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Breast Cancer Treatment Heats Up
March 07, 2007Attaching Nanoscale Bioprobes to Cancer Cells—and Heating Them—Kills Malignant Cells, According to Pre-Clinical, Developmental Research in the March Journal of Nuclear Medicine
RESTON, Va.—In the March Journal of Nuclear Medicine, researchers demonstrate that miniscule bioprobes could be produced and used with molecularly targeted therapeutic heat to kill malignant breast cancer cells—without damaging nearby healthy tissue.
While many researchers have studied using heat in treating cancer, "the inability to deposit effective doses of heat in a tumor without applying similar heat to nearby normal tissue has prevented widespread clinical use," said Sally J. DeNardo, professor of internal medicine and radiology with the School of Medicine at the University of California Davis in Sacramento. "Our animal study, which combined the future-oriented sciences of nanotechnology and molecular imaging, shows that a method for delivering thermal ablation—removing or destroying cancer cells by using heat—is feasible," added the co-director of the university's radiodiagnosis and therapy section. "This exciting study—combining radiolabeled antibodies with nanoparticles or bioprobes—provides a new approach to direct thermal ablation specifically to tumor cells," she noted. DeNardo stressed that this heat treatment is in the preclinical, developmental stage, having been used only in lab mice; additional tests will need to be performed with cancer patients.
Such studies are important, explained DeNardo, indicating that breast cancer is the most common cancer among women (besides skin cancer). Statistics show that a woman has a 1 in 8 chance of developing breast cancer during her life. This year, about 200,000 women in the United States will be diagnosed with invasive breast cancer, and nearly 40,000 will die from the disease.
Scientists from UC Davis and Triton BioSystems in Boston, Mass., injected trillions of magnetic iron-containing bioprobes into the bloodstream of a lab mouse bearing a human cancer tumor. The magnetic iron nanoprobes—more than 10,000 of which can fit on the end of a straight pin—are concealed in polymers and sugars, making them nearly invisible to the body's immune system. Antibodies (joined with a radioactive substance) on these probes latched onto receptors that are on the surface of tumor cells. The heating of the probes can be activated and controlled by the use of a magnetic field from outside the body. By applying an alternating magnetic field to the tumor region, the magnetic spheres changed polarity thousands of times per second and created heat. This heat weakened—and destroyed—cancer cells. The bioprobes cooled off as soon as the alternating magnetic field was turned off and then passed out of the body. This process is described in detail in the JNM article, "Thermal Dosimetry Predictive for Efficacy of 111In-ChL6 Nanoparticle AMF-Induced Thermoablative Therapy for Human Breast Cancer in Mice."
"Using heat to kill cancer cells isn't a new concept. The biggest problems with using heat are how to apply it to the tumor cell alone, how to determine its effectiveness and how to predict the amount needed," said DeNardo. "By using heat—along with nanoparticles and a radiolabeled antibody—our quantitative imaging directed—and made safer—the application and development of therapy for cancer," she added. "This technique could join other cancer therapies, especially for cancers that are hard to treat now, such as breast cancer and metastatic melanoma," indicated DeNardo.
"Thermal Dosimetry Predictive for Efficacy of 111In-ChL6 Nanoparticle AMF-Induced Thermoablative Therapy for Human Breast Cancer in Mice" appears in the March issue of the Journal of Nuclear Medicine, which is published by SNM, the leading international molecular imaging and nuclear medicine society. Co-authors include Gerald L. DeNardo, Arutselvan Natarajan, Laird A. Miers and Grete N. Adamson, all with the School of Medicine, UC Davis, Sacramento; Allan R. Foreman and Robert Ivkov, both with Triton BioSystems Inc., Chelmsford, Mass.; and Cordula Gruettner, Micromod Partikeltechnologie, GmbH, Rostock-Warnemuende, Germany.
Society of Nuclear Medicine
Such studies are important, explained DeNardo, indicating that breast cancer is the most common cancer among women (besides skin cancer). Statistics show that a woman has a 1 in 8 chance of developing breast cancer during her life. This year, about 200,000 women in the United States will be diagnosed with invasive breast cancer, and nearly 40,000 will die from the disease.
Scientists from UC Davis and Triton BioSystems in Boston, Mass., injected trillions of magnetic iron-containing bioprobes into the bloodstream of a lab mouse bearing a human cancer tumor. The magnetic iron nanoprobes—more than 10,000 of which can fit on the end of a straight pin—are concealed in polymers and sugars, making them nearly invisible to the body's immune system. Antibodies (joined with a radioactive substance) on these probes latched onto receptors that are on the surface of tumor cells. The heating of the probes can be activated and controlled by the use of a magnetic field from outside the body. By applying an alternating magnetic field to the tumor region, the magnetic spheres changed polarity thousands of times per second and created heat. This heat weakened—and destroyed—cancer cells. The bioprobes cooled off as soon as the alternating magnetic field was turned off and then passed out of the body. This process is described in detail in the JNM article, "Thermal Dosimetry Predictive for Efficacy of 111In-ChL6 Nanoparticle AMF-Induced Thermoablative Therapy for Human Breast Cancer in Mice."
"Using heat to kill cancer cells isn't a new concept. The biggest problems with using heat are how to apply it to the tumor cell alone, how to determine its effectiveness and how to predict the amount needed," said DeNardo. "By using heat—along with nanoparticles and a radiolabeled antibody—our quantitative imaging directed—and made safer—the application and development of therapy for cancer," she added. "This technique could join other cancer therapies, especially for cancers that are hard to treat now, such as breast cancer and metastatic melanoma," indicated DeNardo.
"Thermal Dosimetry Predictive for Efficacy of 111In-ChL6 Nanoparticle AMF-Induced Thermoablative Therapy for Human Breast Cancer in Mice" appears in the March issue of the Journal of Nuclear Medicine, which is published by SNM, the leading international molecular imaging and nuclear medicine society. Co-authors include Gerald L. DeNardo, Arutselvan Natarajan, Laird A. Miers and Grete N. Adamson, all with the School of Medicine, UC Davis, Sacramento; Allan R. Foreman and Robert Ivkov, both with Triton BioSystems Inc., Chelmsford, Mass.; and Cordula Gruettner, Micromod Partikeltechnologie, GmbH, Rostock-Warnemuende, Germany.
Society of Nuclear Medicine
Breast Cancer Current Events and Breast Cancer News RSSMenopause-cardiology consensus statement on cardiovascular disease and on HRT
A menopause-cardiology consensus statement has called for direct action to prevent cardiovascular disease (CVD) in menopausal women. The statement also concludes that there is little evidence of increased CVD risk in taking HRT.
Researchers Identify Role of Gene in Tumor Development, Growth and Progression
Virginia Commonwealth University Massey Cancer Center and VCU Institute of Molecular Medicine researchers have identified a gene that may play a pivotal role in two processes that are essential for tumor development, growth and progression to metastasis.
UCLA researchers create 'fly paper' to capture circulating cancer cells
Just as fly paper captures insects, an innovative new device with nano-sized features developed by researchers at UCLA is able to grab cancer cells in the blood that have broken off from a tumor.
Fertility procedures need not delay breast cancer treatment for younger women
A new study published in the November issue of the Journal of the American College of Surgeons shows that breast cancer patients under 40 years old who undergo fertility preservation do not face a significant delay in the treatment of their disease when their care is coordinated in a timely fashion.
Coffee break: Compound brewing new research in colon, breast cancer
A compound in coffee has been found to be estrogenic in studies by Texas AgriLife Research scientists.
Drugs to treat anemia in cancer patients linked to thromboembolism
Medications frequently given to cancer patients to reduce their risk of anemia are associated with an increased risk of deep vein thrombosis or pulmonary embolism, according to new research led by Dawn Hershman, M.D, M.S., co-director of the breast cancer program at the Herbert Irving Comprehensive Cancer Center at NewYork-Presbyterian Hospital/Columbia University Medical Center.
Discovery in worms by Queen's researchers points to more targeted cancer treatment
Researchers at Queen's University have found a link between two genes involved in cancer formation in humans, by examining the genes in worms. The groundbreaking discovery provides a foundation for how tumor-forming genes interact, and may offer a drug target for cancer treatment.
FDA approved leukemia drugs shows promise in ovarian cancer cells
The drug Sprycel, approved for use by the U.S. Food and Drug Administration in patients with chronic myeloid leukemia, significantly inhibited the growth and invasiveness of ovarian cancer cells and also promoted their death, a study by researchers with UCLA's Jonsson Comprehensive Cancer Center found.
Carnegie Mellon researchers link health-care debate to risk of dying in US and Europe
The current health care debate in the United States is complicated. Trade-offs between heath care expenditures, lifestyle choices and life expectancy have been suggested but seldom clearly demonstrated.
Scientists uncover new key to the puzzle of hormone therapy and breast cancer
The use of postmenopausal hormone therapy has decreased over time in the United States, which researchers suggest may play a key role in the declining rate of atypical ductal hyperplasia, a known risk factor for breast cancer.
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