Sugar – Cancer’s Fuel
Dr. Otto Wartburg and other health experts have been talking about how cancer loves sugar since the 1920s, but surprisingly many doctors don’t tell their cancer patients that as long as they continue to eat processed foods full of the stuff, they will likely have a more difficult time fighting this disease.
The German physiologist, leading biochemist, medical doctor, and Nobel laureate was convinced that you could starve cancer right out of the body. While it may not always be that easy, this is something that could significantly change the game.
His theory was that malignant cells and tumor growth was caused by cells that generated energy via adenosine triphosphate (ATP) through a nonoxidative breakdown of glucose (sugar). The recycling of the metabolite from this process called glycolysis and the circulation of adhA back into the body caused anaerobic respiration. This is the reverse of what happens with healthy cells. Healthy, non-cancerous cells generate energy for the body to use through the oxidative breakdown of pyruvate, the end product of glycolysis, which leads to oxidized mitochondria. He therefore concluded that cancer was really a mitochondrial dysfunction. The normal process of respiration of oxygen in the body is changed to the fermentation of sugar. If you remove the sugar, the body should not develop cancer.
WASHINGTON, June 2, 2016 /PRNewswire-USNewswire/ — The pace of science is yielding remarkable innovation for cancer patients as we learn more about the underlying factors driving the spread and growth of cancer. These advances are opening new doors for treatment across a number of cancers, and at this week’s annual meeting of the American Society of Clinical Oncology (ASCO), we expect exciting new research on how novel waves of treatments may be able to further halt the spread of deadly cancers.
To celebrate this progress, a new PhRMA report, “A Decade of Innovation in Cancer,” highlights several cancers where significant advances over the past decade have transformed the way we treat the more than 200 diseases we call cancer, driving increased survival and better quality of life.
Here are some highlights from the report:
- Melanoma: A wave of immunotherapies has transformed the treatment of the metastatic disease. Before 2011, the median survival for metastatic melanoma patients was less than a year – recently released data show that in one clinical trial, 40 percent of metastatic melanoma patients have survived three years after initiating immunotherapy.
- Breast cancer: Personalized medicines have opened important new doors for patients with HER2-positive breast cancer, which tend to be more aggressive than other types of breast cancer. One of these promising new therapies, calledantibody drug conjugates, links powerful chemotherapy agents to an antibody, helping to steer the medicine directly to the tumor. These “smart bombs” enable the precise delivery of the medicine directly to the cancer cells, resulting in tumor shrinkage and prolonged survival.
- Cervical cancer: Virtually all cervical cancer is caused by the human papilloma virus (HPV), with several strains being identified as increasing that risk. Since the introduction of the first HPV vaccines, prevalence of HPV infection has dropped 64 percent among girls ages 14 to 19, helping to protect against cervical cancer.
- Lung cancer: Researchers have uncovered a number of genetic mutations that cause uncontrolled cancer cell growth. In advanced non-small cell lung cancer (NSCLC), several targeted therapies have emerged that interrupt those pathways, halting cancer growth. Two-thirds of advanced NSCLCs have a genetic mutation that can directly point to treatment, and more are continually being discovered.
As researchers continue to uncover additional important new uses for these medicines, we learn that genetic mutations driving cancer cell growth may be present among a variety of cancers. Similarly, the pathways by which cancers evade our immune system are present among a variety of cancers, and we are seeing the application of immunotherapies across a number of disease areas. In fact, the first immunotherapies for bladder cancer and for Hodgkin lymphoma were recently approved, and a new type of cellular immunotherapy, CAR-T, looks to take individualized immune-therapy to the next level. CAR-T extracts a patient’s own T-cells and re-engineers them to recognize cancer cells. When reintroduced, these “hunter” immune cells can recognize, zero in on and kill cancer cells.
As the burden of cancer grows in the coming years, these treatment advances, and those to come, like CAR-T therapy, will provide an important foundation for new waves of treatment options, offering patients and their loved ones a brighter outlook for the future. This progress also underscores the need to maintain an ecosystem that fosters the development of tomorrow’s cancer treatments and cures.
Learn more about how America’s biopharmaceutical research companies are fighting cancer here.
This post originally appeared here: http://catalyst.phrma.org/new-report-decade-of-breakthroughs-in-cancer
Contact: Holly Campbell; 202-835-3460; firstname.lastname@example.org