Endoscopy 2008; 40(12): 979-982
DOI: 10.1055/s-0028-1103424
Original article

© Georg Thieme Verlag KG Stuttgart · New York

Wireless therapeutic endoscopic capsule: in vivo experiment

P.  Valdastri1 , C.  Quaglia1 , E.  Susilo1, 2 , A.  Menciassi1, 2 , P.  Dario1, 2 , C.  N.  Ho3 , G.  Anhoeck3 , M.  O.  Schurr3, 4
  • 1CRIM (Center for Research in Microengineering) Lab, Scuola Superiore Sant’Anna, Pontedera, Pisa, Italy
  • 2Italian Institute of Technology Network, Genova, Italy
  • 3Ovesco GmbH, Tuebingen, Germany
  • 4IHCI (Institute of Healthcare Industries), Steinbeis University Berlin, Tuebingen, Germany
Further Information

Publication History

submitted 30 September 2008

accepted after revision 1 November 2008

Publication Date:
08 December 2008 (online)

Background and study aim: Capsule endoscopy is becoming well established as a diagnostic technique for the gastrointestinal tract. Nevertheless swallowable capsule devices that can effectively perform surgical and therapeutic interventions have not yet been developed. Such devices would also be a valuable support for natural orifice transluminal endoscopic surgery (NOTES). The objective of this study was to assess the feasibility of using a swallowable wireless capsule to deploy a surgical clip under remote control.

Materials and methods: A wireless endoscopic capsule, diameter 12.8 mm and length 33.5 mm, was developed. The device is equipped with four permanent magnets, thus enabling active external magnetic steering. A nitinol clip is loaded on the topside of the capsule, ready to be released when a control command is issued by an external operator. Repeated ex vivo trials were done to test the full functionality of the therapeutic capsule in terms of efficiency in releasing the clip and reliability of the remote control. An in vivo test was then carried out in a pig: the capsule was inserted transanally and steered by means of an external magnetic arm towards an iatrogenic bleeding lesion. The clip, mounted on the tip of the capsule, was released in response to a remote signal. The procedure was observed by means of a flexible endoscope.

Results: A wireless capsule clip-releasing mechanism was developed and tested. During ex vivo trials, the capsule was inserted into the sigmoid section of a phantom model and steered by means of the external magnet to a specific target, identified by a surgical suture at a distance of 3 cm before the left flexure. The capsule took 3 to 4 minutes to reach the desired location moving under external magnetic guidance, while positioning of the capsule directly on the target took 2 to 3 minutes. Successful in vivo clipping of an iatrogenic bleed by means of a wireless capsule was demonstrated.

Conclusions: This study reports the first successful in vivo surgical experiment using a wireless endoscopic capsule, paving the way to a new generation of capsule devices able to perform both diagnostic and therapeutic tasks.

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P. ValdastriPhD 

CRIM Lab, Scuola Superiore Sant’Anna

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Italy

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Email: pietro@sssup.it