The centre, which will be headquartered at the University of Illinois, will include researchers from Vanderbilt University (VU); University of California, Berkeley; Carnegie Mellon University; Dartmouth College; Harvard Medical School; Johns Hopkins University; Northwestern Memorial Hospital; Stanford University; University of Massachusetts, Amherst and the University of Washington. It is one of four health care research centres established and funded for four years with American Recovery and Reinvestment Act of 2009 funds as part of the $60 million Strategic Healthcare Information Technology Advanced Research Projects on Security (SHARPS) programme.
"Our participation in the new SHARPS center reflects the fact that Vanderbilt has become highly visible in the field of health care security and privacy", stated Janos Sztipanovits, director of the Institute for Software Integrated Systems (ISIS) at Vanderbilt's School of Engineering. He; Mark Frisse, Accenture professor of Biomedical Informatics at the Vanderbilt University Medical Center; and Edward Schulz, director of Information Technology Integration at VUMC, head up the joint Vanderbilt team. William Stead, the Medical Center's Chief Strategy and Information Officer, will serve as one of the centre's two chief scientists.
One of Vanderbilt's unique contributions is the close partnership it has established between its engineers and clinical researchers, Janos Sztipanovits and Mark Frisse agreed. The Medical Center has a 15-year track record in the development of electronic health care records and ISIS contributes a structured approach to data security and extensive software tools that it has developed to protect sensitive data for the Department of Defense.
"Our ability to combine engineering and medical skills and apply them to the domain of health care gives us a distinct advantage in fulfilling the goals of the new programme, which is to identify barriers to adoption of information technology and develop solutions that allow its meaningful use", Mark Frisse stated.
Vanderbilt has gained experience in this area through its participation in the TRUST Science and Technology Center founded in 2006 by the National Science Foundation. The $40 million TRUST Center, whose core members are the University of California, Berkeley; Carnegie Mellon University; Cornell University; Stanford University; and Vanderbilt University, is one of the United States' leading research consortiums focusing on the scientific foundations of system security and privacy. Vanderbilt has headed up TRUST's health-care-related programme.
"Vanderbilt Engineering is very pleased to partner with our colleagues in the VU Medical Center and around the United States to advance the state-of-the-art for secure health care information technology. It is a terrific team working to solve a critical challenge", stated Kenneth F. Galloway, dean of the School of Engineering at Vanderbilt University.
The SHARPS centre will focus on three specific subjects: electronic health records, health information exchanges and telemedicine.
Most United States hospitals have digitized their health records despite the fact that they are subject to new kinds of risks, such as the ease with which a thief can carry away thousands of patient records on a USB thumb drive or the possibility that the records can be hacked when they are put on-line to increase accessibility.
Health information exchange comes into play whenever patients and their doctors are separated geographically - for example, when a patient seeks emergency care when traveling or when a patient's primary care physician wants to consult a specialist located at a hospital in a different state. Such exchanges are complicated considerably by differing laws and policies as well as incompatibilities between different health information systems.
Technologies that allow people to monitor and manage their health at home and other settings outside of hospitals are being used for a number of health wellness goals, such as chronic disease management and independent aging. However, security and privacy risks are a major barrier to their adoption. Sensing devices collect sensitive personal information, ranging from physiological data to patients' activities and location, and networked implanted devices raise the risk that adversaries can find ways to control them.