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A novel robotically driven capsule successfully navigated a colon in a pig model in 100% of 30 retroflexion maneuvers, setting the stage for further study of robotics in colonoscopy. The data were presented at the annual Digestive Disease Week.

Although capsule technology has expanded exploration of the GI tract, current capsules are limited by passive movement and lack therapeutic capability, said Keith L. Obstein, MD, of Vanderbilt University in Nashville, Tenn.

The researchers developed a capsule with an 18-mm head and interior permanent magnets designed to be automatically controlled by an external robotic arm in difficult areas.

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A novel robotically driven capsule successfully navigated a colon in a pig model in 100% of 30 retroflexion maneuvers, setting the stage for further study of robotics in colonoscopy. The data were presented at the annual Digestive Disease Week.

Although capsule technology has expanded exploration of the GI tract, current capsules are limited by passive movement and lack therapeutic capability, said Keith L. Obstein, MD, of Vanderbilt University in Nashville, Tenn.

The researchers developed a capsule with an 18-mm head and interior permanent magnets designed to be automatically controlled by an external robotic arm in difficult areas.

 

A novel robotically driven capsule successfully navigated a colon in a pig model in 100% of 30 retroflexion maneuvers, setting the stage for further study of robotics in colonoscopy. The data were presented at the annual Digestive Disease Week.

Although capsule technology has expanded exploration of the GI tract, current capsules are limited by passive movement and lack therapeutic capability, said Keith L. Obstein, MD, of Vanderbilt University in Nashville, Tenn.

The researchers developed a capsule with an 18-mm head and interior permanent magnets designed to be automatically controlled by an external robotic arm in difficult areas.

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Key clinical point: An 18-mm magnetized capsule colonoscope successfully navigated a pig colon, and researchers are planning human trials for 2018.

Major finding: An automated robot capsule successfully completed 30 retroflexion maneuvers in a pig colon with an average time of 12 seconds.

Data source: The data come from a test of 30 maneuvers.

Disclosures: This study was supported by the National Institute of Biomedical Imaging and Bioengineering of the National Institutes of Health under award number R01EB018992. Dr. Obstein had no relevant financial conflicts to disclose.