Testicular cancer is usually found as a result of symptoms that a person is having. It can also be found as a result of tests for another condition. Often the next step is an exam by a doctor.
The doctor will feel the testicles for swelling or tenderness and for the size and location of any lumps. The doctor will also examine your abdomen, lymph nodes, and other parts of your body carefully, looking for any possible signs of cancer spread. Often the results of the exam are normal aside from the testicles. If a lump or other sign of testicular cancer is found, testing is needed to look for the cause.
Ultrasound of the testicles
An ultrasound is often the first test done if the doctor thinks you might have testicular cancer.
This test uses sound waves to produce images of internal organs. A transducer (wand-like instrument) gives off sound waves and picks up the echoes as they bounce off the organs. A computer creates an image on a monitor from the pattern of the echoes.
The pattern of echoes can be used to distinguish certain benign conditions (like hydrocele or varicocele), from a solid tumor that could be a cancer. If the lump is solid, then it’s more likely to be a cancer, so the doctor will recommend further tests or even surgery to remove the testicle.
Ultrasound is an easy test to have and it uses no radiation. You are on your back on a table as the technician moves the transducer along the skin of the scrotum. Usually, the skin is first lubricated with gel.
Blood tests for tumor markers
Some blood tests can help diagnose testicular tumors. Many testicular cancers make high levels of certain proteins called tumor markers, such as alpha-fetoprotein (AFP) and human chorionic gonadotropin (HCG). When these tumor markers are in the blood, it suggests that there is a testicular tumor.
Rises in AFP or HCG can also help doctors tell which type of testicular cancer it might be. Non-seminomas often raise AFP and/or HCG levels. Pure seminomas occasionally raise HCG levels but never AFP levels, so any increase in AFP means that the tumor has a non-seminoma component. (Tumors can be mixed and have areas of seminoma and non-seminoma.) Sertoli and Leydig cell tumors do not make these substances. Some cancers are too small to elevate levels of these tumor markers.
A testicular tumor might also increase the levels of an enzyme called lactate dehydrogenase (LDH). LDH levels can also be increased in conditions other than cancer. A high LDH level often (but not always) indicates widespread disease.
Tumor marker tests sometimes are also used for other reasons, such as to help estimate how much cancer is present (see “How is testicular cancer staged?”), to follow the patient’s response to treatment, or to look for signs the tumor might have returned.
Surgery to diagnose testicular cancer
Most types of cancer are diagnosed by removing a small piece of the tumor and looking at it under a microscope for cancer cells. This is known as a biopsy. But a biopsy is rarely done for a testicular tumor because it might risk spreading the cancer. The doctor can often get a good idea of whether it is testicular cancer based on the ultrasound and blood tumor marker tests, so instead of a biopsy the doctor will very likely recommend surgery to remove the tumor as soon as possible.
The operation to remove a testicular tumor or cancer is called a radical inguinal orchiectomy. In this procedure, the surgeon makes a cut (incision) just above the pubic area and then removes the entire tumor along with the testicle and spermatic cord. The spermatic cord contains part of the vas deferens, as well as blood and lymph vessels that could act as pathways for testicular cancer to spread to the rest of the body. To lessen the chance that cancer cells will spread, these vessels are tied off early in the operation.
The entire specimen is sent to the lab, where a pathologist (a doctor specializing in laboratory diagnosis of diseases) looks at pieces of the tumor under a microscope. If cancer cells are found, the pathologist sends back a report describing the type and extent of the cancer.
In rare cases, when a diagnosis of testicular cancer is uncertain, the doctor may biopsy the testicle before removing it. This is done in the operating room. The surgeon makes a cut above the pubic area, withdraws the testicle from the scrotum, and examines it without cutting the spermatic cord. If a suspicious area is seen, a portion of it is removed and looked at right away by the pathologist. If cancer is found, the testicle and spermatic cord are then removed. If the tissue is not cancerous, the testicle can often be returned to the scrotum, and treatment will be surgery to remove only the tumor or the use of appropriate medicines.
If testicular cancer is found, your doctor will order imaging tests of other parts of your body to check for spread outside the testicle. These tests may also be ordered before the diagnosis is confirmed by surgery.
Imaging tests use x-rays, magnetic fields, sound waves, or radioactive substances to create pictures of the inside of your body. Ultrasound of the testicles, described above, is a type of imaging test. Other imaging tests may be done for a number of reasons after a testicular cancer diagnosis, including:
- To learn how far cancer might have spread
- To help determine if treatment has been effective
- To look for possible signs of cancer coming back after treatment
Computed tomography (CT) scan
CT scans can be used to help determine the stage (extent) of the cancer by showing if it has spread to the lymph nodes, lungs, liver, or other organs.
The CT scan uses x-rays to produce detailed cross-sectional images of your body. Instead of taking one picture, like a standard x-ray, a CT scanner takes many pictures of the part of your body being studied as it rotates around you. A computer then combines these pictures into an image of a slice of your body. Before the test, you might be asked to drink a contrast solution and/or get an intravenous (IV) injection of a contrast dye that helps better outline structures in the body. You may need an IV line to inject the contrast dye. The injection can cause some flushing (redness and a warm feeling that often lasts seconds). Some people are allergic to the dye and get hives. Rarely, more serious reactions like trouble breathing and low blood pressure can occur. Medicine can be given to prevent and treat allergic reactions. Be sure to tell the doctor if you have any allergies or if you have ever reacted to any contrast material used for x-rays.
A CT scanner has been described as a large donut, with a narrow table that slides in and out of the middle opening. You need to lie still on the table while the scan is being done. CT scans take longer that regular x-rays, and you might feel a bit confined by the ring you have to lie in while the pictures are being taken.
CT guided needle biopsy: CT scans are sometimes used to guide a biopsy needle precisely into a suspected area of cancer spread. For this procedure, you stay on the CT scanning table while a doctor advances a biopsy needle through the skin toward the mass. CT scans are repeated until the doctor can see that the needle is within the mass. A fine needle biopsy sample (tiny fragment of tissue) or a core needle biopsy sample (a thin cylinder of tissue) is then removed and examined under a microscope.
Magnetic resonance imaging (MRI) scan
MRI scans are particularly helpful in looking at the brain and spinal cord. They are only done in patients with testicular cancer if the doctor has reason to think the cancer might have spread to those areas.
Like CT scans, MRI scans provide detailed images of soft tissues in the body. But MRI scans use radio waves and strong magnets instead of x-rays. The energy from the radio waves is absorbed and then released in a pattern formed by the type of body tissue and by certain diseases. A computer translates the pattern into a very detailed image of parts of the body. A contrast material might be injected just as with CT scans. MRI scans take longer than CT scans – often up to an hour – and are a little more uncomfortable. You lie on a table that slides inside a narrow tube, which is confining and can upset people with a fear of enclosed spaces. Special, more open MRI machines can help with this if needed, but the images may not be as sharp in some cases. The MRI machine makes buzzing and clicking noises, so some places will provide earplugs to help block this out.
Positron emission tomography (PET) scan
A PET scan can help spot small collections of cancer cells in the body. It is sometimes useful to see if lymph nodes that are still enlarged after chemotherapy contain cancer or are just scar tissue. PET scans are often more useful for seminomas than for non-seminomas, so they are less often used in patients with non-seminoma.
For this test, a form of radioactive sugar (known as fluorodeoxyglucose or FDG) is injected into a vein (IV). (The amount of radioactivity is very low and will pass out of the body over the next day or so.) Because of the way cancer cells in the body grow rapidly, they often take up and use more of the radioactive sugar. After about an hour, you will be moved onto a table in the PET scanner. You lie on the table for about 30 minutes while a special camera creates a picture of areas of radioactivity in the body. The picture is not finely detailed like a CT or MRI scan, but it can provide helpful information about your whole body.
Many centers have special machines that can do both a PET and CT scan at the same time (PET/CT scan). This lets the doctor compare areas of higher radioactivity on the PET with the more detailed appearance of that area on the CT.
A bone scan can help show if a cancer has spread to the bones. It might be done if there is reason to think the cancer might have spread to the bones (because of symptoms such as bone pain) and if other test results aren’t clear.
For this test, a small amount of low-level radioactive material is injected into a vein (IV). The substance settles in areas of bone changes throughout the entire skeleton over the course of a couple of hours. Then, you lie on a table for about 30 minutes while a special camera detects the radioactivity and creates a picture of your skeleton.
Areas of active bone changes attract the radioactivity and show up as “hot spots.” These areas may suggest metastatic cancer, but arthritis or other bone diseases can also cause the same pattern. To distinguish among these conditions, your cancer care team may use other imaging tests such as plain x-rays or MRI scans to get a better look at the areas that light up, or they may even take biopsy samples of the bone.
Last Revised: 02/12/2016