Breast Health

3D mammography (tomosynthesis) is an FDA-approved technology that complements conventional 2D mammography. While traditional mammography generates 2D images, 3D mammography creates multiple thin 3D image slices that allow each section of the breast tissue to be seen more clearly.

Your provider may request a breast biopsy if a lump or abnormality is found during screening. A biopsy is a very accurate, minimally invasive method of locating and removing tissue for further investigation. Image-guided biopsy allows patients to avoid hospitalization and general anesthesia (previously necessary with traditional surgical biopsy). It is a valuable method of getting a fast, accurate, conclusive diagnosis—without unnecessary time, pain or expense to the patient.

Depending on your medical needs, we provide different diagnostic biopsy procedures:

• Stereotactic biopsy uses mammography to precisely guide clinicians to a lump or abnormality that can’t be felt or seen on ultrasound. Clinicians see a 3D picture of the lump’s exact location.

• MRI-guided biopsy uses MRI to guide the radiologist to the exact location of the lump. MRI biopsy is usually used when the lump can be seen on breast MRI, but cannot be readily seen on mammogram or ultrasound.

What happens during a biopsy procedure?

While the biopsy is performed, you will either remain seated in a comfortable, upright position or you will lie face down on a special table that allows your breast to be placed in an opening. The radiologist performs a core needle or vacuum-assisted biopsy (see below) while your breast is somewhat compressed in the mammographic biopsy system. You can return home in 30 minutes.

• Vacuum-assisted biopsy devices are used for stereotactic and MRI guided biopsy and selected="selected" ultrasound guided biopsies. The device is a special probe that applies suction and allows retrieval of more tissue. Breast tissue is drawn into the sampling chamber of the probe with the vacuum and then cut. Several pieces of tissue are always obtained during biopsies, regardless of the type of needle used.

• In a core needle biopsy, the radiologist locates the lump or abnormality that can be seen on a mammogram, sonogram or MRI. A hollow core needle is then placed inside the abnormality. The needle will then withdraw a small amount of tissue that will be sent to a lab for analysis. Prior to the procedure, you will be given some local anesthetic similar to the anesthetic used for dental procedures to numb the area. You may feel some pressure and mild discomfort but most patients do not feel pain. The doctor will insert the needle several times to get adequate tissue samples. After the procedure, you can resume normal activities immediately. You may experience some slight bruising but should not have a scar. It may take several days to one week to obtain results from the lab.

Breast cancer is the second most common cancer in women (after lung cancer), and early detection of breast cancer vastly increases survival rates. Scheduling a regular mammogram is one of the most important things you can do to ensure your well-being and take control of your health. We provide advanced screening and diagnostic procedures, such as Breast MRI and a range of biopsies. We offer a comprehensive breast imaging services.

Some women — because of their family history, a genetic tendency or certain other factors — should be screened with MRI in addition to mammograms. The number of women who fall into this category is small: less than 2 percent of all the women in the United States. Talk with your doctor about your history and whether you should have additional tests.

Ultrasound uses sound waves instead of X-rays to examine breast tissue. A transducer is passed over the breast. The transmitted sound waves are translated into a picture on a monitor. It does not cause discomfort and, because it does not use radiation, it carries very little risk.

Mammography is a type of low-dose X-ray of the breast. It reveals masses and micro-calcifications within and around the breast that may indicate breast problems including, but not just limited to cancer.

Magnetic resonance imaging (MRI) is a special diagnostic test that produces very clear, detailed pictures of internal organs and structures in your body, including a detailed image of your baby. The test uses a powerful magnetic field, radio waves and a computer to create images in cross-section.

While an X-ray is very good at showing bones, an MRI lets your health care provider see structures made of soft tissue and diagnose conditions that may not be adequately assessed using other methods, such as X-ray. And unlike X-ray, MRI does not use radiation.

During pregnancy, fetal MRI can be used to gain information about your baby’s brain, chest and abdomen that cannot be gathered from ultrasound alone. This information helps your doctor to better understand how various abnormalities may affect your child’s development during pregnancy and in the future.

3D mammography (tomosynthesis) is an FDA-approved technology that complements conventional 2D mammography. While traditional mammography generates 2D images, 3D mammography creates multiple thin 3D image slices that allow each section of the breast tissue to be seen more clearly.

New imaging software used with our 3D mammogram units enables us to offer a lower-dose 3D exam. The software eliminates the need to obtain additional 2D images as part of the 3D exam, as previously required. This reduces the radiation dose, making it similar to that of a traditional 2D mammogram.

A 3D mammogram looks and feels like a regular mammogram. An x-ray arm scans over your breast taking multiple 3D images at various angles. Each scan takes about 4 seconds and the entire 3D mammogram lasts about 15-20 minutes.

MRI-guided biopsy uses MRI to guide the radiologist to the exact location of the area of concern. MRI biopsy is usually used when the abnormality can be best seen on breast MRI, but not as well visualized on mammogram or ultrasound. Often lesions that are biopsied are done under the imaging modality that best demonstrates them.

Stereotactic biopsy uses mammography to precisely guide clinicians to a lump or abnormality such as an area of calcification, that cannot be felt or seen on ultrasound. Clinicians see a 3D picture of the lump’s exact location.

Transvaginal ultrasound imaging of the abdomen uses sound waves to produce pictures of the structures and organs in and around a woman’s uterus. Transvaginal (TV) ultrasounds are performed very much like a gynecologic exam and involves the insertion of an ultrasound transducer into the vagina to study the lining of the uterus. These exams are frequently used to evaluate the reproductive and urinary systems. Ultrasound is safe, noninvasive and does not use ionizing radiation.