Friday, September 18, 2009

Plug-and-Play Medicine (machines not medical policy)

Plug and play: Two pulse oximeters, which measure blood oxygen levels, are linked with hardware that uses data from either device to control an intravenous drug device (not shown).   Credit: CIMIT

In a key practical step toward the long-sought goal of linking different hospital devices together to better manage patients and their care, a Boston research group has come up with a software platform for sharing information among gadgets ranging from blood-pressure cuffs to heart-lung machines.

“The vision of fully interoperable medical devices has been around for at least a quarter-century, but lack of adequate standards and lack of manufacturers’ desire to foster such integration has left us in a kind of Dark Ages,” says Peter Szolovits, an MIT computer scientist in the Harvard/MIT Division of Health Sciences and Technology, who was not involved with developing the new standards. He adds that they are “a critical component of making health-care information technology smarter, safer, and more efficient.”

When doctors disconnect a heart-lung machine after finishing heart surgery, they need to turn on the ventilator quickly, or the patient will suffer brain damage. Right now, however, there is no way for the heart-lung machine to sense whether the ventilator was switched on correctly and keep running if it wasn’t. Even the most high-technology medical devices used in hospitals don’t “talk” to each other in the way that, say, your PC “talks” to your printer.

The new standards for the Integrated Clinical Environment (ICE)–written by a research group convened by the Center for Integration of Medicine and Innovative Technology (CIMIT), a hospital/academic consortium in Boston–consist of a set of high-level design principles. Among other things, the standard says that an ICE must include a device analogous to a jet airliner’s “black box” that collects data. This black box will initially prove that integrating different systems can be safe enough to win regulatory approval. But in everyday practice, it will also be crucial to troubleshooting and improving interoperability. The standard also says that there must be only one overarching algorithm that interprets data from all connected machines to avoid conflicting instructions or warnings; and that if one piece fails, the failure must not be able to spread to other parts of the system.

“This is about building a comprehensive platform, like the Web, that allows the global community to innovate and build cool things on top of it that improve patient safety,” says Julian Goldman, director of CIMIT’s Medical Device Interoperability Program, who led the group that developed the standards, which will be published this fall by the standards body ASTM International.

“Any technologically sophisticated person would assume that if you are receiving a potent intravenous medication in a hospital, and at the same time your blood pressure is being measured by an automated cuff every 15 minutes, that we have a way to [automatically] stop that medication infusion if it causes your blood pressure starts to fall or rise rapidly,” says Goldman, “but it’s impossible to do that today.”

(article Continues) – http://www.technologyreview.com/biomedicine/23490/

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