This section contains the latest highlighted research for patients from ASCO medical journals, including the Journal of Clinical Oncology, as well as an archive of research highlights from previous ASCO scientific meetings (2011-2015). For the latest research highlights from more recent ASCO meetings, visit the Cancer.Net Blog or check out Cancer.Net’s audio podcasts and videos for patients.
To search this archive, use the drop-down menu below. You can select a specific year, meeting or publication, and/or a specific topic, such as a type of cancer. Selecting "All" will take you to a complete list of articles that appear under all categories.
A small analysis of a larger study showed that combining two different targeted therapy drugs, dabrafenib and trametinib, stopped advanced melanoma from worsening while causing less severe side effects than the current standard targeted therapy drug. Targeted therapy is a treatment that targets a cancer's specific genes, proteins, or the tissue environment that contributes to cancer growth and survival. Specifically, dabrafenib targets changes in the BRAF gene, and trametinib targets changes in the MEK gene to stop melanoma growth.
Researchers participating in the Lung Cancer Mutation Consortium (LCMC) program are looking at the genetic changes, called mutations, that drive lung cancer growth to help recommend treatment options. The LCMC program was designed to show that testing a patient's tumor for mutations at diagnosis is possible, and that doctors can use the results to recommend the most appropriate targeted therapy or clinical trial (research study involving patients). Targeted therapy is a treatment that targets the cancer's specific genes, proteins, or the tissue environment that contributes to cancer growth and survival.
An early study of melanoma showed that combining two types of targeted therapies was safe and slows or stops melanoma growth. Targeted therapy is a treatment that targets a cancer's specific genes, proteins, or the tissue environment that contributes to cancer growth and survival. One of the targeted therapies used in this study, called GSK212, targets mutations (changes) to the gene called MEK. The other, called GSK436, targets mutations to the gene called BRAF. Both of these genes contribute to melanoma growth, and both treatments have been shown to help treat melanoma when used alone. In this ongoing study, researchers aim to find out if combining the drugs is safe and more effective for patients with advanced melanoma.
A new program at The University of Texas M.D. Anderson Cancer Center showed that specifically matching targeted therapy to genetic changes in the tumors of patients with advanced cancer, an approach called personalized medicine, better controlled tumor growth and increased survival. Targeted therapy is a treatment that targets the cancer's specific genes, proteins, or the tissue environment that contributes to cancer growth and survival. Not all cancers have the same targets, and targeted therapy is often chosen based on the genes, proteins, and other factors involved in a person's cancer.
Knowing a patient's risk of recurrence could help doctors plan treatments, making sure that patients with a high risk of recurrence receive the appropriate treatment and helping patients with a low risk avoid side effects of additional treatments. To help predict the risk of recurrence, doctors use clinical factors, such as the stage, the number of lymph nodes that have cancer, and whether the cancer is blocking or has broken through the bowel. However, these cannot always reliably predict a patient's prognosis (chance of recovery).