Children's National Medical Center in Washington, D.C. is on a mission to improve patient surgical outcomes through innovative new uses of information technology in pediatric surgeries.
Nearly a year ago, Children's National Medical Center received a $150 million gift from the government of Abu Dhabi to create the Sheikh Zayed Institute for Pediatric Surgical Innovation. The children's hospital has a longstanding relationship with the United Arab Emirates, caring for many UAE patients who come to the United States for treatment annually.
"We'd like to push the limits," said Dr. Nabile Safdar, a radiologist and principal investigator of the institute. The research and exploration done by the institute is aimed at not only bringing new technology-enabled tools to physicians at Children's National Medical Center, but also potentially to pediatric hospitals globally through commercialization.
The new institute is recruiting a group of about a dozen medical and technology experts -- half physicians and the remaining being IT and bio-engineers -- to explore and advance how IT is applied to the practice of pediatric surgery so that operations are more personalized for each patient, in the aim of improving outcomes.
Technologies being investigated include simulation and graphics processing technologies similar to those used in video gaming; GPS or other navigation technologies; and integrated communication systems.
Among the goals are to see how these and other advanced technologies can be applied to shorten surgeries and reduce the time young patients need to spend under anesthesia in the operating room; help surgeons in the accuracy of sensitive and complex surgeries; reduce complications and pain; and get kids healthy and home to their families sooner, Safdar said.
The institute is taking a multi-prong approach that will include having its research work published, as well as having its researchers partner with others. That could include third-party vendors of technologies used in other sectors, and innovations that have been used in the care of adults, but not young patients.
The center is investigating ways that existing commercial solutions can be tailored for use in pediatric surgery. For instance, interactive navigation systems and graphic simulation have the potential for use in pediatric surgeries "for repairing the tiniest of spleens or spines, where there's less threshold for error," he said.
While video gaming gives teenagers the feeling of being immersed in a 3D world of complex landscapes and allows them to communicate in real time, those same types of technologies can be applied for simulated training and preparation of surgeons doing delicate operations on kids, such as spine surgery to correct scoliosis, curvature of the spine.
"In most cases, in 2010 we prepare the same way for surgery as 30 to 40 years ago," Safdar said. That means surgeons rely on 2D X-rays to prepare and plan for many procedures, rather than 3D views of the patient's organs.
"Surgeons make a plan for surgery, the types of tools that will be used," he said. But when it comes to the actual surgeries, screws that get inserted to correct scoliosis, for example, "are a few millimeters away from the spine," he said.