Transurethral Resection of the Prostate

views updated May 21 2018

Transurethral resection of the prostate

Definition

Transurethral resection of the prostate (TURP) is a surgical procedure by which portions of the prostate gland are removed through the urethra.


Purpose

The prostate is a gland that is part of the male reproductive system. It consists of three lobes, and surrounds the neck of the bladder and urethra (tube that channels urine from the bladder to the outside through the tip of the penis). The prostate weighs approximately one ounce (28 g), and is walnut-shaped. It is partly muscular and partly glandular, with ducts opening into the urethra. It secretes an antigen called prostate-specific antigen (PSA), and a slightly alkaline fluid that forms part of the seminal fluid (semen) that carries sperm.

A common prostate disorder is called benign prostatic hyperplasia (BPH) or benign prostatic enlargement (BPE). BPH is due to hormonal changes in the prostate, and is characterized by the enlargement or overgrowth of the gland as a result of an increase in the number of its constituent cells. BPH can raise PSA levels two to three times higher than normal. Men with increased PSA levels have a higher chance of developing prostate cancer. BPH usually affects the innermost part of the prostate first, and enlargement frequently results in a gradual squeezing of the urethra at the point where it runs through the prostate. The squeezing sometimes causes urinary problems, such as difficulty urinating. BPH may progress to the point of generating a dense capsule that blocks the flow of urine from the bladder, resulting in the inability to completely empty the bladder. Eventually, this could lead to bladder and kidney malfunction.

Transurethral resection of the prostate (TURP) is the treatment of choice for BPH, and the most common surgery performed for the condition. "Transurethral" refers to the procedure being performed through the urethra. "Resection " refers to surgical removal.


Demographics

Prostate disease usually occurs in men over age 40. BPH eventually develops in approximately 80% of all men. Prostate cancer occurs in one out of 10 men. In the United States, more than 30,000 men die of prostate cancer each year.


Description

TURP is a type of transurethral surgery that does not involve an external incision. The surgeon reaches the prostate by inserting an instrument through the urethra. In addition to TURP, two other types of transurethral surgery are commonly performed, transurethral incision of the prostate (TUIP), and transurethral laser incision of the prostate (TULIP). The TUIP procedure widens the urethra by making small cuts in the bladder neck (where the urethra and bladder meet), and in the prostate gland itself. In TULIP, a laser beam directed through the urethra melts the tissue.

The actual TURP procedure is simple. It is performed under general or local anesthesia. After an IV is inserted, the surgeon first examines the patient with a cystoscope, an instrument that allows him or her to see inside the bladder. The surgeon then inserts a device up the urethra via the penis opening, and removes the excess capsule material that has been restricting the flow of urine. The density of the normal prostate differs from that of the restricting capsule, making it relatively easy for the surgeon to tell exactly how much to remove. After excising the capsule material, the surgeon inserts a catheter into the bladder through the urethra for the subsequent withdrawal of urine.


Diagnosis/Preparation

BPH symptoms include:

  • increase in urination frequency, and the need to urinate during the night
  • difficulty starting urine flow
  • a slow, interrupted flow and dribbling after urinating
  • sudden, strong urges to pass urine
  • a sensation that the bladder is not completely empty
  • pain or burning during urination

In evaluating the prostate gland for BPH, the physician usually performs a complete physical examination as well as the following procedures:

  • Digital rectal examination (DRE). Recommended annually for men over the age of 50, the DRE is an examination performed by a physician who feels the prostate through the wall of the rectum. Hard or lumpy areas may indicate the presence of cancer.
  • Prostate-specific antigen (PSA) test. Also recommended annually for men over the age of 50, the PSA test measures the levels of prostate-specific antigen secreted by the prostate. It is normal to observe small quantities of PSA in the blood. PSA levels vary with age, and tend to increase gradually in men over age 60. They also tend to rise as a result of infection (prostatitis), BPH, or cancer.

If the results of the DRE and PSA tests are indicative of a significant prostate disorder, the examining

physician usually refers the patient to a urologist, a physician who specializes in diseases of the urinary tract and male reproductive system. The urologist performs additional tests, including blood and urine studies, to establish a diagnosis.

To prepare for TURP, patients should:

  • Select an experienced TURP surgeon to perform the procedure.
  • Purchase a mild natural bulk-forming laxative.
  • Wear loose clothing on the morning of surgery.
  • Ask friends or family to be available for assistance after surgery.
  • Schedule a week off from work.
  • Get sufficient sleep on the night before surgery.

Aftercare

When the patient awakens in the recovery room after the procedure, he already has a catheter in his penis, and is receiving pain medication via the IV line inserted prior to surgery.

The initial recovery period lasts approximately one week, and includes some pain and discomfort from the urinary catheter. Spastic convulsions of the bladder and prostate are expected as they respond to the surgical changes. The following medications are commonly prescribed after TURP:

  • B&O suppository (Belladonna and Opium). This medication has the dual purpose of providing pain relief and reducing the ureteral and bladder spasms that follow TURP surgery. It is a strong medication that must be used only as prescribed.
  • Bulk-forming laxative. Because of the surgical trauma and large quantities of liquids that patients are required to drink, they may need some form of laxative to promote normal bowel movements.
  • Detrol. This pain reliever is not as strong as B&O. There may be wide variations in its effectiveness and the patient's response. It also controls involuntary bladder contractions.
  • Macrobid. This antibiotic helps prevent urinary tract infections.
  • Pyridium. This medication offers symptomatic relief from pain, burning, urgency, frequency, and other urinary tract discomfort.

When discharged from the hospital, patients are advised to:

  • Refrain from alcoholic beverages.
  • Avoid sexual activities for a few weeks.
  • Avoid driving a car for a week or more.
  • Keep domestic activities to a minimum.
  • Avoid weight lifting or strenuous exercise.
  • Check their temperature and report any fever to the physician.
  • Practice good hygiene, especially of the hands and penis.
  • Drink plenty of liquids.

Risks

Serious complications are less common for prostate surgery patients because of advances in operative methods. Nerve-sparing surgical procedures help prevent permanent injury to the nerves that control erection, as well as injury to the opening of the bladder. However, there are risks associated with prostate surgery. The first is the possible development of incontinence, the inability to control urination, which may result in urine leakage or dribbling, especially just after surgery. Normal control usually returns within several weeks or months after surgery, but some patients have become permanently incontinent. There is also a risk of impotence, the inability to achieve penile erection. For a month or so after surgery, most men are not able to become erect. Eventually, approximately 4060% of men will be able to have an erection sufficient for sexual intercourse. They no longer ejaculate semen because removal of the prostate gland prevents that process. This effect is related to many factors, such as overall health and age. Other risks associated with TURP include:

  • blood loss requiring transfusion
  • postoperative urinary tract infection
  • unsatisfactory long-term outcome

TURP syndrome effects 26% of TURP patients. Symptoms may include temporary blindness due to irrigation fluid entering the bloodstream. On very rare occasions, this can lead to seizures, coma, and even death. The syndrome may also include toxic shock due to bacteria entering the bloodstream, as well as internal hemorrhage.


Normal results

TURP patients usually notice urine flow improvement as soon as the catheter is removed. Other improvements depend on the condition of the patient's prostate before TURP, his age, and overall health status. Patients are told to expect the persistance of some pre-surgery symptoms. In fact, some new symptoms may appear following TURP, such as occasional blood and tissue in the urine, bladder spasms, pain when urinating, and difficulty judging when to urinate. TURP represents a major adaptation for the body, and healing requires some time. Full recovery may take up to one year. Patients are almost always satisfied with their TURP outcome, and the adaptation to new symptoms is offset by the disappearance of previous problems. For example, most patients no longer have to take daily prostate medication, and quickly learn to gradually increase the time between urinating while enjoying uninterrupted and more restful sleep at night.

Normal post-operative symptoms include:

  • urination at night and reduced flow
  • mild burning and stinging sensation while urinating
  • reduced semen at ejaculation
  • bladder control problems
  • mild bladder spams
  • fatigue
  • urination linked to bowel movements

To eliminate these symptoms, patients are advised to:

  • Exercise.
  • Retrain their bladder
  • Take all medications that were prescribed after TURP
  • Inform themselves via support groups or pertinent reading
  • Get plenty of rest to facilitate the post-surgery healing process

Morbidity and mortality rates

TURP reduces symptoms in 88% of BPH patients. TURP mortality rates are 0.2%, but they can be as high as 10% in patients over 80 years of age. Following surgery, inadequate relief of BPH symptoms occurs in 2025% of patients, and 1520% require another operation within 10 years. Urinary incontinence affects 24%, and 510% of TURP patients become impotent.


Alternatives

Conventional surgical alternatives for BPH patients include:

  • Interstitial laser coagulation. In this procedure, a laser beam inserted in the urethra via a catheter heats and destroys the extra prostate capsule tissue.
  • Transurethral needle ablation (TUNA). This technique was approved by the FDA in 1996. It uses radio waves to heat and destroy the enlarged prostate through needles positioned in the gland. It is generally less effective than TURP for reducing symptoms and increasing urine flow.
  • Transurethral electrovaporization. This procedure is a modified version of TURP, and uses a device that produces electronic waves to vaporize the enlarged prostate.
  • Photoselective vaporization of the prostate (PVP). This procedure uses a strong laser beam to vaporize the tissue in a 2050 minute outpatient operation.
  • Transurethral incision of the prostate (TUIP). In this procedure, a small incision is made in the bladder, followed by a few cuts into the sphincter muscle to release some of the tension.
  • Transurethral microwave thermotherapy (TUMT). TUMT uses microwave heat energy to shrink the enlarged prostate through a probe inserted into the penis to the level of the prostate. This outpatient procedure takes about one hour. The patient can go home the same day, and is able to resume normal activities within a day or two. TUMT does not lead to immediate improvement, and it usually takes up to four weeks for urinary problems to completely resolve.
  • Water-induced thermotherapy (WIT). WIT is administered via a closed-loop catheter system, through which heated water is maintained at a constant temperature. WIT is usually performed using only a local anesthetic gel to anesthetize the penis, and is very well tolerated. The procedure is FDA approved.
  • Balloon dilation. In this procedure, a balloon is inserted in the urethra up to where the restriction occurs. At that point, the balloon expands to push out the prostate tissue and widen the urinary path. Improvements with this technique may only last a few years.

BPH patients have experienced improved prostate health from the following:

  • Zinc supplements. This mineral plays an important role in prostate health because it decreases prolactin secretion and protects against heavy metals such as cadmium. Both prolactin and cadmium have been associated with BPH.
  • Saw palmetto. Saw palmetto has long been used by Native Americans to treat urinary tract disturbances without causing impotence. It shows no significant side effects. A number of recent European clinical studies have also shown that fat soluble extracts of the berry help increase urinary flow and relieve other urinary problems resulting from BPH.
  • Garlic. Garlic is believed to contribute to overall body and prostate health.
  • Pumpkin seed oil. This oil contains high levels of zinc and has been shown to help most prostate disorders. Eating raw pumpkin seeds each day has long been a folk remedy for urinary problems, but German health authorities have recently recognized pumpkin seeds as a legitimate BPH treatment.
  • Pygeum bark. The bark of the Pygeum africanus tree has been used in Europe since early times in the treatment of urinary problems. In France, 81% of BPH prescriptions are for Pygeum bark extract.

Recent developments in BPH treatment options include:

  • The Urologix Targis tm System. This is a microwave device that uses the same heating method as TUMT. The procedure takes about an hour, and requires no anesthesia. The urologist inserts a flexible tube into the penis. This tube contains a unique microwave antenna that is able to generate very localized hot spots while cooling the surrounding areas. Diseased prostate tissue is destroyed with very little discomfort and a short recovery time. To date, men who have had this procedure have yet to develop impotence or incontinence.
  • The Dornier MedTech Urowave. This device is another proprietary microwave heating device, similar to the Targis System.
  • Transurethral alcohol treatment. This recent development is very promising for the treatment of BPH. The procedure involves injecting ethyl alcohol into the lateral and middle lobes of the prostate. The alcohol kills prostate tissue, which the body then absorbs. Early results are encouraging, and show that all patients (who were originally scheduled for TURP) were able to urinate freely after 24 hours. More studies are required to assess long-term outcomes.
  • Prostatic stents. Stents are wire devices shaped like small springs or coils. They are placed within the prostate channel to maintain its patency (keep it open). These devices are currently under investigation and are not yet FDA-approved.
  • Aromatase. This inhibitor drug suppresses excess levels of estrogen in the blood. In many men, estrogen is the primary growth-stimulating agent that causes prostatic overgrowth.

See also Cryotherapy; Open prostatectomy.


Resources

books

Barrett, D. M., ed. Mayo Clinic on Prostate Health: Answers from the World-Renowned Mayo Clinic on Prostate Inflammation-Enlargement Cancer. New York: Kensington Pub. Corp., 2000.

Blandy, J. P. & R. G. Notley. Transurethral Resection. Boston: Butterworth-Heinemann, 1992.

Childs, S. J. Laser-Assisted Transurethral Resection of the Prostate (TURP). Philadelphia: Lippincott, Williams & Wilkins, 1993.


periodicals

Cimentepe, E., A. Unsal, and R. Saglam. "Randomized Clinical Trial Comparing Transurethral Needle Ablation with Transurethral Resection of the Prostate for the Treatment of Benign Prostatic Hyperplasia: Results at 18 Months." Journal of Endourology 17 (March 2003): 103-7.

Kaplan, S. A. "Comparison of Long-term Results of Transurethral Incision of the Prostate with Transurethral Resection of the Prostate, in Patients with Benign Prostatic Hypertrophy." Journal of Urology 168 (October 2002): 1657.

Kumar, P. V., M. P. Gomes, B. L. Davies, and A. G. Timoney. "A Computer Assisted Surgical Trainer for Transurethral Resection of the Prostate." Journal of Urology 168 (November 2002): 2111-14.

Kursh, E. D., R. Concepcion, S. Chan, P. Hudson, M. Ratner, and R. Eyre. "Interstitial Laser Coagulation versus Transurethral Prostate Resection for Treating Benign Prostatic Obstruction: A Randomized Trial with 2-year Follow-up." Urology 61 (March 2003): 673-8.

McAllister, W. J., O. Karim, R. O. Plail, D. R. Samra, M. J. Steggall, Q. Yang, and C. G. Fowler. "Transurethral electrovaporization of the Prostate: Is it Any Better than Conventional Transurethral Resection of the Prostate." British Journal of Urology International 91 (February 2003): 211-14.

Merrill, R. M., & C. L. Wiggins. "Incidental Detection of Population-based Prostate Cancer Incidence Rates through Transurethral Resection of the Prostate." Urologic Oncology 7 (September/October 2002): 213-19.

van Melick. H. H., G. E. van Venrooij, M. D. Eckhardt, and T. A. Boon. "A Randomized Controlled Trial Comparing Transurethral Resection of the Prostate, Contact Laser Prostatectomy and Electrovaporization in Men with Benign Prostatic Hyperplasia: Analysis of Subjective Changes, Morbidity and Mortality." Journal of Urology 169 (April 2003): 1411-16.

Yung, P. M., S. Chui-Kam, P. French, and T. M. Chan. "A Controlled Trial of Music and Pre-operative Anxiety in Chinese Men Undergoing Transurethral Resection of the Prostate." Journal of Advanced Nursing 39 (August 2002): 352-9.


organizations

American Foundation for Urologic Disease (AFUD). 1128 North Charles Street, Baltimore, MD 21201. (410) 468-1800. <www.afud.org>.

American Urological Association (AUA). 1120 North Charles Street, Baltimore, MD 21201. (410) 727-1100. <www.auanet.org>.

Cancer Information Service. National Cancer Institute, Building 31, Room 10A19, 9000 Rockville Pike, Bethesda, MD 20892. (800)4-CANCER. <www.nci.nih.gov/cancerinfo/index.html>.


other

"Anatomy of the Prostate Gland." University of Maryland Medicine. <www.umm.edu/prostate/panat.htm>.

"Prostate Disease Awareness." Monash University. <www.med.monash.edu.au/healthpromotion/pamphlets/prostate/index.html>.

"Transurethral Resection of the Prostate (TURP)." Family Practice Notebook. <www.fpnotebook.com/URO110.htm>.

"What is the Prostate?" AFUD. <www.afud.org/conditions/pdbefore.html>.


Monique Laberge, Ph.D.

WHO PERFORMS THE PROCEDURE AND WHERE IS IT PERFORMED?



Transurethral resection of the prostate is performed in hospitals by experienced urologic surgeons who are specialized in prostate disorders and in performing the TURP procedure.

QUESTIONS TO ASK THE DOCTOR



  • What are the alternative treatments for benign prostatic hyperplasia?
  • What are the risks involved with TURP?
  • How long will it take to recover from the surgery?
  • How painful is the TURP surgery?
  • When and how often will the catheter require flushing?
  • How long will it take to feel improvement?
  • What are the post-operative problems?
  • How will the surgery affect the ability to achieve erection?
  • How many TURP procedures does the surgeon perform in a year?
  • Will the surgery have to be repeated?

Transurethral Resection of the Prostate

views updated May 18 2018

Transurethral Resection of the Prostate

Definition
Purpose
Demographics
Description
Diagnosis/Preparation
Aftercare
Risks
Normal results
Morbidity and mortality rates
Alternatives

Definition

Transurethral resection of the prostate (TURP) is a surgical procedure in which portions of the prostate gland are removed through the urethra.

Purpose

The prostate is a gland that is part of the male reproductive system. It consists of three lobes and surrounds the neck of the bladder and urethra (a tube that channels urine from the bladder to the outside through the tip of the penis). The prostate weighs approximately 1 oz (28 g) and is walnut-shaped. It is partly muscular and partly glandular, with ducts opening into the urethra. It secretes an antigen called prostate-specific antigen (PSA), and a slightly alkaline fluid that forms part of the seminal fluid (semen) that carries sperm.

The prostate gland undergoes several changes as a man ages. The pea-size gland at birth grows only slightly during puberty and reaches its normal adult shape and size when a male is in his early 20s. The prostate gland remains stable until the mid-40s. At that time, in most men, the number of cells begins to multiply and the gland starts to enlarge.

Enlargement of the prostate causes a common disorder called benign (i.e., non-cancerous) prostatic hyperplasia (BPH) or benign prostatic enlargement (BPE). BPH occurs due to hormonal changes in the prostate, and is characterized by the enlargement or overgrowth of the gland because of an increase in the number of its constituent cells. BPH can raise PSA levels two to three times higher than normal. Men with increased PSA levels have a higher chance of developing prostate cancer.

BPH usually affects the innermost part of the prostate first, and enlargement frequently results in a gradual squeezing of the urethra at the point where it runs through the prostate. The squeezing sometimes causes urinary symptoms (referred to as lower urinary tract symptoms, LUTS), which often include:

  • straining when urinating
  • hesitation before urine flow starts
  • dribbling at the end of urination or leakage afterward
  • weak or intermittent urinary stream
  • painful urination
  • inability to completely empty the bladder

Other symptoms (called storage symptoms) sometime appear, and may include:

  • rgent need to urinate
  • bladder pain when urinating
  • increased frequency of urination, especially at night
  • bladder irritation during urination

The cause of BPH is not fully understood. As of 2008, it was thought to be caused by a hormone that the prostate gland synthesizes from testosterone called dihydrotestosterone (DHT).

Until the mid 1980s, transurethral resection of the prostate was the treatment of choice for BPH, and the most common surgery performed by urologists. By the mid-2000s, TURP surgery was being performed less frequently because of less invasive alternatives such as microwave therapy and prostatic laser surgery. Transurethral refers to the procedure being performed through the urethra. Resection means surgical removal.

Demographics

Before age 40, a small amount of prostatic hyperplasia is present in 80% of males, and about 10% of males under age 40 have fully developed BPH. Approximately 8-31% of males experience moderate to severe LUTS in their fifties. By age 80, about 80% of men have LUTS. A risk factor is the presence of normally functioning testicles; research indicates that castration can minimize prostatic enlargement. It appears that the glandular tissues that multiply abnormally use male hormones produced in the testicles differently than the normal tissues do.

Approximately 10 million American men and 30 million men worldwide have symptoms of BPH. It is more prevalent in the United States and Europe, and less common among Asians. BPH is more common in men who are married rather than single, and there is a strong inherited component to the disorder. A man’s chance for developing BPH is greater if three of more family members have the condition. The average age of men having TURP surgery is 69.

Description

TURP is a type of surgery that does not involve an external incision. The surgeon reaches the prostate by inserting an instrument through the urethra. In addition to TURP, two other types of transurethral surgery are commonly performed: transurethral incision of the prostate (TUIP), and transurethral laser incision of the prostate (TULIP). The TUIP procedure widens the urethra by making small cuts in the bladder neck (where the urethra and bladder meet), and in the prostate gland itself. In TULIP, a laser beam directed through the urethra melts the tissue.

The actual TURP procedure is simple. It is performed under general or local anesthesia. After an intravenous line (IV) is inserted, the surgeon examines the patient with a cystoscope, an instrument that allows him or her to see inside the bladder. The surgeon then inserts a device up the urethra via the penis

KEY TERMS

Benign prostatic hyperplasia (BPH)— Also called benign prostatic enlargement (BPE). Non-cancerous enlargement of the prostate gland as a result of an increase in the number of its constituent cells.

Benign tumor— An abnormal growth that is not cancerous (malignant), and does not spread to other areas of the body.

Cryoprostatectomy— Freezing of the prostate through the use of liquid nitrogen probes guided by transrectal ultrasound of the prostate.

Digital rectal exam (DRE)— Procedure in which the physician inserts a gloved finger into the rectum to examine the rectum and the prostate gland for signs of cancer.

Prostate gland— A gland in the male that surrounds the neck of the bladder and urethra. The prostate contributes to the seminal fluid.

Prostatitis— Inflammation of the prostate gland that may be accompanied by discomfort, pain, frequent urination, infrequent urination, and sometimes fever.

Protozoan— A single-celled, usually microscopic organism that is eukaryotic and, therefore, different from bacteria (prokaryotic).

Transurethral surgery— Surgery in which no external incision is needed. For prostate transurethral surgery, the surgeon reaches the prostate by inserting an instrument through the urethra.

Urethra— The tube that channels urine from the bladder to the outside. In the female, it measures 1-1.5 in (25-38 mm); in the male, 9.8 in (25 cm).

opening, and removes the excess capsule material that has been restricting the flow of urine. The density of the normal prostate differs from that of the restricting capsule, making it relatively easy for the surgeon to tell exactly how much to remove. After excising the capsule material, the surgeon inserts a catheter into the bladder through the urethra for the subsequent withdrawal of urine.

Diagnosis/Preparation

Common BPH symptoms include:

  • increase in urination frequency
  • the need to urinate during the night
  • difficulty starting urine flow
  • a slow, interrupted flow and dribbling after urinating
  • sudden, strong urges to pass urine
  • a sensation that the bladder is not completely empty
  • pain or burning during urination

In evaluating the prostate gland for BPH, the physician usually performs a complete physical examination as well as the following procedures:

  • Digital rectal examination (DRE). Recommended annually for men over age 50, the DRE is an examination performed by a physician who feels the prostate through the wall of the rectum. Hard or lumpy areas may indicate the presence of cancer.
  • Prostate-specific antigen (PSA) test. Also recommended annually for men over the age of 50, the PSA test measures the levels of prostate-specific antigen secreted by the prostate. It is normal to observe small quantities of PSA in the blood. PSA levels vary with age, and tend to increase gradually in men over age 60. They also tend to rise as a result of infection (prostatitis), BPH, or cancer.

If the results of the DRE and PSA tests suggest a significant prostate disorder, the examining physician usually refers the patient to a urologist, a medical doctor who specializes in diseases of the urinary tract and male reproductive system. The urologist performs additional tests, including blood and urine studies, to establish a diagnosis.

Patients should select an experienced TURP surgeon to perform the procedure.

Aftercare

When the patient awakens in the recovery room after the procedure, he already has a catheter in his penis, and is receiving pain medication via the IV line inserted prior to surgery. The initial recovery period lasts approximately one week, and includes some pain and discomfort from the urinary catheter. Spastic convulsions of the bladder and prostate are expected as they respond to the surgical changes.

The following medications or ones similar in function may be prescribed after TURP:

  • B&O suppository (belladonna and opium). This medication has the dual purpose of providing pain relief and reducing the ureter and bladder spasms that follow TURP surgery. It is a strong medication that must be used only as prescribed.
  • Bulk-forming laxative. Because of the surgical trauma and large quantities of liquids that patients are required to drink, they may need some form of laxative to promote normal bowel movements.
  • Detrol. This pain reliever is not as strong as B&O. There may be wide variations in its effectiveness and the patient’s response. It also controls involuntary bladder contractions.
  • Macrobid. This antibiotic helps prevent urinary tractinfections.
  • Pyridium. This medication offers symptomatic relief from pain, burning, urgency, frequency, and other urinary tract discomfort.

When discharged from the hospital, patients are advised to avoid weight lifting or strenuous exercise. They should check their temperature and report any fever to the physician, and drink plenty of liquids.

Risks

Serious complications have become less common for prostate surgery patients because of advances in operative methods. Nerve-sparing surgical procedures help prevent permanent injury to the nerves that control erection, as well as injury to the opening of the bladder. However, there are risks associated with prostate surgery. The first is the possible development of incontinence (the inability to control urination), which may result in urine leakage or dribbling, especially immediately after surgery. Normal control usually returns within several weeks, but 3% of patients still experience incontinence three months after surgery. There is also a risk of impotence. For a month or so after surgery, most men are not able to become erect. Eventually, approximately 90% of men who were able to have an erection before surgery will be able to have an erection sufficient for sexual intercourse.

Other risks associated with TURP include blood loss requiring transfusion, and postoperative urinary tract infections.

TUR syndrome effects about 2% of TURP patients. Symptoms may include temporary blindness due to irrigation fluid entering the bloodstream. On very rare occasions, this can lead to seizures, coma, and even death. The syndrome may also include toxic shock due to bacteria entering the bloodstream, as well as internal hemorrhage.

Normal results

TURP patients usually notice urine flow improvement as soon as the catheter is removed. Other improvements depend on the condition of the patient’s prostate before TURP, his age, and overall health status. Patients are told to expect the persistence of some pre-surgery symptoms. In fact, some new symptoms may appear following TURP, such as occasional blood and tissue in the urine, bladder spasms, pain when urinating, and difficulty judging when to urinate. TURP represents a major adaptation for the body, and healing requires some time. Full recovery may take up to one year. Patients are almost always satisfied with their TURP outcome, and the adaptation to new symptoms is offset by the disappearance of previous problems. For example, most patients no longer have to take daily prostate medication and quickly learn to gradually increase the time between urinating while enjoying uninterrupted and more restful sleep at night.

Normal postoperative symptoms, some of which are often temporary, include:

  • urination at night and reduced flow
  • mild burning and stinging sensation while urinating
  • reduced semen at ejaculation
  • bladder control problems
  • mild bladder spasm
  • fatigue
  • urination linked to bowel movements

To eliminate these symptoms, patients are advised to exercise, retrain their bladders, take all medications that were prescribed, and get plenty of rest to facilitate the post-surgery healing process.

Morbidity and mortality rates

TURP improves symptoms in about 90% of BPH patients. Overall, 90-day TURP mortality rates are less than 1.5%. The most common cause of death is an overwhelming systemic infection (sepsis). Following surgery, inadequate relief of BPH symptoms occurs in 20–25% of patients, and 15-20% require another operation within 10 years. Urinary incontinence affects about 3%, and about 10% of TURP patients become impoten

Alternatives

Conventional surgical alternatives for BPH patients include:

  • Interstitial laser coagulation. In this procedure, a laser beam inserted in the urethra via a catheter heats and destroys the extra prostate capsule tissue.
  • Transurethral needle ablation (TUNA). It uses radio waves to heat and destroy the enlarged prostate through needles positioned in the gland. It is generally less effective than TURP for reducing symptoms and increasing urine flow.
  • Transurethral electrovaporization. This procedure is a modified version of TURP, and uses a device that

WHO PERFORMS THE PROCEDURE AND WHERE IS IT PERFORMED?

Transurethral resection of the prostate is performed in hospitals by experienced urologic surgeons who specialize in prostate disorders and in performing the TURP procedure.

  • produces electronic waves to vaporize the enlarged prostate.
  • Photoselective vaporization of the prostate (PVP). This procedure uses a strong laser beam to vaporize the tissue in a 20-50 minute outpatient operation.
  • Transurethral incision of the prostate (TUIP). In this procedure, a small incision is made in the bladder, followed by a few cuts into the sphincter muscle to release some of the tension.
  • Transurethral microwave thermotherapy (TUMT). TUMT uses microwave heat energy to shrink the enlarged prostate through a probe inserted into the penis to the level of the prostate. This outpatient procedure takes about one hour. The patient can go home the same day, and is able to resume normal activities within a day or two. TUMT does not lead to immediate improvement, and it usually takes up to four weeks for urinary problems to completely resolve.
  • Water-induced thermotherapy (WIT). WIT is administered via a closed-loop catheter system, through which heated water is maintained at a constant temperature. WIT is usually performed using only a local anesthetic gel to anesthetize the penis, and is very well tolerated. The procedure is FDA approved.
  • Balloon dilation. In this procedure, a balloon is inserted in the urethra up to where the restriction occurs. At that point, the balloon expands to push out the prostate tissue and widen the urinary path. Improvements with this technique may only last a few years.

Some BPH patients have experienced improved prostate health from the following:

  • Zinc supplements. This mineral plays an important role in prostate health because it decreases prolactin secretion and protects against heavy metals such as cadmium. Both prolactin and cadmium have been associated with BPH.
  • Saw palmetto. Saw palmetto has long been used by Native Americans to treat urinary tract disturbances without causing impotence. It shows no significant side effects. A number of recent European clinical

QUESTIONS TO ASK THE DOCTOR

  • What are the alternative treatments for benign prostatic hyperplasia?
  • What are the risks involved with TURP?
  • How long will it take to recover from the surgery?
  • How painful is the TURP surgery?
  • When and how often will the catheter require flushing?
  • How long will it take to feel improvement?
  • What are the postoperative problems?
  • How will the surgery affect the ability to achieve erection?
  • How many TURP procedures does the surgeon perform in a year?
  • Will the surgery have to be repeated?
  • studies have also shown that fat soluble extracts of the berry help increase urinary flow and relieve other urinary problems resulting from BPH.
  • Garlic. Garlic is believed to contribute to overall body and prostate health.
  • Pumpkin seed oil. This oil contains high levels of zinc and has been shown to help most prostate disorders. Eating raw pumpkin seeds each day has long been a folk remedy for urinary problems, but German health authorities have recently recognized pumpkin seeds as a legitimate BPH treatment.
  • Pygeum bark. The bark of the Pygeum africanus tree has been used in Europe since early times in the treatment of urinary problems. In France, 81% of BPH prescriptions are for Pygeum bark extract.

Resources

BOOKS

Blute, Michael, ed. Mayo Clinic on Prostate Health, 2nd ed. Rochester, MN: Mayo Clinic, 2003.

Katz, Aaron E. Dr. Katz’s Guide to Prostate Health: From Conventional to Holistic Therapies, Topanga, CA: Freedom Press, 2006.

Scardino, Peter T. and Judith Kelman. Dr. Peter Scardino’s Prostate Book: The Complete Guide to Overcoming Prostate Cancer, Prostatitis, and BPH, New York Avery, 2005.

ORGANIZATIONS

American Urological Association (AUA). 1000 Corporate Boulevard, Linthicum, MD 21090. Toll Free (U.S. only): (866) 746-4282 or 410-689-3700. http://www.auanet.org (accessed April 14, 2008).

OTHER

Leslie, Stephen W. “Transurethral Resection of the Prostate.” eMedicine.com, October 3, 2006 [cited January 29, 2008]. http://www.emedicine.com/MED/topic3071.htm (accessed April 14, 2008).

“Prostate Health.” University of Maryland Medicine, [cited January 29, 2008]. http://www.umm.edu/prostate/ (accessed April 14, 2008).

“Transurethral Resection of the Prostate.” WebMD, March 31, 2006 [cited January 29, 2008]. http://men.webmd.com/prostaae-enlargement-bph/transurethral-resection-of-the-prostate-turp-for-benenngn-prostatic-hyperplasia (accessed April 14, 2008).

Monique Laberge, PhD

Tish Davidson, AM

Treadmill stress test seeStress test

Tremor reduction surgery seePallidotomy; Deep brain stimulation

Triglyceride test seeLipid tests

Trisegmentectomy seeHepatectomy

TURP

views updated May 17 2018

TURP n. transurethral resection of the prostate: see resection.