Thermography is a tool which identifies breast cancer that uses super-sensitive infrared cameras and computer technology to detect heat on the surface of a patient’s breast. The presence of such heat is sometimes the result of intensive chemical and blood vessel activity that is characteristic of precancerous or cancerous tissue.Although some health professionals support the use of thermography (also known as digital infrared imaging).It may not detect small cancers or tumors deeper in the breast and it cannot pinpoint the location of a tumor. Two factors cause cancerous cells to generate heat that theoretically can be detected during thermography:Higher metabolic activity of cancer tissue compared to normal tissue. Cancer cells have higher rates of metabolism (physical and chemical processes in the body) than normal tissues. This higher metabolism registers as an increase in the surface temperature of the breast near the cancerous tissue. This is detected by the infrared camera.Angiogenesis. A cancerous tumor produces a chemical that promotes the development of blood vessels that supply the tumor with the nutrients it needs to keep growing. In addition, the cancer causes normal blood vessels to dilate (open) to provide even more blood to the forming tumor. Both of these activities produce additional heat which may be detected by the infrared camera.The infrared camera used during thermography converts infrared radiation emitted from the skin into electrical impulses and feeds the information into a computer. The computer analyzes the temperature and vascular (blood vessel) changes and produces high-resolution images known as thermograms. These images can be displayed on a monitor for analysis, with areas of raised temperature appearing red and areas of normal temperature appearing blue. They can also be printed or sent to another physician electronically.Thermography has been tested and researched since the 1950s. It originally involved the use of contact plates that measured the heat emitting from the breasts, although thermograms are now produced digitally. In 1982, the U.S FDA approved the use of thermography to help detect breast cancer and some circulation disorders, such as deep vein thrombosis and conditions relating to blood flow in the head and neck.Proponents of thermography claim that the technique can detect signs of precancerous or cancerous cells far earlier than other imaging techniques. For example, mammography technology cannot detect cancer until a tumor has actually begun to form, which may take several years. Thermography is designed to detect the formation of new blood vessels and chemical changes that occur very early in a tumor’s development. Some experts contend that thermography can identify signs of the formation of breast cancer up to 10 years before any other technique can detect them.In addition, thermography is touted as having certain advantages over traditional mammography procedures. During thermography, the machine does not touch the breast, in contrast to the squeezing of the breast that occurs during mammography. In addition, patients are not exposed to the potentially harmful radiation used in mammography.However, many experts have expressed doubts about the effectiveness of thermography in diagnosing breast cancer. For example, the American Cancer Society maintains that thermography is not a reliable diagnostic tool because it misses some cancers and has a high rate of false positives. The ACS warns that thermography should never be used as a replacement for mammograms.Other experts have also criticized thermography for producing too many false results, and have argued that the technique cannot detect the heat of cancers located deep in the breast or under fatty areas. It has also been noted that not all cancers emit heat, and thus would not be revealed by a thermogram.Still, some experts support thermography as a valuable tool in detecting breast cancers. Experts generally agree that thermography should not be used as a stand-alone diagnostic tool, but rather should be used with other diagnostic tools, such as mammograms, ultrasounds and physical examinations.
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