Six-Dimensional Localization of a Robotic Capsule Endoscope Using Magnetoquasistatic Field

Liu, Siliang; Kim, Jayoung; Hong, Ayoung; Park, Jong-Oh; Kim, Chang‐Sei

doi:10.1109/access.2022.3154031

Cited by 4 publications

(1 citation statement)

References 23 publications

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“…As shown in Fig. 12c, Liu et al [132] used three transmitting coils fixed under the foundation bed to generate a magnetoquasistatic field to act on the three orthogonal receiving coils in the capsule robot for magnetic localization. The attitude and position information of the capsule robot can be obtained by solving the nonlinear net magnetic field model and rotation matrix.…”

Section: B Localizationmentioning

confidence: 99%

Magnetically Actuated Capsule Robots: A Review

2022

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Capsule endoscopy is a procedure that uses a tiny wireless camera inside a capsule endoscope to take pictures of patient's gastrointestinal tract for diagnosis. Gastrointestinal examination has been revolutionized by capsule endoscope for its simplicity and non-invasiveness. However, at this stage, the capsule endoscope has weak controllable locomotion capability, and does not have extended functions such as biopsy, localization, and therapeutics, which has become the main obstacle to expanding its application. Using an external magnetic field to actuate the capsule endoscope has the advantages of simple response structure inside the capsule and remote energy supply, which can expand the above-mentioned functions of the capsule endoscope and develop into a multifunctional capsule robot. This paper analyzes two types of magnetic actuation systems for magnetically actuated capsule robots, discusses the research on the functions of magnetically actuated capsule robots in active locomotion, anchoring, biopsy, localization, therapeutics, wireless power supply, and multi-capsule robot collaboration, and points out the existing problems and future development directions of magnetically actuated capsule robots.INDEX TERMS Gastrointestinal tract, magnetically actuated, capsule endoscopy, capsule robot. FIGURE 1. A Schematic of the GI tract.

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Section: B Localizationmentioning

confidence: 99%

Magnetically Actuated Capsule Robots: A Review

2022

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Multiple Sampling Capsule Robot for Studying Gut Microbiome

Park,

Hoang,

Kim

et al. 2024

Advanced Intelligent Systems

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Longitudinal analysis of the gut microbiota is crucial for understanding its relationship with gastrointestinal (GI) diseases and advancing diagnostics and treatments. Most ingestible sampling devices move passively within the GI tract, rely on physiological factors, and fail at multipoint sampling. This study proposes a multiple‐sampling capsule robot capable of collecting gut microbiota from various locations within the GI tract with minimal cross‐contamination. The proposed capsule comprises a body, a driving unit, six sampling tools, a central rod, and two heads. Electromagnetic field control facilitates control of the orientation and position of the capsule, particularly to align the channel of the capsule where the sample is collected facing downward. The capsule can collect six gut microbiota samples preventing contamination before and after sampling. The active locomotion and multiple sampling performance of the capsule are evaluated through basic performance tests (propulsion direction precision: 0.76 ± 0.52°, channel alignment precision: 0.84 ± 0.55°), phantom tests (average amount per sample: 10.3 ± 2.4 mg, cross‐contamination: 0.6 ± 0.4%), and ex‐vivo tests (average amount per sample: 9.9 ± 1.7 mg). The possibility of integration and clinical application of the capsule is confirmed through preclinical tests using a porcine model.

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