How does diagnosis determine treatment?

Historically, a combination of pathological assessment (laboratory evaluation using a microscope) and diagnostic imaging has been used to identify the type of cancer and its stage, and then the treatment. Stage indicates how extensive the cancer is and how much it has spread. Staging usually involves determining the size of the primary tumor and evaluating whether it has remained in the tissue in which it started, whether it has invaded other nearby organs or tissues, and whether cancer cells have spread to distant locations in the body. The cancer is then assigned a stage on a predetermined scale of numbers and letters, for example stage I, II, IIIa, IIIb, IV, etc. The higher number and letter combination indicates more extensive spread, and therefore a more serious condition. Treatment is often selected based on the stage of disease. Higher stage cancers typically receive very aggressive treatments and lower stage disease less aggressive treatment.

However, research has indicated that identifying the stage of disease may not be the most accurate technique for determining how aggressive it is. For example, some early stage diseases may recur or progress even after treatment, while some late stage cancers may stay in remission. These findings suggest that there may be factors other than how the cancer looks under a microscope and how far it has spread at the time of diagnosis that may better indicate the likelihood that a given cancer will recur and/or progress.

Human genomics, which is the study of the entire genetic material of humans, has provided invaluable tools for identifying the genetic components of cancers. The mapping of the human genome, which consists of 30,000 to 70,000 genes, has laid the ground work for understanding the role those genes play in human health and disease. Cancer is many different diseases; however, one aspect of all cancers that is similar is damage to the DNA resulting in uncontrolled cell growth. Identifying the genes for each cancer type that are involved in the capacity grow and spread may provide valuable prognostic information.

As improvements are made in the special laboratory techniques used to identify the genetic make-up of cancers, this genetic information may become a better predictor of cancer aggressiveness and outcome than stage, which has been the diagnostic indicator of choice in the past. Additionally, this genetic information will likely play an increasing role in directing treatment. Specifically, the genes involved in each cancer may indicate more aggressive treatment for some cancers and less aggressive treatment for others.

Introduction to Cancer Treatment

Overview of Cancer Treatments

Choice of cancer treatment is influenced by several factors, including the specific characteristics of your cancer; your overall condition; and whether the goal of treatment is to cure your cancer, keep your cancer from spreading, or to relieve the symptoms caused by cancer. Depending on these factors, you may receive one or more of the following:

* Surgery
* Chemotherapy
* Radiation therapy
* Hormonal therapy
* Targeted therapy
* Biological therapy
One or more treatment modalities may be used to provide you with the most effective treatment. Increasingly, it is common to use several treatment modalities together (concurrently) or in sequence with the goal of preventing recurrence. This is referred to as multi-modality treatment of the cancer.