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Screenings

Early detection is one of the best weapons we have against cancer. Usually when a patient already has symptoms, the cancer has spread (metastasized). This makes curing it more difficult with the treatments offered today.

Some types of cancer can be found before they cause symptoms. Checking for cancer (or for conditions that may lead to cancer) in people who have no symptoms is called screening. Screening can help doctors find and treat some types of cancer early. Generally, cancer treatment is more effective when the disease is found early. However, not all types of cancer have screening tests and some tests are only for people with specific genetic risks.

More information on screening programs for:

Breast cancer

Risk factors

Screening guidelines for women at average risk (no symptoms, no history of prior breast cancer, no family history of breast cancer in a first-degree relative and no history of prior chest radiation) include an annual clinical breast exam beginning at age 25. Imaging screening includes an annual mammogram at age 40. This may be supplemented with a screening breast ultrasound, particularly if the breasts are dense. Patients are informed if their breasts are dense (per New York state legislation guidelines,) so that they can discuss with their physician if supplemental imaging screening is indicated.

High-risk women include those with a family history of first-degree relative with breast cancer, history of atypical hyperplasia or lobular carcinoma in situ (benign conditions associated with increased breast cancer risk), or history of chest wall radiation. Screening in this high-risk group includes annual mammography starting 10 years before the youngest family member was diagnosed and may also include annual breast ultrasound and MRI. Often the mammogram and ultrasound are done together, and the MRI is done 6 months later so that high-risk patients are followed with close imaging surveillance. These tests are usually followed by clinical breast exam every 6 months. Recommendations for optimal surveillance will be made by your clinical team as well as the dedicated breast radiologists.

These advanced radiology services are offered at three locations (White Plains Center for Advanced Medicine & Surgery, Armonk, and New Rochelle), with early morning and evening appointments for ease of scheduling. To help alleviate any anxiety associated with testing, patients are given the option to wait for the results of screening tests the same day. Imaging is done by our kind and compassionate staff, and interventional procedures are explained in detail in advance. Abnormal results are communicated both to the patient and the referring physician in a timely fashion to ensure continuity of care and appropriate follow-up.

Mammograms

Routine breast screening and mammograms are very important. The rationale for yearly breast imaging (i.e. a mammogram) is to detect a breast cancer as early as possible (prior to becoming palpable).

The radiologist reading the mammogram may request that you have additional mammogram views taken, an ultrasound or an MRI. Sometimes additional information is necessary to fully evaluate your breasts. The state of New York recently passed legislature requiring radiologists to inform women if they have dense breasts on a mammogram. A supplementary breast ultrasound may then be recommended.

At the bottom of each mammogram report will be a breast imaging reporting and data system (BIRADS) score. The BIRADS score tells you the recommendation for either a biopsy, short-term follow up or to return for breast imaging in one year.

Learn more about our women’s imaging services.

Breast cancer screening

While many women with breast cancer have a family history, only 5% to 10% of breast cancer cases are due to hereditary gene mutations. Genetic testing may be recommended if several members of your family in different generations have had breast or other forms of cancer. Other reasons to pursue genetic testing are if your cancer was diagnosed at a young age (under 50), you had breast cancer in both breasts or your breast cancer is triple negative (meaning it is negative for estrogen, progesterone and Her2 receptors.)

At White Plains Hospital, our trained genetic counselors will take a complete personal and family history to help determine if genetic testing is indicated, and if so, which test to send. The test itself is usually a blood test, and the results come back in 2 weeks. Our counselors will help you to interpret results and give you detailed information on screening guidelines if you do turn out to have a genetic mutation. This information is also communicated to your primary physician. It is important to remember that genetic testing cannot definitively say whether you will actually develop breast cancer, but rather it is a tool to help guide risk assessment so that your treatment team can follow you appropriately.

Learn more about our genetic screening below.

Colorectal cancer

About

Colorectal cancer is the third most common cancer in the US, but also one of the most preventable. Colorectal cancers are slow-growing and almost always start as a small growth in the colon—otherwise known as a polyp. Early detection through routine screening has been shown to significantly improve survival rates if a polyp or cancer is found.

White Plains Hospital has pledged to help increase colorectal cancer screening rates in Westchester County by supporting the 80% by 2018 initiative, led by the American Cancer Society (ACS), the Centers for Disease Control and Prevention (CDC) and the National Colorectal Cancer Roundtable (an organization co-founded by ACS and CDC). The initiative strives to ensure that 80% of individuals ages 50 and over receive the recommended screenings for colorectal cancer by 2018. Screenings are now offered using non-invasive techniques, such as a High-Sensitivity Fecal Occult Blood Test (FOBT), a Fecal Immunochemical Test (FIT) or Cologuard—all of which can be done within the comfort of your own home.

Not all colorectal screenings are the same. Visual screenings include the colonoscopy; flexible sigmoidoscopy, which looks only at the first part of the colon; barium enema; and virtual colonoscopy, which is a CT-based test. Colonoscopy is the most effective screening tool, providing a direct visual of the colonic lining and rarely missing lesions. Colonoscopy is also the only method that allows doctors to both discover small polyps and remove them in one procedure.

Stool-based screenings, including guaiac testing—which checks for blood in the stool—fecal immunohistochemical testing (FIT), multitarget stool DNA tests and cologuard use non-invasive techniques and can be done in the comfort of your own home.

Risk factors

Research has shown that there are several risk factors that may increase an individual’s chances of developing colorectal polyps or colorectal cancer, but it’s important to understand that just because you have one or even several risk factors for a specific type of cancer, it doesn’t necessarily mean that you will develop the disease.

Age

The chances of developing colon cancer increases significantly after the age of 50, and 90% of individuals diagnosed with colon cancer are over the age of 50.

Personal history of colorectal polyps or colorectal cancer

If the polyps were noncancerous or large, you are at a greater risk of developing colon cancer. If you have been successfully treated for colon cancer, you are still at risk to develop a new cancer in other areas of the colon and rectum.

Personal history of inflammatory bowel disease

Crohn’s disease and ulcerative colitis are associated with an increased chance of colorectal cancer, because long-term chronic inflammation occurs with these diseases, leading to abnormalities in the cells of the intestinal lining, which can become cancerous over time. Individuals who have been diagnosed with irritable bowel syndrome, however, are not at increased risk for colon cancer.

Family history of colorectal cancer or colorectal polyps

As many as 1 in 5 people who develop colorectal cancer have other family members who have been affected by this disease, and the risk is doubled in those who have a sibling or parent who has been affected. It is unclear whether the cause is genetic, due to shared environmental exposures or a combination of both. You should talk to your doctor about whether or not early screening is right for you.

Inherited syndromes

Inherited syndromes account for 5% to 10% of all colorectal cancers and, in many cases, have been linked to specific gene defects that cause the disease. Sometimes these genetically related syndromes are also associated with other types of cancers, so knowing of any history of cancer in more distant relatives is also important. Your doctor will help you decide when early screening and even genetic testing is appropriate. The two most common types of inherited syndromes linked to colorectal cancers are familial adenomatous polyposis (FAP) and Lynch syndrome, or hereditary non-polyposis colon cancer (HNPCC). They account for 1% and 3% to 5% of colon cancers respectively. Lynch syndrome is particularly important in women because of its strong association with endometrial cancer as well as with cancers of the ovary, stomach, small bowel, pancreas, kidney, brain, ureters (tubes that carry urine from the kidneys to the bladder) and bile duct.

Other rare, inherited syndromes that are associated with an increased risk of colon cancer are Peutz-Jaeger Syndrome, Turcot’s Syndrome and MUTYH-associated polyposis.

Racial and ethnic background

African Americans have the highest incidence of colorectal cancer of all racial groups in the United States. They also have the highest mortality rates, but the reason has not yet been found. About 6% of Jews of Eastern European descent (Ashkenazi Jews) carry a genetic mutation called I-1307K APC, which also is associated an increased risk of colorectal cancer. It is the second most common cancer among Asian/Pacific Islanders and Hispanic women, and it is the third most common cancer among white, Black and Native American women.

Things you can do to reduce your risk

Diet: Having a diet that is rich in fruits, vegetables and whole grains has been linked to a decreased risk of colorectal cancer. It’s also known that avoiding red or processed meats, like lamb, liver, beef, hot dogs and luncheon meats high in nitrates or nitrites, reduces your risk of colorectal cancer.

Physical activity: Maintaining a healthy level of physical activity has been shown to decrease the risk of developing colorectal cancer.

Obesity: Being overweight not only increases the risk of developing colorectal cancer in both men and women, but also increases the likelihood of a poor outcome. The link is stronger in men than it is in women.

Smoking and tobacco use: Smoking and tobacco use increases the likelihood that an individual will develop colorectal cancer, as well as many other types of cancers. Research suggests that the risk comes from exposure to the swallowed carcinogenic chemicals generated from the tobacco. Smoking also increases the likelihood of dying of the disease.

Heavy alcohol use: The heavy use of alcohol has been linked to an increased risk of colorectal cancer in both men and women. Research has suggested a relationship to low folic acid levels that result from heavy alcohol use. The American Cancer Society recommends no more than 2 drinks per day for men and 1 drink per day for women to avoid increasing the risk of developing colon cancer.

Head and neck cancer

Risk factors

Head and neck cancers, if diagnosed early, are often very promising in prognosis. Men are almost twice as likely as women to develop these cancers, and people over the age 50 are also at greater risk than younger people. Most head and neck cancers are due to alcohol and tobacco use. However, the incidence of cancers of the throat, larynx, nose, sinuses and mouth caused by human papilloma virus (HPV) are rising in younger people, while incidence of these cancers caused by tobacco and excessive alcohol is on the decline.

Other risk factors may include:

  • A history of excess sun exposure, sun burning or sun poisoning
  • A history of mononucleosis/mono
  • Poor dental or oral care
  • Exposure to noxious fumes (i.e. asbestos, wood, paint fumes)
  • Use of marijuana
  • Poor nutrition
  • Reflux disease
  • Weakened immune system

People at risk are encouraged to seek screening for head and neck cancers from a trained medical professional. Screenings are quick, painless and designed to advance early diagnosis, which can lead to better outcomes. During a screening, a doctor looks in the nose, mouth and throat for abnormalities and feels for lumps in the neck.

White Plains Hospital Center for Cancer Care offers head and neck screening events several times throughout the year. Additionally, highly skilled medical specialists who treat diseases of the ear, nose and throat are available to conduct screenings by appointment.

Lung cancer

Risk factors

Lung cancer is the leading cause of cancer death in the United States.1 Screening allows individuals to be checked for early signs of lung cancer before the development of any symptoms. Identifying early, potentially curable lung cancer is of great benefit.

Several studies have shown the benefits of CT scans of the chest as a screening procedure to identify early-stage lung cancer. At White Plains Hospital, the Department of Thoracic Surgery provides a comprehensive screening program that includes low-dose CT scans.

Do you currently smoke or have you ever smoked and are between 50 and 80 years old?2

To find out about your individual risks and if you qualify for a lung cancer screening CT scan, please call 914.849.7299.

1American Cancer Society (ACS).

2The American Cancer Society recommends any smokers between the ages of 50 and 80 and with a 20 or more-pack year history are screened. A pack-year is equal to smoking 1 pack (or about 20 cigarettes) per day for a year or by smoking 2 packs a day for 10 years.

High-risk individuals

People at risk are encouraged to seek screening for lung cancers from a trained medical professional. The most significant cause of lung cancer is cigarette smoking and tobacco use. Tobacco smoke has been shown to contain over 4,000 chemical compounds that are cancer-causing.

The risk of lung cancer in individuals who smoke begins to increase once that individual has smoked for 10 pack years. A pack year refers to smoking one pack of cigarettes per day for one year. Therefore, someone who smokes two packs a day will reach 10 pack years in five years and someone who smokes one half pack per day needs 20 years to reach 10 pack years. While the risk of lung cancer increases at 10 pack years, it significantly increases at 30 pack years.

It has been estimated that the risk of lung cancer in a cigarette smoker is 25 times higher than a non-smoker and five times higher in pipe and cigar smokers.

How does lung cancer screening work?

How is a lung cancer screening CT scan performed?

  • A low-dose CT scan of the chest requires that an individual lie on a table that slides into a doughnut-shaped CT scanner that takes multiple x-ray pictures of your chest.
  • The procedure is completely painless and only requires several minutes.
  • The average radiation dose received from a low-dose CT scan is 1.5 mSv (by comparison, high mileage airplane flyers receive 6 to 8 mSv, and individuals living at high altitude, such as Denver, Colorado, received 6 mSv.

How long does a lung cancer screening CT scan take?

  • Advances in CT scanning now allow individuals to undergo a painless, noninvasive scan that takes about 20 seconds once you have registered, changed clothing and are on the scanning table.
  • The entire process of registering and filling out our simple questionnaire can be completed in less than half an hour.

Pancreatic cancer

Risk factors

Pancreatic cancer is the fourth leading cause of cancer-related death in the U.S. in both men and women. It typically presents at an advanced, incurable stage. Identifying and testing individuals with an elevated risk for developing pancreatic cancer may lead to improved outcomes.

Currently there are no standardized recommendations for screening individuals who have an elevated risk for pancreatic cancer. White Plains Hospital offers a clinical trial that follows the outcomes of elevated risk individuals who undergo early detection testing, using the most modern and up-to-date testing methods, and employing the most advanced options for elevated risk.

Do you...

  • Have an immediate family member under the age of 50, or multiple family members, who have had pancreatic cancer?
  • Carry a BRCA2 gene mutation?
  • Carry a p16 gene mutation for Familial Atypical Multiple Mole Melanoma?
  • Carry a BRCA1 gene mutation AND have family members with pancreatic cancer?
  • Carry a gene mutation for other cancers (including colon cancer) AND have family members with pancreatic cancer?
  • Have Peutz-Jeghers Syndrome?
  • Have Chronic Pancreatitis Syndrome?
  • Have other risk factors for the development of pancreatic cancer?

If you answered YES to ANY of these questions, then you may be eligible to undergo testing to screen for pancreatic cancer and enroll into this clinical trial.

To learn more about pancreatic screening, call 914.849.7100 or take a health risk assessment to learn if you’re at risk for pancreatic cancer.

Testing and covering

Enrolled individuals will be offered testing with endoscopic ultrasound (EUS) of the pancreas, subsequently alternating with an MRI (Magnetic Resonance Imaging) of the pancreas and will then be followed with testing and monitoring every 6 to 12 months for up to five years.

Testing may be covered by most major insurances for individuals who have an elevated risk for the development of pancreatic cancer. Efforts are made to secure necessary authorizations from insurance carriers.

A complete family history is an important part of anyone’s medical history. Genetic counseling with DNA testing may be recommended as part of the eligibility process.

Genetics

Genetic counseling

A genetic consultation begins by addressing a patient’s needs, worries and questions. The genetic counselor takes a comprehensive look at a patient’s personal and family medical history to determine the likelihood that the cancers in one’s family are caused by hereditary factors. The genetic counselor discusses early detection and methods of prevention based on one’s genetic risk, and helps patients deal with practical and emotional issues. These recommendations are personalized to a patient and their family.

When to consider genetic screening

You may wish to consider a cancer genetics consultation if you answer “yes” to any of the following questions:

  • Have you or a close relative been diagnosed with cancer at a young age?
  • Do you have more than one close blood relative with the same type of cancer or related cancers (breast and ovarian, uterine and colon)?
  • Have you or a close relative had more than one type of cancer?
  • Has anyone in your family been diagnosed with bilateral or multiple cancers in the same organ?
  • Have you or a family member had rare cancers, such as male breast cancer, medullary thyroid cancer, or retinoblastoma?

How does genetic screening work? Will insurance cover it?

Genetic testing, which consists of collecting a sample of your blood or saliva for evaluation by a medical laboratory, is a way to determine if you may be at increased risk for certain cancers based on an inherited mutation. Test results can help you and your physician make important decisions about your medical care. Deciding whether or not to have genetic testing is a personal choice that can be made at the time of the consultation or at a future date.

In recent years, genetic testing has expanded rapidly. We are now able to test many genes at once, as opposed to a select few at a time. Patients who previously had genetic testing may be interested in learning more about multigene panels and whether or not updated genetic testing is appropriate for them.

Genetic counseling and genetic testing are often covered by insurance. The genetic counselor can provide the information you need to see if genetic counseling is covered by your insurance.

To learn more about genetic screening, call 914.849.7658.

Breast and ovarian

It has been estimated that about 5%–10% of all female breast and up to 15% of ovarian cancer are hereditary and occur as a result of an inherited predisposition. Of the cases of breast and ovarian cancer that are hereditary, the majority are due to mutations in the BRCA1 and BRCA2 genes. There are additional genes that account for the remaining cases of hereditary breast and ovarian cancer.

What features in a family history make it more likely that the cancer in the family is hereditary?

Features of cancers with a strong inherited component include families with early onset breast cancer (before age 50), ovarian cancer, bilateral breast cancer, male breast cancer, and multiple generations affected with cancer.

How can an increased likelihood for breast and ovarian cancer be inherited?

We all have genes in our body called tumor suppressor genes. When these genes are working properly, their job is to suppress tumor growth and to protect us from cancer. If an individual inherits a genetic change, or mutation, in a tumor suppressor gene, this mutation may increase the risk for certain cancers. An inherited mutation may be the first step in an accumulation of errors in the genes that can lead to a cell becoming cancerous. This is also why individuals with a cancer susceptibility gene mutation are not only more likely to develop certain cancers, but are more likely to develop cancer at a younger age. BRCA1 and BRCA2 are the two most common genes that can increase the risk for breast and ovarian cancer, although there are many others as well.

What are the chances of inheriting a BRCA1 or BRCA2 gene mutation?

All individuals have two copies of each BRCA gene, one copy from each parent. If an individual carries a BRCA mutation, it is likely that it was inherited from one of their parents. There is a 50% chance that siblings and children of an individual who carries a mutation will inherit it as well.

Are certain individuals more likely to have a particular gene mutation?

Studies have shown that there are specific mutations of the BRCA1 and BRCA2 genes which are common in individuals of Eastern European Jewish (Ashkenazi) ancestry. These mutations are called 187delAG and 5385insC in BRCA1, and 6174delT in BRCA2. One in forty Ashkenazi Jewish individuals has one of these three mutations. Ancestry is taken into account when determining the risk to carry a BRCA1 or BRCA2 mutation.

What if testing reveals a mutation in BRCA1 or BRCA2?

Men and women are at risk to inherit mutations in the BRCA1 and BRCA2 gene. Mutations in these genes increase the risk for breast cancer (in men and women), ovarian cancer, pancreatic cancer, prostate cancer, and melanoma. Understanding that an individual may be at increased risk for these cancers enables their physicians to create a plan for increased screening and/or preventative surgeries.

What if testing does not detect a BRCA1 or BRCA2 gene mutation?

The implications of negative results will vary depending on the personal and family history of the individual being tested. Results are more meaningful if someone else if the family has tested positively. It is important to report any genetic testing results of your family members to the genetic counselor to help clarify your own result.

If a woman has a BRCA gene mutation, what are the options?

A woman with a BRCA gene mutation has several choices that should be discussed with her physician. She might utilize enhanced screening methods to help find cancers at the earliest possible stage when they are most easily treated. Women with BRCA1 or BRCA2 mutations should be sure to practice regular breast cancer screening. This means having yearly mammograms and breast examinations by a physician at frequent intervals. The use of other imaging modalities such as ultrasound and MRI are also important. Screening for ovarian cancer is more difficult because current tests may not find an early-stage ovarian cancer.

Another option is to use a medication to prevent or delay the development of cancer. Examples include Tamoxifen or Raloxifene to decrease the chance of developing breast cancer, or oral contraceptives for premenopausal women to decrease the chance of developing ovarian cancer.

A third option is to have surgery to remove at-risk tissue before cancer develops. An example of this would be risk-reducing mastectomy without a diagnosis of cancer, a type of surgery used to decrease the chances of developing breast cancer. Women may also be recommended to have their ovaries, fallopian tubes, and possibly uterus removed to decrease the chances of developing gynecologic cancer. It is important to note that while surgery provides the greatest form of cancer risk reduction, no surgery can completely eliminate one’s chances of getting cancer in the future.

What are the possible risks and benefits of BRCA1 and BRCA2 testing?

The decision to have genetic testing for cancer risk is a complicated one. Individuals and families must not only weigh the risks and benefits of testing, they must also consider their unique situations. The process of genetic testing may be emotionally difficult regardless of whether a BRCA1 or BRCA2 mutation is found.

Currently, it is against the law for medical insurance companies or employers to discriminate based on genetic testing. However, genetic information may be considered by other insurance policies, like disability, long-term care or life insurance.

Learning about a BRCA1 or BRCA2 mutation can help individuals make informed decisions about their health care.

Colon and endometrial

It has been estimated that about 5%–10% of all colon and endometrial cancer cases run in families; in other words, they are hereditary and occur as a result of an inherited predisposition. The most common hereditary cause of colon and endometrial cancer is called Lynch Syndrome. There are additional known and unknown genes that account for the remaining cases of hereditary colon and endometrial cancer.

What features in a family history make it more likely that the cancer in the family is hereditary?

Features of cancers with a strong inherited component include families with early onset colon or endometrial cancer (before age 50), multiple primary cancers in an individual, and multiple generations affected with colon and endometrial cancer. Also, individuals with Lynch Syndrome are at increased risk to develop other gastrointestinal cancers (i.e., stomach and pancreatic cancer), ovarian and urinary tract cancers.

How can an increased likelihood for colon and endometrial cancer be inherited?

A person inherits an increased risk to develop colon and endometrial cancer if they inherit a mutation in one of several genes associated with Lynch syndrome. These genes are called MLH1, MSH2, MSH6, PMS2, and EPCAM. When these genes are working properly, their job is to suppress tumor growth and to protect us from cancer. An inherited mutation in these genes may be the first step in an accumulation of errors in many other genes that can lead to a cell becoming cancerous. This is also why individuals with one Lynch syndrome gene mutation may be diagnosed with colon or endometrial cancer before the age of 50, and may develop multiple primary cancers.

What are the chances of inheriting a Lynch syndrome gene mutation?

All individuals have two copies of each gene, one copy from each parent. If an individual carries a Lynch syndrome mutation, it was most likely inherited from one of his parents. There is a 50% chance that siblings and children of a person who carries a mutation will have inherited it as well.

What if testing reveals a mutation in one of these genes?

Individuals who inherit an MLH1, MSH2, MSH6, PMS2, or EPCAM mutation have an increased risk for developing colon cancer and endometrial cancer (for women). Additionally, there are increased risks for other types of cancer, including upper GI, pancreatic, ovarian and urinary tract cancers. These risks may vary from family to family and from one individual to another. Individuals with Lynch Syndrome have a 55%–85% chance of developing colon cancer by age 70. The risk for women to develop endometrial cancer ranges from 30%–60% by age 70.

What if testing does not detect a Lynch syndrome gene mutation?

The implications of negative results will vary depending on the personal and family history of the individual being tested. Results are more meaningful if someone else if the family has tested positively. It is important to report any genetic testing results of your family members to the genetic counselor to help clarify your own result.

If someone has a Lynch syndrome gene mutation, what are the options?

A person with Lynch syndrome has several choices that should be discussed with their physician. Enhanced screening methods can help find cancers at the earliest possible stage when they are most easily treated. Regular colonoscopy and upper GI evaluation should be discussed with one’s physician.

Another option is to have surgery to remove at-risk tissue before cancer develops. An example of this would be a total removal of the uterus and ovaries to reduce the risk of endometrial and ovarian cancer, or a sub-total colectomy to reduce the risk of colon cancer. It is important to note that while surgery provides the greatest form of cancer risk reduction, no surgery can completely eliminate one’s chances of getting cancer in the future.

What are the possible risks and benefits of Lynch syndrome testing?

The decision to have genetic testing for cancer risk is a complicated one. Individuals and families must not only weigh the risks and benefits of testing, they must also consider their unique situations. The process of genetic testing may be emotionally difficult regardless of whether a mutation is found.

Currently, it is against the law for medical insurance companies or employers to discriminate based on genetic testing. Genetic information may be considered by other insurance policies, like disability, long-term care or life insurance.

Learning about a Lynch syndrome mutation can help individuals make informed decisions about their health care.

Other screenings

Hereditary pancreatic cancer

Approximately 10% of pancreatic cancers are hereditary. You may benefit from cancer genetic counseling if you have multiple cases of pancreatic cancer in your family. You may also consider genetic counseling if in addition to pancreatic cancer there is early onset breast or colon cancer, ovarian cancer, prostate cancer, or multiple cases of melanoma in your family.

Hereditary polyposis

Mutations in one of several different genes can cause hereditary colon cancer associated with a high number of colon polyps, specifically adenomas. If you or someone in your family has had more than 10 cumulative adenomatous polyps, a genetic consultation may be appropriate.

Hereditary prostate cancer

Recent advances in genetic testing have identified several genes associated with a hereditary cause for prostate cancer. You may benefit from cancer genetic counseling if you have several men with prostate cancer in your family or if you or a close relative has metastatic, “high-risk”, or “very high-risk” prostate cancer. Furthermore, if you or a close relative has prostate cancer and you are of Ashkenazi Jewish ancestry, you likely qualify for genetic testing. You may also consider genetic counseling if in addition to prostate cancer there is early onset breast, ovarian, or pancreatic cancer in your family.

Hereditary melanoma

Melanoma is rarely hereditary, but is sometimes associated with other hereditary cancer syndromes. You may benefit from cancer genetic counseling if you have multiple cases of melanoma in your family. You may also consider genetic counseling if in addition to melanoma there is early onset breast, ovarian cancer, or pancreatic cancer in your family.

Familial medullary thyroid cancer

A more unusual type of thyroid cancer, called medullary, has in increased likelihood to be hereditary. This is especially likely if there is a family history of cancers in other endocrine or glandular tissues (pheochromocytomas, carcinoid tumors, parathyroid adenomas or paragangliomas).