Breast cancer other imaging studies: Difference between revisions

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Soroush Seifirad, M.D.[2]Ammu Susheela, M.D. [3]

Overview

Other diagnostic studies for breast cancer include modified MRI utilities (high-field strength MRI, magnetic resonance spectroscopy, and diffusion weighted imaging), breast-specific gamma imaging, positron emission mammography, scintimammography, thermography and bone scan.

Scintimammography or breast-specific gamma imaging (BSGI)

• Gamma cameras with 2 to 3 mm in-plane resolution in a mammographic configuration are used
• Concept of BSGI is based on the accumulation of technetium-99m sestamibi in intracellular mitochondria of breast cancers cells.

• Compared to normal cells there is an increased number if intracellular mitochondria in breast cancer cells.

• Procedure

• First 25 mCi of technetium-99m sestamibi is being injected intravenously
• Following the injection of the radioisotope, The patient is scanned for 5 to 10 minutes.
• Mild breast compression is applied as of conventional mammography.
• Craniocaudal and mediolateral oblique views for each breast
• This is an adjuvant imaging method and hence images will be interpreted with respect to the patient's mammograms, ultrasounds, and clinical findings.
• If indicated, BSGI compatible biopsy system is available to direct tissue sampling for the patients with small lesions not seen on other imaging modalities.

• Compared to MRI, BSGI showed an equal sensitivity and higher specificity for the detection of breast cancer.
• BSGI is recommended for use in the preoperative assessment of disease extension in breast cancer patients. or:

• To check breast lumps that do not show up clearly on a mammogram because of:

• Scar tissue from previous surgery or radiation therapy
• Dense breast tissue
• Breast implants

• When multiple tumors are seen in the breast
• To scan the lymph nodes in the armpit (axilla) to see if they contain cancer

• Because of a very limited available DATA at the moment, BSGI is not recommended for screening or as a tool to exclude the likelihood of malignancy in suspicious breast masses or abnormal mammography.

Bone Scan

• A bone scan uses bone-seeking radioactive materials (radiopharmaceuticals) and a computer to create a picture of the bones. It is used to see if breast cancer has spread (metastasized) to the bones.
• A bone scan may be done if:

• Alkaline phosphatase in the blood is increased
• There are lymph nodes in the armpit (axillary lymph nodes) that can be felt
• The primary breast tumor is larger than 5 cm
• The woman has aches and pains that may be caused by bone metastases

• A bone scan is not done in women who have stage I breast cancer.

Thermography

• Digital infrared thermal imaging (DITI) is a type of thermography which is used in the screening of breast cancer
• An infrared thermal camera takes pictures of the areas of different temperature in the breasts.
• The camera displays these patterns as a sort of heat map.
• Since the presence of cancerous growth is associated with the excessive formation of blood vessels and inflammation in the breast tissue.
• On the infrared images, these higher temperatures could be detected.

Benefits

• Non-invasive procedure
• Non-contact procedure (does not compress the breast)
• No exposure to radiation, (safe)
• It can detect vascular changes in breast tissue associated with breast cancer many years in advance of other methods of screening.
• It can be used for all women, including those with dense breast tissue and breast implants.
• Hormonal changes do not affect results.

Drawbacks

• High false-positive rate
• High false-negative rate
• Rarely covered by medical insurance
• The high false-positive and false-negative rates associated with thermography often mean that the woman will need a standard mammogram anyway.

Positron emission mammography

• PEM is still under investigation.
• High-resolution fluorodeoxyglucose PEM with compression with 2 mm in-plane resolution has been studied for detection of small malignancies
• The procedure

• This is a modified PET scan method and hence patients are prepared as for PET scan.
• Mild compression as of conventional mammography
• Craniocaudal and mediolateral oblique views for each breast
• This is an adjuvant imaging method and hence images will be interpreted with respect to the patient's mammograms, ultrasounds, and clinical findings.
• if indicated, PEM-compatible biopsy system is available to direct tissue sampling for the patients with small lesions not seen on other imaging modalities.
• Sensitivity 86 to 91 percent
• Specificity91 to 93 percent
• Major drawback is that PEM cannot reliably detect low-grade malignancies.
• Hence, PEM is not recommended for screening or as a tool to exclude the likelihood of malignancy in suspicious breast masses or abnormal mammography.
• Nevertheless PEM is promising for the preoperative assessment of disease extension

Reference