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  • Reviewed: 09/01/2010
CANCER ADVANCES IN FOCUS: Prostate Cancer
Yesterday
  • In 1975, the annual prostate cancer incidence rate among U.S. males was 94 new cases diagnosed per 100,000 men; the mortality rate was 31 deaths per 100,000 men. The incidence rates among white men and African American men were 92 and 141 new cases, respectively, per 100,000 men; the mortality rates for white men and African American men were 29 and 56 deaths, respectively, per 100,000 men.

  • Treatment options for localized prostate cancer included surgery (open prostatectomy) and radiation therapy. Men with more advanced disease were treated with hormonal therapy, in which the level of male hormones was reduced either by removal of the testicles or by administration of estrogens, such as diethylstilbestrol (DES). Hormonal therapy can slow the growth of prostate tumors because prostate cancer cells frequently require male hormones, such as testosterone, to grow.

  • In 1986, the U.S. Food and Drug Administration (FDA) approved the use of the serum PSA test to monitor patients with prostate cancer; in 1994, the PSA test was additionally approved as a prostate cancer screening test. PSA, or prostate-specific antigen, is a protein that is often found in increased amounts in the blood of patients with prostate cancer. The introduction of widespread PSA screening led to a dramatic increase in the incidence rate of prostate cancer, which peaked at 237 new cases diagnosed per 100,000 American men in 1992.

Today

  • In 2007, the latest year for which we have updated statistics, the U.S. incidence rate for prostate cancer was approximately 166 new cases diagnosed per 100,000 men; the mortality rate was approximately 24 deaths per 100,000 men. The prostate cancer death rate in this country has been declining since 1991–1994, when it peaked at an annual rate of 39 deaths per 100,000 men. Although the prostate cancer death rate has declined for both white men and African American men, the disparity in deaths from this disease persists.

  • To address the disparities in prostate cancer incidence and mortality between white men and African American men, National Institutes of Health (NIH)-supported researchers are investigating a variety of genetic and other factors that may contribute to the higher incidence and death rates observed among African American men.

  • Due to the widespread implementation of PSA screening in the United States, more than 90 percent of all prostate cancers are diagnosed at an early stage. Whether this earlier detection actually reduces the number of prostate cancer deaths is controversial and is being studied in two ongoing randomized clinical trials―the NIH-sponsored Prostate, Lung, Colorectal, and Ovarian screening trial and the European Study of Screening for Prostate Cancer. Initial results from these trials, published in 2009, showed that PSA screening produced, at best, only a small reduction in the number of prostate cancer deaths. This benefit, however, came at a cost: Many more cancers were diagnosed and treated in the screened group than in the control (unscreened) group. These findings suggest that PSA screening can lead to the diagnosis and treatment of some prostate cancers that will not cause symptoms or threaten a man’s life, phenomena known as overdiagnosis and overtreatment (i.e., unnecessary treatment). The major side effects of prostate cancer treatment include urinary incontinence and sexual impotence.

  • Advances in the treatment of prostate cancer include new surgical approaches and improvements in radiotherapy. For example, surgeons developed a technique that allows the removal of the prostate while minimizing nerve damage. In addition, laparoscopic and robot-assisted surgical methods are also widely used, although evidence of their superiority to open prostatectomy is lacking. Furthermore, clinical researchers have refined a radiotherapy technique known as brachytherapy, which involves the implantation of small sources of radioactivity (radioactive seeds) into the prostate. This radiation method is an effective treatment for early-stage prostate cancer.

  • Advances in hormonal therapy for prostate cancer have included the development of gonadotropin-releasing hormone (GnRH) agonists, which inhibit the pituitary gland’s ability to stimulate the testes to make testosterone. Results of a clinical trial showed that the GnRH agonist leuprolide was equivalent to DES in reducing blood levels of testosterone but caused less cardiovascular toxicity. Other GnRH agonists used today include goserelin, triptorelin, and histrelin. Additional prostate cancer treatments that interfere with the production or activity of male hormones and are used today include the drugs degarelix, flutamide, bicalutamide, nilutamide, and ketoconazole.

  • Advances have also been made in chemotherapy for prostate cancer. In 2004, results from two large NIH-sponsored clinical trials showed that use of the drug docetaxel can prolong the survival of men who have advanced prostate cancer that no longer responds to hormonal therapy. Another drug, cabazitaxel, approved in 2010, improves the survival of men whose prostate cancer no longer responds to docetaxel.

  • In 2010, the FDA approved sipuleucel T, a cancer treatment vaccine that improves the survival of men with advanced prostate cancer. This vaccine is created using a patient’s own immune cells. The cells are removed from the patient’s body, activated, and then infused into the patient’s bloodstream to boost the immune response to his cancer.

  • In 2003, the NIH-sponsored Prostate Cancer Prevention Trial demonstrated that hormonal therapy with finasteride, a drug approved for the treatment of benign prostatic hyperplasia (a noncancerous enlargement of the prostate), reduced the risk of developing prostate cancer by 25 percent. This was the first study to show that a drug could be used to prevent this disease. In 2010, a similar drug, dutasteride, was also found to reduce the risk of prostate cancer in men at higher than average risk for the disease.

  • In 2005, NIH-funded researchers discovered that about half of prostate cancers have a genetic alteration that results from the fusion of two specific genes. Further study of this alteration is helping scientists better understand the biology of prostate cancer and may ultimately lead to improved diagnosis and treatment of the disease. Other studies have shown that genetic variations in a specific region of chromosome 8 can increase a man’s risk of developing prostate cancer. These genetic variations account for approximately 25 percent of the prostate cancers that occur in white men and may eventually lead to a better understanding of the genetic basis of this cancer.

  • For the past 2 years, the National Cancer Institute, which is part of NIH, has offered a multidisciplinary clinic for men with newly diagnosed prostate cancer and men at high risk of the disease. The clinic’s staff, which includes a urologist, a radiation oncologist, and a medical oncologist, provide patients with all of the information necessary to make fully informed treatment decisions. High-resolution magnetic resonance imaging (MRI) is also available. MRI scans, which provide much better anatomical detail than was previously possible, are helpful in evaluating the local extent of cancer, performing targeted biopsies, and monitoring changes within the prostate over time.

Tomorrow

  • Several clinical trials, including one sponsored in part by NIH, are comparing “active surveillance” (a form of disease management in which treatment is deferred until certain clinical or PSA changes are evident) with immediate treatment for men with early-stage, low-grade prostate cancer. Deferring treatment may allow men diagnosed with disease that will never cause symptoms or threaten their lives to avoid radical treatment while still ensuring that men with aggressive disease are treated in time.

  • Other NIH-supported clinical trials are evaluating new treatments for prostate cancer, such as molecularly targeted agents and additional vaccines.

  • NIH is also supporting research to identify biomarkers―substances in blood, urine, and other tissues―that will aid not only in diagnosing prostate cancer but also in determining prognosis and in identifying appropriate treatments.

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Glossary Terms

active surveillance (AK-tiv ser-VAY-lents)
Closely following a patient’s condition but not giving treatment unless there are changes in test results. Active surveillance may avoid or delay the need for radiation or surgery. It is used to find early signs that the condition is getting worse. During active surveillance, certain exams and tests, including biopsies, are done on a regular schedule. It is used in prostate cancer. It is a type of expectant management.
benign prostatic hyperplasia (beh-NINE prah-STA-tik HY-per-PLAY-zhuh)
A benign (not cancer) condition in which an overgrowth of prostate tissue pushes against the urethra and the bladder, blocking the flow of urine. Also called benign prostatic hypertrophy and BPH.
bicalutamide (BY-kuh-LOO-tuh-mide)
An anticancer drug that belongs to the family of drugs called antiandrogens.
biomarker (BY-oh-MAR-ker)
A biological molecule found in blood, other body fluids, or tissues that is a sign of a normal or abnormal process, or of a condition or disease. A biomarker may be used to see how well the body responds to a treatment for a disease or condition. Also called molecular marker and signature molecule.
brachytherapy (BRAY-kee-THAYR-uh-pee)
A type of radiation therapy in which radioactive material sealed in needles, seeds, wires, or catheters is placed directly into or near a tumor. Also called implant radiation therapy, internal radiation therapy, and radiation brachytherapy.
cabazitaxel (kuh-BA-zih-TAK-sil)
A drug used with prednisone to treat hormone-resistant prostate cancer that has spread and that had been treated with docetaxel. It is also being studied in the treatment of other types of cancer. Cabazitaxel blocks cell growth by stopping cell division and may kill cancer cells. It is a type of antimitotic agent. Also called Jevtana and taxoid XRP6258.
degarelix (DEH-guh-REH-lix)
A drug that is used to treat advanced prostate cancer and is also being studied in the treatment of benign prostatic hyperplasia. Degarelix binds to gonadotropin-releasing hormone (GnRH) receptors in the pituitary gland. This causes the body to stop making testosterone, which prostate cancer needs to grow. Degarelix is a type of GnRH antagonist. Also called Firmagon.
diethylstilbestrol (dy-EH-thul-stil-BES-trol)
A synthetic form of the hormone estrogen that was prescribed to pregnant women between about 1940 and 1971 because it was thought to prevent miscarriages. Diethylstilbestrol may increase the risk of uterine, ovarian, or breast cancer in women who took it. It also has been linked to an increased risk of clear cell carcinoma of the vagina or cervix in daughters exposed to diethylstilbestrol before birth. Also called DES.
docetaxel (DOH-seh-TAK-sil)
A drug used to treat certain types of cancers of the breast, stomach, lung, prostate, and head and neck. It is being studied in the treatment of other types of cancer. Docetaxel kills cancer cells by stopping them from dividing. It is a type of taxane. Also called Taxotere.
dutasteride (doo-TAS-teh-ride)
A drug used to treat symptoms of an enlarged prostate gland. It is being studied in the treatment of male hair loss and prostate cancer. Dutasteride blocks enzymes the body needs to make male sex hormones. It is a type of 5-alpha reductase inhibitor. Also called Avodart and GG745.
estrogen (ES-truh-jin)
A type of hormone made by the body that helps develop and maintain female sex characteristics and the growth of long bones. Estrogens can also be made in the laboratory. They may be used as a type of birth control and to treat symptoms of menopause, menstrual disorders, osteoporosis, and other conditions.
finasteride (fih-NAS-teh-ride)
A drug used to reduce the amount of male hormone (testosterone) produced by the body.
flutamide (FLOO-tuh-mide)
An anticancer drug that is a type of antiandrogen.
gonadotropin-releasing hormone (goh-NA-doh-TROH-pin-reh-LEE-sing HOR-mone)
A hormone made by the hypothalamus (part of the brain). GnRH causes the pituitary gland to make luteinizing hormone (LH) and follicle stimulating hormone (FSH). These hormones are involved in reproduction. Also called GnRH.
goserelin (GAH-sayr-uh-lin)
A drug that belongs to the family of drugs called gonadotropin-releasing hormone analogs. Goserelin is used to block hormone production in the ovaries or testicles.
hormonal therapy (hor-MOH-nul THAYR-uh-pee)
Treatment that adds, blocks, or removes hormones. For certain conditions (such as diabetes or menopause), hormones are given to adjust low hormone levels. To slow or stop the growth of certain cancers (such as prostate and breast cancer), synthetic hormones or other drugs may be given to block the body’s natural hormones. Sometimes surgery is needed to remove the gland that makes a certain hormone. Also called endocrine therapy, hormone therapy, and hormone treatment.
ketoconazole (KEE-toh-KAH-nuh-zole)
A drug that treats infection caused by a fungus. It is also used as a treatment for prostate cancer because it can block the production of male sex hormones.
laparoscopy (LA-puh-ROS-koh-pee)
A procedure that uses a laparoscope, inserted through the abdominal wall, to examine the inside of the abdomen. A laparoscope is a thin, tube-like instrument with a light and a lens for viewing. It may also have a tool to remove tissue to be checked under a microscope for signs of disease.
leuprolide (LOO-proh-lide)
The active ingredient in a drug used to treat symptoms of advanced prostate cancer. It is also used to treat early puberty in children and certain gynecologic conditions. It is being studied in the treatment of other conditions and types of cancer. Leuprolide blocks the body from making testosterone (a male hormone) and estradiol (a female hormone). It may stop the growth of prostate cancer cells that need testosterone to grow. It is a type of gonadotropin-releasing hormone analog.
magnetic resonance imaging (mag-NEH-tik REH-zuh-nunts IH-muh-jing)
A procedure in which radio waves and a powerful magnet linked to a computer are used to create detailed pictures of areas inside the body. These pictures can show the difference between normal and diseased tissue. Magnetic resonance imaging makes better images of organs and soft tissue than other scanning techniques, such as computed tomography (CT) or x-ray. Magnetic resonance imaging is especially useful for imaging the brain, the spine, the soft tissue of joints, and the inside of bones. Also called MRI, NMRI, and nuclear magnetic resonance imaging.
nilutamide (ny-LOO-tuh-mide)
A drug that blocks the effects of male hormones in the body. It is a type of antiandrogen.
open prostatectomy (… PROS-tuh-TEK-toh-mee)
Surgery to remove part or all of the prostate gland through an incision in the lower abdomen or perineum (the area between the anus and scrotum). An open prostatectomy may be done to remove an enlarged prostate gland in benign prostatic hyperplasia (BPH) or as a treatment for prostate cancer.
pituitary gland (pih-TOO-ih-TAYR-ee...)
A pea-sized organ attached to the part of the brain called the hypothalamus. It lies at the base of the brain above the back of the nose. The hypothalamus sends signals to the pituitary gland, which then makes hormones that control other glands and many of the body’s functions, including growth.
prostate cancer (PROS-tayt KAN-ser)
Cancer that forms in tissues of the prostate (a gland in the male reproductive system found below the bladder and in front of the rectum). Prostate cancer usually occurs in older men.
prostate-specific antigen (PROS-tayt-speh-SIH-fik AN-tih-jen)
A protein made by the prostate gland and found in the blood. Prostate-specific antigen blood levels may be higher than normal in men who have prostate cancer, benign prostatic hyperplasia (BPH), or infection or inflammation of the prostate gland. Also called PSA.
PSA test (… test)
A laboratory test that measures the amount of prostate-specific antigen (PSA) found in the blood. PSA is a protein made by the prostate gland. The amount of PSA may be higher in men who have prostate cancer, benign prostatic hyperplasia (BPH), or infection or inflammation of the prostate.
sipuleucel-T (SY-puh-LOO-sel...)
A drug used to treat prostate cancer that has spread. It is made from immune system cells collected from a patient with prostate cancer. The cells are treated with a protein that is made by combining a protein found on prostate cancer cells with a growth factor. When the cells are injected back into the patient, they may stimulate T cells to kill prostate cancer cells. Sipuleucel-T is a type of vaccine and a type of cellular adoptive immunotherapy. Also called APC8015 and Provenge.
testis (TES-tis)
One of two egg-shaped glands inside the scrotum that produce sperm and male hormones. Also called testicle.
testosterone (tes-TOS-teh-RONE)
A hormone made mainly in the testes (part of the male reproductive system). It is needed to develop and maintain male sex characteristics, such as facial hair, deep voice, and muscle growth. Testosterone may also be made in the laboratory and is used to treat certain medical conditions.
triptorelin (trip-toh-REL-in)
A drug that is used to treat advanced prostate cancer, and is being studied in the treatment of breast cancer. It belongs to the family of hormonal drugs called gonadotropin-releasing hormone analogs. Also called Trelstar.

Table of Links

1http://www.cancer.gov/cancertopics/factsheet/cancer-advances-in-focus