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(Bethesda, Maryland)-- "Computers are rapidly revolutionizing how medicine is taught and practiced in the United States and throughout the world," according to Donald A.B. Lindberg, M.D., Director of the National Library of Medicine (NLM), the nation's leading government agency in the use of information technology and the Internet for health care. "Next week, the public will get to preview what is coming through the digital pipeline as it relates to the improvement of health care," said Dr. Lindberg. "You'll get a peek at the future practice of medicine."

Demonstrations of the newest, fastest Internet technology and its potential for improving the delivery of health care in America will take place on December 3, 2002 in a VIP/Press Briefing scheduled for 9:30 a.m. CT at Chicago's McCormick Place during the annual Radiological Society of North American (RSNA) meeting. The Metropolitan Research and Education Network (MREN) will provide the high-speed link from McCormick Place to the nationwide Internet-2 backbone network, infrastructure allowing radiologists and members of the press to get hands-on experience with high-performance networking applications that show promise for the future of medical education and practice, including our fight against breast cancer.

Attendees will also see how new technology can convert 2-dimensional images into 3-dimensional models, thus permitting surgeons to rehearse patient-specific surgery, how sophisticated video-conferencing can be used for collaboration and education, and how advanced networks will make possible the storage and retrieval of vast amounts of vital medical information and images across multiple sites in ways never before possible.

"By overcoming some of the limitations of today's Internet, high-performance networking enables exciting new possibilities for medical education and practice," says Douglas Van Houweling, President and CEO of Internet-2, a consortium of over 200 U.S. universities working with industry partners and federal agencies to create a faster, smarter Internet. Van Houweling added, "Though we are just beginning to explore the potential of an Internet that is both faster and more reliable, new network applications already show promise of allowing doctors, students, and patients to work more effectively together."

Michael J. Ackerman, Ph.D., NLM's Assistant Director for High Performance Computing and Communications, agrees saying "Internet2 and the NLM are making possible great advances in medical education by developing the means for physicians to practice or simulate a surgical procedure in a secure environment where mistakes do not adversely affect patients, and by creating the tools to speed vital life-saving information anywhere in the world."

The VIP/Press Briefing will demonstrate some of the remarkable uses of advanced networking already under way at universities nationwide.

• Faster and More Effective Breast Cancer Treatment. Known as the "National Digital Mammography Archive," this multi-site project led by the University of Pennsylvania-and including the Universities of North Carolina, Chicago, and Toronto-tests the network's ability to store and retrieve vast numbers of (high-quality digital) mammograms (from remote sites). Nothing would make a radiologist's or breast cancer researcher's job easier than to have access to mammogram images stored at multiple sites from a single location. Moreover, a woman can move from one part of the country to another and her new radiologist can instantly access her past mammograms over the network to compare with the current mammogram. Cumbersome files will no longer have to be mailed. Researchers can get answers to such epidemiological questions as: Do some areas of the country have higher rates of breast cancer and fibroid tumors? What are the fibroid tumor and breast cancer tumor rates based on age and ethnicity? The project has built-in confidentiality safeguards that strip identifying information for research use. This project was number one on InfoWorld's list of 100 innovative technology projects for 2002.
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• Anatomical and Surgery Simulation Over the Internet. This project, led by researchers at Stanford University, shows how surgical techniques can be taught over high-performance networks using haptics. "Haptic" means the ability feel shape, texture, and density through a simulated environment. For example, a master surgeon at one location can "trace" the correct surgical technique on the computer and have it recorded. A student hundreds of miles away can receive this rendering and have the computer guide his or her hand several times according to the master surgeon's recording. Ultimately, after a few practice tries, students can try it independently. These interactions can be stored and reused. This technology is similar to how pilots are trained on flight simulators.
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• Surgical Planning in a 3-D World. Known as "Advanced Biomedical Tele-Collaboration," researchers at the University of Chicago project focus on using 3-D imaging for surgical planning and distance learning and employ video-conferencing techniques among multiple locations. Researchers on this project have invented software that converts 2-dimensional images into 3-dimensional models. In practical clinical terms, this means a physician can take images in different planes of a patient's liver and turn it into a 3-D picture showing the exact location of the liver's veins and arteries so the surgeon can work around them.
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• Disaster Recovery of Medical Records. This project, known as "Internet2 Performance for Medical Imaging Applications" led by researchers at Children's Hospital in Los Angeles, is similar to radiological grand rounds except that the radiologists can be hundreds of miles apart as they view the same x-ray online. It allows large medical images to be retrieved quickly and accurately viewed online. Researchers working on this project have also come up with a means of simultaneously storing medical records and images off-site. In the event of a hospital disaster, the medical records would be safeguarded.
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• Revolutionizing Clinical Trials. A project known as "Multi-Center Clinical Trial Using NGI" led by scientists at the Kennedy Krieger Institute in Baltimore tests the feasibility of using the Internet in a multi-center clinical trial. This project demonstrates how high-speed networks can advance clinical trials related to rare diseases when the patient base is diverse and geographically dispersed. Researchers involved in multi-center clinical trials usually have to send information on daily basis via overnight mail services. This multi-center clinical trial allows MRI studies of patients with the rare disease x-linked adrenoleukodystrophy (X-ALD) to be shared digitally among researchers and institutions. This is the disease that received widespread publicity because the parents of one sufferer invented "Lorenzo's Oil," which has subsequently been proved to have some medicinal effects.
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• Increased Cancer Detection Sensitivity. Researchers at the Uniformed Services University of the Health Sciences are developing digital tools that will make it easier to acquire, view, and manipulate 3-dimensional images such as mammograms quickly and efficiently. Other collaborators include the National Naval Medical Center GE Global Research, and the University of South Florida.

Last updated: 19 March 2004
First published: 03 December 2002
Permanence level: Permanent: Stable Content