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Here are some of the latest innovations in cancer treatment. From the Alliance for Nanotechnology in Cancer to the Center for Cancer Genomics to the medical oncology associates of San Diego, learn about the newest treatments for your cancer type. And learn about the latest research in personalized medicine for head and neck cancer. You can also ask medical experts about the latest developments in the field. And learn about the latest cancer research from top experts in San Diego.
Alliance for Nanotechnology in Cancer
The National Institutes of Health launched the Alliance for Nanotechnology in Cancer (ANC) program in September 2004 to advance clinical trials for cancer treatments with new nanotechnology. The Alliance funds academic groups to develop novel materials and technologies for cancer research, supporting large multidisciplinary projects and smaller Cancer Nanotechnology Platform Partnerships. These projects are supported through the Alliance’s Nanotechnology Characterization Laboratory, which serves as a centralized resource for nanotechnology researchers.
Members of the Alliance are developing novel chemotherapeutics that deliver them through nanomaterial-based delivery platforms. These delivery platforms are expected to reduce toxicity and improve the efficacy of chemotherapeutics. One such technology is the NanoFlare, a spherical nucleic acid with a gold nanoparticle core and single-strand DNA “flares” that detect cancer cells in the bloodstream before they settle and form a tumor.
Center for Cancer Genomics
A comprehensive cancer center with a world-class cancer genomics program will help patients decide on treatment options. The development of robust genomic sequencing technologies has made oncologists more efficient than ever. In addition, these technologies require access to specialized teams of oncology experts who have a deep understanding of basic molecular biology. The experts will translate tumor genotypes into individualized cancer treatment plans.
At UC San Diego Health, Dr. Andrew Lowy leads a multidisciplinary team to create the world’s first personalized cancer clinic. The center will help patients and physicians identify risk factors, develop a customized prevention and early detection plans, and improve overall health. The center is a Cancer immunotherapy
In an Ironman World Championship on October 14, 2018, San Diego cancer survivor Mike Levine will face off against cancer. Cancer remains a significant cause of death for African-American women despite recent advances. Medical oncology experts at UC San Diego Health have been researching the latest technologies and treatments for the disease. Dr. Anne Wallace, the lead author of the study, explains how CAR T-cell therapy can help to treat cancer.
Recent advances in precision medicine have helped to improve cancer treatment and cure. This new technology is already transforming the way doctors treat cancer. Researchers use tumor-specific genetic markers to help doctors find drugs that are more likely to have favorable effects on a patient’s specific cancer. For example, a new study has identified two more effective medications for lung cancer than others. In addition, in a study published in Cancer Cell, researchers found that a new drug that targeted cancer-related genes improves patient outcomes.
Personalized medicine for head and neck cancer
Personalized medicine for head and neck cancer is a relatively new field of research, with advances in big data enabling researchers to target drugs and treatments based on patient genetic makeup and tumor characteristics. This technology can help clinicians and researchers develop new therapies and improve patient outcomes. It will also give researchers insight into why immunotherapy for head and neck cancer is not working as well as they would like. But before we get too excited, let’s explore some key factors that may help make this approach a reality.
Currently, most head and neck cancer treatments are based on conventional chemotherapy and radiation therapy. Advanced cases, however, often require combinations of these two therapies. For example, one recent study from UCLA used a camera system that could image tumors intraoperatively. This new technology would allow surgeons to target tumors better and perform head and neck surgery. Researchers are also working on new imaging techniques used in robotic surgeries.