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Is It Time To Consider A Role For MRI Before Prostate Biopsy?
UroToday.com - The prevailing view is that MRI has a limited role in the management of prostate cancer. Currently, the threshold for requesting a pre-treatment staging MRI is variable with most advocating this for only those classified as high risk localized prostate cancer, although some also advocate men with intermediate risk disease.

Can Omega 3 Fatty Acids Prevent Depression In Coronary Heart Disease?
Depression is an established risk factor for the development of coronary heart disease (CHD) in healthy patients and for adverse cardiovascular outcomes in patients with existing CHD. Dietary factors resulting in lower levels of omega 3 fatty acids not only increase CHD risk, but may also be involved in the pathophysiology of depression. The investigators measured red blood cell levels of two omega 3 fatty acids, docosahexaenoic acid (DHA) and eicosapentaenoic acid (EPA), and assessed depressive symptoms in a cross-sectional study of 987 adults with CHD. Omega 3 fatty acids were blindly measured in fasting venous blood samples using capillary gas chromatography to measure the fatty acid composition of red blood cell membranes. Red blood cell levels of EPA and DHA are presented as a percentage composition of total fatty acid methyl esters. The investigators assessed current depression using the 9-item Patient Health Questionnaire. They evaluated the association between omega 3 fatty acid levels and depressive symptoms as continuous variables using linear regression.
News of the day
Yale And University Of Malaya Join Forces To Battle HIV In Prisons
In the hope of stemming one of the biggest public health crises in Southeast Asia, Yale University is partnering with the University of Malaya to fight the spread of HIV among drug users in Malaysia who are completing prison terms and transitioning back into the community. The two universities recently signed a letter of intent expressing their continued commitment to this partnership, which is funded by a $4.1 million grant from the National Institutes of Health.
Cardiovascular

Teeny-tiny X-Ray Vision

The tubes that power X-ray machines are shrinking, improving the clarity and detail of their Superman-like vision. A team of nanomaterial scientists, medical physicists, and cancer biologists at the University of North Carolina has developed new lower-cost X-ray tubes packed with sharp-tipped carbon nanotubes for cancer research and treatment. The tiny technology, presented at this year"s meeting of the American Association of Physicists in Medicine in Anaheim, California, is being developed to image human breast tissue, laboratory animals, and cancer patients under radiotherapy treatment, and to irradiate cells with more control than previously possible with conventional X-ray tubes. The X-ray machine used in a typical hospital today is powered by a "hot" vacuum tube that dates back to the beginning of the 20th century. Inside the tube, a tungsten metal filament -- similar to the one that creates light in an incandescent bulb -- is heated to a temperature of 1,000 degrees Celsius. The heat releases electrons, which accelerate in the X-ray tube and strike a piece of metal, the anode, creating X-rays. Sha Chang, Otto Zhou, and colleagues that University of North Carolina have developed cold X-ray tubes that replace the tungsten filament with carbon nanotubes packed like blades of tiny grass. Electrons are instantly emitted from the sharp tips of the nanotubes when a voltage is applied. "Think of each nanotube as a lightning rod on top of a building. The high electric field at the tip of the lightning rod draws the electric current from the cloud. Carbon nanotubes emit electrons using a similar principle," said Chang. The group used the nanotubes to build micro-sized scanners and image the interior anatomy of small laboratory animals. Existing X-ray technologies have difficulty compensating for the blur caused by the creature"s breathing. Slow mechanical shutters that open and close to block and release the radiation are used to time X-ray pulses to correspond with breath, but their speed is inadequate for small animals because of the creatures" extremely fast breathing and cardiac motion. Chang and Zhou have demonstrated that their carbon nanotubes, which can be turned on and off instantaneously, are fairly easy to synch up to equipment that monitors small animal"s breathing or heart rate. The nanotube devices may also improve human cancer imaging and treatment. CT scanners currently in use check for breast cancer by swinging a single large X-ray around the target to take a thousand pictures over the course of minutes. Using many nanotube X-ray s lined up in an array instead, breast imaging can be done within few seconds by electronically turning on and off each of the X-ray s without any physical motion. This fast "tomosynthesis" imaging improves patient comfort and boosts image quality by reducing motion blur. Using 25 simultaneous beams, the team produced images of growths in breast tissue at nearly twice the resolution of commercial scanners on the market. This summer Chang"s team will conduct a clinical test of a first generation nanotube-based imaging system for high-speed image-guided radiotherapy. The research image system is developed by Siemens and Xinray Inc., a joint venture between Siemens and a University of North Carolina startup company Xintech Inc. ABOUT MEDICAL PHYSICISTS If you ever had a mammogram, ultrasound, X-ray, MRI, PET scan, or known someone treated for cancer, chances are reasonable that a medical physicist was working behind the scenes to make sure the imaging procedure was as effective as possible. Medical physicists help to develop new imaging techniques, improve existing ones, and assure the safety of radiation used in medical procedures in radiology, radiation oncology and nuclear medicine. They collaborate with radiation oncologists to design cancer treatment plans. They provide routine quality assurance and quality control on radiation equipment and procedures to ensure that cancer patients receive the prescribed dose of radiation to the correct location. They also contribute to the development of physics intensive therapeutic techniques, such as the stereotactic radiosurgery and prostate seed implants for cancer to name a few. The annual AAPM meeting is a great re, providing guidance to physicists to implement the latest and greatest technology in a community hospital close to you. ABOUT AAPM The American Association of Physicists in Medicine (AAPM) is a scientific, educational, and professional organization of more than 6,000 medical physicists. Headquarters are located at the American Center for Physics in College Park, MD. Publications include a scientific journal ("Medical Physics"), technical reports, and symposium proceedings, American Institute of Physics (AIP)


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