论文信息 - High-resolution monitoring of the gastrointestinal transit of a magnetically marked capsule.

High-resolution monitoring of the gastrointestinal transit of a magnetically marked capsule.

The purpose of this study was to demonstrate that it is possible to continuously monitor the gastrointestinal transit of magnetically marked, solid, oral dosage forms with multichannel biomagnetic measuring equipment and by magnetic source imaging (MSI) methods. For the investigations presented, a sucrose pellet was coated with powdered magnetite (Fe3O4) in poly(methyl methacrylate). Then, the pellet was enclosed in a capsule prepared from silicone rubber and magnetized to obtain a net magnetic dipole moment. After ingestion of the capsule, its magnetic field distribution over the abdomen was recorded for several time intervals with a 37-channel superconducting quantum interference device (SQUID) magnetometer. At each time point, the position of the capsule within the gastrointestinal tract was calculated from the measured field distribution, assuming a magnetic dipole model. The data presented here demonstrate that with this noninvasive method of magnetic marker monitoring it is possible to investigate the gastrointestinal transit of a solid oral dosage form with a temporal resolution in the order of milliseconds and a spatial resolution within a range of millimeters.

[1] R. McFee,et al. DETECTION OF THE MAGNETIC FIELD OF THE HEART. , 1963, American heart journal.

[2] W. Steinberg,et al. Method for determining in vivo tablet disintegration. , 1965, Journal of pharmaceutical sciences.

[3] Determination of the Emptying-time of the Stomach by Use of Enteric-coated Barium Granules , 1965, British medical journal.

[4] D. Cohen. Magnetoencephalography: Evidence of Magnetic Fields Produced by Alpha-Rhythm Currents , 1968, Science.

[5] D. A. Dunnett. Classical Electrodynamics , 2020, Nature.

[6] H. Smith,et al. Gastric emptying of solid radiopaque markers: studies in healthy subjects and diabetic patients. , 1984, Gastroenterology.

[7] Vittorio Pizzella,et al. A biomagnetic method for studying gastro-intestinal activity , 1989 .

[8] G Curio,et al. Biomagnetic functional localization of a peripheral nerve in man. , 1989, Biophysical journal.

[9] I. Wilding,et al. The role of γ-scintigraphy in oral drug delivery , 1991 .

[10] Dietmar Drung,et al. A 37 channel DC SQUID magnetometer system , 1991 .

[11] L. Trahms,et al. Magnetic markers as a noninvasive tool to monitor gastrointestinal transit , 1994, IEEE Transactions on Biomedical Engineering.

[12] J. Wikswo,et al. Diagnosing intestinal ischemia using a noncontact superconducting quantum interference device. , 1994, American journal of surgery.