© 2016, Springer Science+Business Media New York. In this study, we propose a new magnetically actuated anchoring system for wireless capsule endoscopes (WCE) by employing the principle of a switchable magnetic spring. A force model is derived to predict the magnetic force needed to support the interaction between the anchors and the intestinal lumen. The theoretical and experimental analysis conducted shows that the magnetic spring is capable of providing the force needed to activate the anchoring mechanism, which consists of four foldable legs. A prototype capsule with a size comparable with the size of a commercial WCE was designed, fabricated, and tested. The in-vitro tests with a real small intestine show that the proposed anchoring me...
The interest in the development of endoscopic capsules (EC) has grown at a tremendous pace, since th...
The development of a highly controllable drug delivery system (DDS) for wireless capsule endoscopy (...
The gastrointestinal tract is home of some of the most deadly human diseases. The main problems are ...
In this study, we propose a new magnetically actuated anchoring system for wireless capsule endoscop...
We report on a remotely actuated novel anchoring system (patent-pending) based on a curved scissor-e...
Capsule endoscopes are widely used to diagnose gut-related problems, but they are passive in nature ...
Traditional endoscopy based on flexible endoscopes is reliable and effective, but poorly tole...
Wireless endoscopic video capsules are becoming largely used today for non-invasive explorations of ...
In the second part, after performing in-vitro experiments to measure the resistant force of the smal...
This paper describes a technique to control the navigation of traditional wireless endoscopic capsul...
The authors propose a magnetic actuator for use as a navigation system for capsule endoscopes. The a...
This project is sponsored by ADI with the reference NFCE – FCOMP-01-0202-FEDER-005358 and also spons...
peer reviewedIn this paper, a new steering mechanism for wireless capsule devices is presented. The ...
Active locomotion of wireless capsule endoscopes has the potential to improve the diagnostic yield o...
Traditional endoscopy based on flexible endoscopes is reliable and effective, but poorly tolerated b...
The interest in the development of endoscopic capsules (EC) has grown at a tremendous pace, since th...
The development of a highly controllable drug delivery system (DDS) for wireless capsule endoscopy (...
The gastrointestinal tract is home of some of the most deadly human diseases. The main problems are ...
In this study, we propose a new magnetically actuated anchoring system for wireless capsule endoscop...
We report on a remotely actuated novel anchoring system (patent-pending) based on a curved scissor-e...
Capsule endoscopes are widely used to diagnose gut-related problems, but they are passive in nature ...
Traditional endoscopy based on flexible endoscopes is reliable and effective, but poorly tole...
Wireless endoscopic video capsules are becoming largely used today for non-invasive explorations of ...
In the second part, after performing in-vitro experiments to measure the resistant force of the smal...
This paper describes a technique to control the navigation of traditional wireless endoscopic capsul...
The authors propose a magnetic actuator for use as a navigation system for capsule endoscopes. The a...
This project is sponsored by ADI with the reference NFCE – FCOMP-01-0202-FEDER-005358 and also spons...
peer reviewedIn this paper, a new steering mechanism for wireless capsule devices is presented. The ...
Active locomotion of wireless capsule endoscopes has the potential to improve the diagnostic yield o...
Traditional endoscopy based on flexible endoscopes is reliable and effective, but poorly tolerated b...
The interest in the development of endoscopic capsules (EC) has grown at a tremendous pace, since th...
The development of a highly controllable drug delivery system (DDS) for wireless capsule endoscopy (...
The gastrointestinal tract is home of some of the most deadly human diseases. The main problems are ...