Computerized 3-dimensional localization of a video capsule in the abdominal cavity: validation by digital radiography.

BACKGROUND Wireless video capsule endoscopy allows the noninvasive visualization of the small intestine. Currently, capsules do not provide localization information while traversing the GI tract. OBJECTIVE To report on the radiological validation of 3-dimensional localization software incorporated in a newly developed capsule. By using radiofrequency transmission, the software measures the strength of the capsule's signal to locate the position of the capsule. SETTING This study was performed at the University of Massachusetts Medical Center, Worcester, Mass. PATIENTS Thirty healthy volunteers consented to the experimental procedure. DESIGN After ingestion of the capsule, subjects had 5 sets of anteroposterior and lateral radiographs taken every 30 minutes while the software calculated the position of the capsule. By using the radiographs, we calculated the location of the capsule in the abdominal cavity and compared the results with those generated by the software. RESULTS Average error (and standard deviation) among the 3-dimensional coordinates was X, 2.00 cm (1.64); Y, 2.64 cm (2.39); and Z, 2.51 cm (1.83). The average total spatial error among all measurements was 13.26 cm(3) (22.72). There was a correlation between increased subject body mass index and the 3-dimensional software measurement error. LIMITATIONS This study was performed in healthy volunteers and needs further validation in patients with small intestinal disorders. CONCLUSIONS The new 3-dimensional software provides localization of the capsule consistent with radiological observations. However, further validation of the software's clinical utility is required with a prospective clinical trial.

[1]  A. Glukhovsky,et al.  Future of capsule endoscopy. , 2004, Gastrointestinal endoscopy clinics of North America.

[2]  Kaveh Pahlavan,et al.  Challenges in Channel Measurement and Modeling for RF Localization Inside the Human Body , 2012, Int. J. Embed. Real Time Commun. Syst..

[3]  G. Iddan,et al.  Wireless capsule endoscopy , 2003, Gut.

[4]  Tao Mei,et al.  Wireless robotic capsule endoscopy: state-of-the-art and challenges , 2004, Fifth World Congress on Intelligent Control and Automation (IEEE Cat. No.04EX788).

[5]  R. Eliakim,et al.  Video capsule endoscopy of the small bowel , 2008, Current opinion in gastroenterology.

[6]  P. Dario,et al.  Capsule endoscopy: progress update and challenges ahead , 2009, Nature Reviews Gastroenterology &Hepatology.

[7]  J. Rey,et al.  European Society of Gastrointestinal Endoscopy (ESGE): Recommendations (2009) on clinical use of video capsule endoscopy to investigate small-bowel, esophageal and colonic diseases , 2010, Endoscopy.

[8]  M.Q.-H. Meng,et al.  Efficient Linear Algorithm for Magnetic Localization and Orientation in Capsule Endoscopy , 2005, 2005 IEEE Engineering in Medicine and Biology 27th Annual Conference.

[9]  W. Hasler,et al.  New vision in video capsule endoscopy: current status and future directions , 2012, Nature Reviews Gastroenterology &Hepatology.

[10]  Weihua Li,et al.  A Review of Localization Systems for Robotic Endoscopic Capsules , 2012, IEEE Transactions on Biomedical Engineering.

[11]  D. Fischer,et al.  Capsule endoscopy: the localization system. , 2004, Gastrointestinal endoscopy clinics of North America.