play a significant role in prostate growth throughout a patient's life. Normal functioning of the prostate and other components of the male reproductive system, are dependent on the reduction of testosterone to dihydrotestosterone (DHT) by the enzyme 5-alpha reductase. 5-alpha reductase inhibitors block the conversion of testosterone to DHT and thus reduce the growth effects of androgens on the prostate.[34] Finasteride, a 5-alpha reductase inhibitor, was the first FDA approved medication for BPH and is commonly prescribed to patients for other conditions besides BPH such as androgenetic alopecia.[35] Finasteride works by inhibiting type II 5-alpha reductase, and reduces prostate volume and the symptoms associated with BPH.[36] As monotherapy, it has been found to reduce prostate volume by over 20%[37] and to reduce clinical symptomatic progression by 34%.[38] Similar to finasteride, dutasteride is a 5 alpha reductase inhibitor that inhibits both type I and type II 5 alpha reductase.[36] Although dutasteride has a greater inhibition of DHT (>90% compared to >70% for finasteride), both drugs have similar reductions in clinical symptoms.[39] In addition, both drugs have comparable side effect profiles with sexual side effects of impotence, decreased libido and ejaculatory dysfunction being the most common.[40]

Alpha-blockers are also utilized in the treatment of BPH and work by relaxing the smooth muscle of the prostate and bladder neck by inhibiting sympathetic activity.[41] Prazosin was the first selective alpha-1 blocker but has largely been replaced by FDA-approved longer acting alpha blockers. These include terazosin, doxazosin, tamsulosin and alfuzosin.[41] Alpha blockers offer a more rapid onset and efficacy in the first year than finasteride, however, only 5 alpha reductase inhibitors cause prostate regression and reduced risk of BPH complications over time.[42] Alpha-blockers also have side effects, including most commonly fatigue, dizziness, and hypotension.[41] A more selective alpha blocker Silodosin, however, an analysis of 19 unique studies with over 4,000 patients showed that the efficacy of silodosin was comparable to other alpha blockers currently in use.[43]

Although monotherapy, with alpha blockers and 5 alpha reductase inhibitors, is beneficial, the combination of these drugs is highly effective. One study found that men with BPH had a 34% clinical risk reduction on finasteride (P=0.002), a 39% clinical risk reduction on doxazosin (P<0.001) and a 66% clinical risk reduction with combination therapy (P<0.001).[38] Additionally, combination therapy was found to reduce BPH-related symptoms more successfully than either drug alone.[44]

Patient's with BPH may also experience concomitant overactive bladder symptoms or may develop symptoms similar to overactive bladder due to BPH treatment. In addition to Alpha-blockers and 5-alpha reductase inhibitors, a few studies have shown the benefit of anti-muscarinics and beta-3 adrenergic agonists in improving storage symptoms in patients experiencing overactive bladder symptomology.[45,46]

Surgical Management. The interventional management of BPH is another option for patients who are suitable for surgical procedure and is generally offered to patients with persistent or severe BPH refractory to medical therapy. While surgery may be viewed as more expensive in the short term, the out of pocket cost of 5 years of continuous medication has been shown to exceed the costs of early surgery (mean 'out-of-pocket' cost of medical treatment versus surgical treatment was $1,742 and $1,436 respectively P=0.005).[47] Additionally, some experts believe BPH has become more of a chronic condition causing long term economic burden due to the proportional increase in BPH cases managed by medical therapy alone.[48] Highlighted here are some of the available surgical interventions for BPH.

Transurethral Resection of the Prostate (TURP). TURP has long been considered the historical gold standard for the surgical treatment of BPH.[49] TURP at one point was the second most commonly performed operation in the United States.[50] The conventional monopolar TURP has been in use for several decades and has been extensively studied for its morbidity and mortality.[51] A study of 10,654 patients investigated outcomes after monopolar TURP operations and found a cumulative short-term morbidity rate of 11.1%, of which 1.4% was due to Transurethral resection (TUR) syndrome[52]—water intoxication from the irrigation solution causing hyponatremia and other acid-base imbalances in the body.[53] TUR syndrome along with side effects from surgery, led to the introduction of bipolar TURP in the late 1990s. Unlike monopolar TURP, bipolar TURP allows for the utilization of isotonic irrigation solutions and reduces the risk of electrolyte imbalances including TUR syndrome.[54] The differences in outcomes and efficacy of bipolar versus monopolar TURP have been studied with mixed results. One study found that bipolar resection with 0.9% NaCl had minimal effects on serum sodium when compared with monopolar resection.[55] A systematic review and meta-analysis of 16 RCTs (1,406 patients) found no clinical differences in the short-term efficacy of either TURP but concluded bipolar TURP is more preferable due to its reduced side effect profile.[56] Furthermore, other studies also stress the clinical equivalency between monopolar and bipolar TURP.[57] Both types of TURP procedures cause a large proportion of patients to experience retrograde ejaculation.[58] In 1999, TURP represented 81% of all surgical treatment for BPH but by 2005, this number fell to 39% of all BPH procedures.[59] This is due to the introduction of newer procedures in recent years.

Holmium Laser Enucleation of the Prostate (HoLEP). The holmium laser is a pulsed laser, utilizing a solid medium that combines both carbon dioxide and neodymium:YAG lasers to deliver simultaneous tissue cutting and cauterization. The wavelength can also be transmitted down an optical fiber and has a thermal injury zone of 0.5 to 1 mm, making it suitable for endoscopic urologic surgery.[60] HoLEP was first reported in 1996 as a viable technique for the management of BPH.[61]

Many studies have compared HoLEP to TURP. A systematic review and meta-analysis compared the efficacy and safety of Bipolar TURP to HoLEP. Four trials, including three RCTs, were assessed and the analysis concluded that both techniques were safe with similar symptomatic relief for patients.[62] A Brazilian institution compared their outcomes from HoLEP with TURP and reported that HoLEP was as effective as TURP in terms of patient outcomes and operative time.[63] A Canadian RCT compared HoLEP to TURP in 80 patients. The study reported that HoLEP patients had shorter catheterization times and hospital stays and had greater symptomatic improvement than in patients treated with TURP.[64] Another RCT compared HoLEP to TURP in the treatment of prostates larger than 40 grams.[65] The study found that HoLEP had less perioperative morbidity and superior urodynamic outcomes, and at 24-month follow-up, HoLEP was equivalent to TURP. However, HoLEP is not devoid of its own side effect profile. HoLEP has been associated with higher rates of early postoperative urgency urinary incontinence compared to TURP (44% versus 38.6% respectively).[66] HoLEP, similar to TURP, also has high rates of post-operative retrograde ejaculation.[67]

HoLEP has been described as the emerging gold standard for BPH surgical management in the twenty-first century however the implementation of this surgical technique faces the obstacle of a steep learning curve.[68,69] Today, with many institutions having at least 10 years of training and experience with HoLEP, the procedure appears to be a viable and effective treatment for BPH.[70] However, the difficulty of performing HoLEP still bars its use in many smaller or referral centers.

Greenlight. Greenlight is a commercially marketed and manufactured high-powered potassium-titanyl-phosphate (KTP) 532-nm wavelength photo selective vaporization system. Greenlight laser energy is considered photo selective because it transmits fully through aqueous irrigant but is absorbed by tissue with a high oxyhemoglobin content, such as prostatic tissue.[71] The original 80 watt (W) laser was improved to the 120-W laser and currently a 180-W laser is also available.[72] The employment of these higher powered and more efficient lasers depends on physician experience.[73] Although experience and practice are required for its effective use, Greenlight, especially at lower power, has been reported to have a smaller learning curve than that of HoLEP.[74] Additionally, Greenlight and HoLEP have been shown to have comparable efficacies and outcomes.[75,76]

Multiple institutions have compared Greenlight to the benchmark standard, TURP. One RCT with 220 subjects reported that when compared to TURP, Greenlight had similar International Prostate Symptom Score (IPSS) and peak flow improvement but had better clinical outcomes in terms of recovery experience and endpoints.[77] Greenlight has also been shown to have lower bleeding complication rates when compared to TURP.[78] RCTs are currently being designed to further study the use of Greenlight in those patients taking anticoagulants.[79] A multicenter RCT reported that Greenlight 120-W had comparable uroflowmetry parameters and complications with TURP but had significantly lower length hospital stays for patients.[80] With comparable outcomes and effectiveness to that of TURP highlighted in multiple studies, the main benefit of Greenlight appears to be the reduction in the length of hospital stay.[81–83] The economic advantage of this reduced length of hospital stay was further exemplified in a cost analysis performed in Greece comparing Greenlight to TURP.[84] This study reported that, the average cost (including the cost of equipment, anesthesia, medications, consumables, inpatient hospitalization and complication management within 1 year of operation) was $2,371 for Greenlight and $2,935 for TURP. Similarly, a cost analysis in Canada was performed comparing Greenlight to TURP and bipolar TURP. With a cohort of 202 patients, the study reported a mean per-patient cost for all cases (including both the day of surgery and inpatient cases) to be $3,836 for Greenlight, $4,978 for bipolar TURP and $4,963 for TURP.[85]

Thulium Laser Therapy. In contrast to the pulsed holmium laser, the thulium laser utilizes a rare elemental metal, thulium, to provide a continuous wave laser that produces a clean and fast cut-through vaporization. A multitude of techniques using the thulium laser have been described for BPH including ablation, enucleation and resection.[86] The thulium laser was first investigated for its benefit over the holmium laser in canine prostatic tissue in 2005 where it was concluded that the thulium fiber laser may be potentially advantageous due to its ability for pulsed waves, smaller size and more efficient operation than that of the holmium laser.[87]

Several studies have compared the thulium laser to TURP for BPH management. An RCT of 106 patients compared thulium laser enucleation of the prostate (TmLEP) to TURP and found that in a 3-month observation the two procedures were comparable in terms of safety and efficiency.[88] A systematic review and meta-analysis assessing seven trials comparing the efficacy and safety of the thulium laser versus TURP, reported that the two procedures had similar efficacy in symptom scores. It noted that thulium laser prostatectomy had the advantage in amount of required blood transfusions, serum sodium decreases, catheterization time and hospital stay while TURP was shorter in terms of operative time.[89]

Thulium has also been compared to other laser-based modalities. In comparison to Greenlight laser 120-W, thulium laser was equivalent in terms of complications, patient reoperations and PSA levels a year after surgery.[90] Thulium vapoenucleation of the prostate (ThuVEP) was compared to HoLEP in an RCT of 94 patients. The study found that the procedures had low perioperative morbidity and were equivalent and satisfactory for immediate micturition improvement.[91]

Current research supports that each laser modality is on par or superior to the standard TURP. The main drawback of these laser modalities is the learning curve involved in their use and outcomes dependent on physician expertise.

Prostatic Urethral Lift (PUL). With its FDA approval for the use as a BPH treatment modality in 2013, PUL has been increasing in popularity amongst clinicians.[92] The procedure is a minimally invasive surgery that involves placing mechanical implants through the urethra, which retract the obstructing prostatic lobes and hold them in place away from the prostatic urethra.[93] Patient selection for the procedure involves extensive exclusion criteria including patients with a history of urinary retention, those with prostates larger than 100 mL, those who have had previous pelvic surgeries or those with obstructive median lobes.[94]

A systematic review and meta-analysis evaluated the outcomes of PUL. The analysis comprised 10 trials covering an estimated 650 patients. The evidence showed overall symptom improvement (IPSS difference of −7.2 to −8.7 points) and preservation of sexual health (standardized mean gain range of 0.3 to 0.4) in patients during the first 12 months of follow-up.[95] An RCT compared PUL to a sham procedure to investigate sexual function in the 3- and 12-month follow-up. The trial reported that there was no evidence of ejaculatory dysfunction following the procedure and that SHIM (Sexual health inventory for men) scores were significantly improved from baseline at the 12-month follow-up (P=0.016). In particular, the Ejaculatory-bother score was improved by 40% from baseline[96] in patients who underwent the procedure. PUL may be ideal in younger patients or any patient, who meets criteria, wishing to preserve sexual functioning.

PUL has also been compared to the benchmark standard TURP. A multicenter randomized study of 80 patients compared the two-year follow-up outcomes of patients receiving TURP versus those receiving PUL. The study reported that TURP was superior to PUL in IPSS and maximum urinary flow rate (Qmax) improvements but that PUL was superior in recovery quality, ejaculatory functional preservation and performance on the BPH6 index.[97]

In summary, the main advantages of PUL are its preservation of sexual function, minor complication profile and ability to be performed under local anesthesia.[98] The main drawbacks of PUL are its highly selective patient inclusion criteria and its reoperation rate of 1.4–16%.[99]

Future Therapies

Within the past decade, a multitude of novel treatment modalities have emerged for the treatment of BPH. These newer therapies share a similar goal in optimizing quality of life while maintaining or improving efficacy from current therapies. On the medical side of treatment, novel drug therapies are being investigated. Intraprostatic injections are also being investigated including, botulinum neurotoxin A (BoNT-A), NX-1207 and PRX302.[100] BoNT-A has shown efficacy by its downregulation of alpha 1a receptors thereby causing a reduction in contractility. This reduction in contractility is two-fold, reducing obstruction by elevated smooth muscle tone and reducing obstruction by the prostatic mass itself. NX-1207 causes atrophy of the prostate by inducing prostatic apoptosis. PRX302 contains a pore forming toxin which causes prostatic involution. These injectable medications must be further investigated in clinical trials for efficacy and side effect profile.[101] Prostate artery embolization has shown promising results and may be a viable treatment pending long term follow-up data.[102] In comparison to TURP, one study reported lower improvements in functional outcomes for PAE patients but fewer complications in a 12-week period.[103] From the surgical standpoint, minimally invasive prostate convective water vapor ablation or steam therapy has been found to deliver improvements in BPH with preservation of ejaculatory function.[104] Three-year outcomes for Rezūm, convective radiofrequency water vapor thermal therapy, were promising with large IPSS improvements and consistent symptomatic relief.[105] Rezūm is also associated with benefits including expedited recovery time however the procedure requires catheterization for a few days after surgery and benefits are not fully realized until a few months post-operatively. Finally, robot-assisted prostatectomy for BPH has also increased in popularity in recent years.[106] Robot-assisted simple prostatectomy has also been shown to have shorter hospital stay and a lower morbidity profile when compared to open simple prostatectomy.[107]

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