• Highlights
• Introduction
• Symptoms
• Causes of Benign Prostatic Hyperplasia
• Causes of Lower Urinary Tract Symptoms
• Risk Factors
• Complications
• Diagnostic Tests
• Treatment
• Lifestyle Changes
• Medications
• Other Treatments
• Resources
• References

Benign prostatic hyperplasia

Description

An in-depth report on the causes, diagnosis, treatment, and prevention of BPH.

Alternative Names

Enlarged prostate

Other Treatments

Several surgical approaches are now available.

Invasive Procedures. The most effective surgical procedures, transurethral resection of the prostate (TURP) and open prostatectomy, are also the most invasive. They carry the highest risks for significant complications, including impotence and incontinence. Greater experience with TURP, however, has reduced complications and hospital stays. Because it is more effective than less invasive procedures, TURP remains the procedure of choice for many doctors. When considering invasive surgery, the patient should be sure his surgeon performs at least 50 of these procedures each year. The complication rates of the surgeon should be no higher than 1% for incontinence and 4% for impotence. Transurethral incision of the prostate (TUIP) is an alternative to TURP for men with smaller prostate glands.

Less Invasive Procedures. Minimally invasive procedures use some form of heat to destroy excess prostate tissue. The heat may be delivered by:

• Radio frequency. Transurethral needle ablation (TUNA)
• Microwave. Transurethral microwave thermotherapy (TUMT)
• Electrical current. Transurethral electrovaporization (TUVP)
• Ultrasound. High-intensity focus ultrasound (HIFU)
• Hot water. Water-induced thermotherapy (WIT)
• Laser. Interstitial laser coagulation (ILC) and holmium laser enucleation of the prostate (HoLEP)

One laser procedure, photoselective vaporization (PVP), is typically done as an outpatient procedure. The patient goes home on the same day. However, there is no long-term data for this procedure.

None of the other minimally invasive procedures have proven superior to TURP to date, but they vary by complications. Some may be appropriate for certain patients, such as the following:

• Younger men. (Many of the less invasive procedures carry a lower risk for impotence and incontinence than TURP, although the risk for TURP is not high.)
• Debilitated elderly patients.
• Patients with severe medical conditions, including uncontrolled diabetes, cirrhosis, active alcoholism, psychosis, and serious lung, kidney, or heart disease.
• Men who are on blood-thinning drugs.

Transurethral Resection of the Prostate (TURP)

Transurethral resection of the prostate (TURP) involves surgical removal of the inner portion of the prostate where BPH develops. It is the most common surgical procedure for BPH, although the number of procedures has dropped significantly over the past decades because of the availability of effective medications.

Procedure. TURP usually requires a 1 - 3 day hospital stay. The surgeon inserts a fiberoptic endoscope, which is a thin tube, into the urethra. No incision is needed. The surgeon uses the endoscope to cut away excess prostatic tissue, and water solutions are used to flush away the excised matter.

Risk of Water Intoxication. If the fluids used during TURP build up, water intoxication can develop, which can be serious. This condition is referred to as the transurethral resection (TUR) syndrome and includes abdominal cramps, nausea, vomiting, lethargy, and dizziness. Patients who undergo TURP for longer than 1 hour and those with larger prostate glands seem to be at greater risk for this complication. An irrigation system that uses a mechanical valve may reduce the risk.

Postoperative Catheterization. A Foley catheter generally remains in place for 3 - 5 days after surgery to allow urination. This device is a tube inserted through the opening of the penis to drain the urine into a bag. The catheter can cause bladder spasms that can be painful, but they eventually cease.

Some studies have suggested that in selected patients the catheter can safely be removed within 24 - 48 hours, allowing patients to go home earlier. Early catheter removal is not appropriate for patients with intense urine retention, signs of infection, bleeding, or other complications.

Recuperation. Urine flow is stronger almost immediately after most TURP procedures. After the catheter is removed, patients often experience some pain or sense of urgency as the urine passes over the surgical wound. These sensations gradually subside. Complete healing takes about 2 months. The following are some tips for hastening recovery and avoiding complications:

• During recuperation at home, the patient should avoid driving, operating heavy equipment, lifting, sudden movements, and straining the muscles in the lower tracts, such as during a bowel movement.
• Drinking 8 glasses of water a day after surgery is important to flush the bladder and help healing.
• Foods that help prevent constipation, such as fruits and vegetables, are important. A laxative may be needed if constipation occurs.
• Kegel exercises can help reduce incontinence. Daily performance of three to four sets of 30 contractions each is recommended. In one study, improvement from Kegel exercises was significant within a month after surgery.

Postoperative Complications. Complications after TURP can be high, depending on the skill of the surgeon and other factors, but their incidence has decreased considerably over the past decades because of advances in surgical technique and more widespread expertise.

• Bleeding. Some blood and small clots appear in the urine after surgery, and if the bladder is flushed with water, the urine may turn red. Such bleeding is normal. Occasionally, the scab on the surgical wound loosens, causing a sudden appearance of blood in the urine that can be alarming. Usually this stops after a rest, but the patient should notify the doctor at once if he is concerned about abnormal bleeding or clotting or has unusual feelings of discomfort. Rarely, hemorrhage may occur, requiring a transfusion.
• Infection. Urinary tract infections occur in 5 - 10% of TURP patients. The risk is particularly high if a catheter is required. Antibiotics may be given to prevent infections, although often a doctor will choose to monitor a patient and administer antibiotics only if an infection is evident.
• Incontinence. Temporary stress incontinence (urine leakage after activities such as sneezing, coughing, or lifting) occurs in most surgical patients. Urge incontinence is the involuntary loss of urine following an uncontrollable urge to urinate. About 2.1% of TURP patients experience stress incontinence, and nearly 2% have urge incontinence. In general, however, there is no significant risk for incontinence. [See In-Depth Report # 50: Urinary incontinence . ]
• Sexual Dysfunction. Some men report certain sexual differences after the procedure, particularly low volume of fluid at ejaculation. Studies, however, do not report any significant risk for impotence. For most men who report this complication, sexual function returns in short order. (In some men it may take up to a year for complete recovery.) If potency was diminished before the operation, the procedure will not restore it. [See In-Depth Report #15: Erectile dysfunction . ]
• Retrograde Ejaculation and Low Semen. Many TURP patients report a lower volume of semen after the procedure. Between 66 - 75% of these patients experience retrograde ejaculation, in which semen is forced backward into the bladder instead of forward out of the urethra during orgasm. During most invasive procedures, the muscle that blocks off the bladder may be cut in order to widen the outlet. In such cases, the semen flows back through the wider opening rather than out of the penis. This condition can impair fertility and is of particular concern in younger men. Neither retrograde ejaculation nor the operation itself typically affects orgasm, although it takes many men some time to emotionally adjust to these conditions.
• Low PSA Levels. PSA levels may be lowered after TURP, which might cause a doctor to miss a diagnosis of prostate cancer during routine screening.

Repeat Operations. Symptomatic relief is usually maintained for at least 15 years after surgery, but BPH may return or patients may need a second operation for other reasons. Up to 10% of TURP patients require a repeat operation within 10 years. In some cases, scarring in the bladder severe enough to cause obstruction occurs within a year of the procedure and may require transurethral incision (TUIP). More often, the urethra is scarred and narrows, but usually this condition can be corrected by a simple stretching procedure performed in the doctor's office.

Transurethral Incision of the Prostate (TUIP)

In transurethral incision of the prostate (TUIP), the surgeon makes only one or two incisions in the prostate, causing the bladder neck and the prostate to spring open and reduce pressure on the urethra.

Candidates. TUIP is generally used only for men with minimally enlarged prostates (30 grams or less) who have obstruction of the neck of the bladder. Some experts believe TUIP is not performed enough and could benefit many patients, particularly those with severe medical conditions who are not good candidates for more invasive surgeries and men who want to lessen their risk for sterility.

Postoperative Complications. TUIP is less invasive than TURP, has a lower rate of the same complications, particularly retrograde ejaculation, and usually does not require a hospital stay. More studies are still needed, however, to determine whether they are comparative in long-term effectiveness.

Open Prostatectomy

In open prostatectomy, the enlarged prostate is removed through an open incision in the abdomen using standard surgical techniques. This is major surgery and requires a hospital stay of several days. Open prostatectomy is used only for severe cases, about 2 - 3% of BPH patients, when the prostate is severely enlarged, the bladder is damaged, or other serious problems exist. Up to 14% of patients require a second operation because of scarring. In making a decision about prostatectomy, it is essential that the doctor explains the consequences of a diminished sexual capacity that occurs after this procedure. When the situation of the patient does not constitute an emergency, prostatectomy should be considered a last resort if the patient still has an active sex life. Other complications are similar to those of TURP.

Laser Surgery

Procedures. Laser technology is used for removal of prostate tissue. Laser procedures can usually be done as an outpatient procedure, and there is little risk for bleeding. Different procedures are used to provide different degrees of thermal cell destruction that range from coagulation to complete vaporization:

• Interstitial laser coagulation (ILC) involves insertion of a scope through the prostate. A fiberoptic tip is threaded through the scope to direct a diode laser emission to targeted areas of the prostate. The coagulated tissue is naturally absorbed back into the body. Approved in 1998, this procedure is being performed less frequently as urologists turn to newer laser technologies (HoLEP, PVP).
• Holmium laser enucleation of the prostate (HoLEP) is a newer technique that can actually cut and vaporize the tissue. Vaporization is effective immediately and also may pose lower risks for prolonged urinary retention and reoperation rates than coagulation. The Holmium laser is showing very good results with low complication rates in small studies, and trials have reported benefits lasting more than four years. (HoLEP is actually proving to be better than TURP or even open prostatectomy for removing very large prostate glands.)
• Photoselective vaporization of the prostate (PVP) uses a potassium-titanyl-phosphate (KTP) laser ("green-light" laser) to vaporize prostate tissue. The procedure is virtually bloodless and may be a better option for men taking anticoagulant medication. Results from several recent clinical trials report sustained improvement up to 1 year after the procedure. More studies are needed to confirm long-term efficacy.

Complications. The laser procedure carries a lower risk for incontinence than TURP or TUVP, another minimally invasive procedure. Studies have been mixed on whether laser surgery poses any risk for sexual dysfunction. In one study, TURP had a lower risk for sexual dysfunction, although the risk from either procedure was very low and it wasn't clear that lasers had even been responsible for this complication. After laser procedures, and especially after coagulation, the prostate often temporarily enlarged and caused obstruction and irritation. Sometimes these symptoms were severe. Most men require a temporary catheter to drain urine after laser procedures. Newer laser procedures may significantly reduce these adverse effects.

Thermotherapy and Other Less Invasive Procedures

The National Institutes of Health (NIH) formed a consortium of research centers to evaluate minimally invasive surgical therapies (MIST) for treatment of BPH. The first clinical trial, launched in August 2004, is comparing the benefits and risks of minimally invasive surgery to a combination drug regimen. Patients are randomly assigned to one of three treatment arms: transurethral microwave thermotherapy (TUMT), transurethral needle ablation (TUNA), or finasteride/alfuzosin drug therapy.

Transurethral Microwave Thermotherapy (TUMT). Transurethral microwave thermotherapy (TUMT) delivers heat using microwave pulses to destroy prostate tissue. Studies have found that between 60 - 80% of men respond favorably to the treatment and the benefits seem to last. A 2001 study reported that it remained effective for at least 18 months and was superior over the long-term to the alpha-blocker drug terazosin. Improvement is not as complete as with TURP, but TUMT has fewer complications.

• Candidates. TUMT may be beneficial for men with larger prostates and moderate to severe bladder obstruction, including those who require indwelling catheters. A 2000 study, for example, concluded that is was a safe and effective therapy for treatment of urinary retention. In general, the procedure should not be performed on men who have pacemakers, defibrillators, or any metal implants. One possible exception, the Targis System, was approved for use for patients with hip or penile implants that are located at least 1.5 inches from the urethra. Men who have had previous radiation therapy to the pelvic area are at higher risk for injuries from this procedure.
• Procedure. A microwave antenna is inserted through the urethra with ultrasound used to position it accurately. The antenna is enclosed in a cooling tube to protect the lining of the urethra. Computer-generated microwaves pulse through the antenna to heat and destroy prostate tissue. When the temperature becomes too high, the computer shuts down the heat and resumes treatment when a safe level has been reached. The procedure takes 30 minutes to 2 hours, and the patient can go home immediately afterward. About 30% of patients experience some pain during the procedure. The patient should report any pain that appears to be unusually severe, however, since this could indicate improper application.
• Complications. Swelling in the urinary tract often occurs later, which prevents urination and requires the use of a temporary catheter for about 3 days until the swelling subsides. There have also been reports of serious injuries to the penis and urethra from overheating due to improper application. It is important to note that TUMT does not significantly affect sexuality or cause incontinence or retrograde ejaculation, which are risks with some other prostate procedures.

Transurethral Needle Ablation. Transurethral needle ablation (TUNA) is a simple, safe, and relatively inexpensive procedure using needles to deliver high-frequency radio waves that heat and destroy prostate tissue. The procedure usually requires only a local anesthetic. One study reported that improvement was maintained in most patients after 2 years, although older men (over 70) had slightly worse symptoms and quality-of-life scores. Although small clinical studies have reported that TUNA is as effective as TURP, some experts believe that in actual medical practice TURP is still more effective.

Some studies have reported urinary retention, blood in the urine, retrograde ejaculation, and painful urination after the procedure, although in general TUNA has few or none of TURP's severe side effects. TUNA poses a very low to no risk for incontinence and impotence, and may be a good option for younger men.

Transurethral Electrovaporization. Transurethral electrovaporization (TUVP) uses high voltage electrical current delivered through a resectoscope to combine vaporization of prostate tissue and coagulation that seals the blood and lymph vessels around the area. Deprived of blood, the excess tissue dies and is sloughed off over time. Patients who have TUVP may be able to have their catheter removed within hours after the procedure compared to normal removal time of 3 - 5 days after TURP. A 5-year study reported that it was as effective as TURP over the long-term and had a similar complication rate.

Ultrasound. High-intensity focus ultrasound (HIFU) is a heat procedure under investigation that uses ultrasound to destroy specific prostate tissue. The principles are similar to transurethral microwave thermotherapy, but ultrasound techniques may destroy excess tissue without damaging other parts of the urethra.

Water-Induced Thermotherapy. A device called Thermoflex, which circulates heated water through a catheter to destroy prostatic tissue, has been approved for treating BPH. Another technique uses a balloon filled with hot water to destroy tissue around the urethra. Water-induced thermotherapy (WIT) does not require anesthesia and can be completed during a single outpatient visit.

Prostatic Stents

Prostatic stents used for BPH are flexible mesh tubes that are inserted into the urethra. They are made of special alloys that do not cause reactions in the body. Typically, the insertion procedure takes only 15 minutes and requires only regional anesthetic and mild sedation. It usually requires minimal recuperation and no overnight hospital stay. Unfortunately, long-term studies are reporting high rates of dissatisfaction. Between 8 - 37% of the stents need to be removed later because of poor placement or complications, including irritation when urinating, urinary tract infections, and treatment failure. At this point stents seem to be best suited for high-risk surgical patients and those with a limited life expectancy. Stents composed of new materials and properties may increase their role.

• Review Date: 6/26/2006
• Reviewed By: Harvey Simon, MD, Editor-in-Chief, Associate Professor of Medicine, Harvard Medical School; Physician, Massachusetts General Hospital

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