Hendryk Richert scite author profile

Hendryk Richert

5Publications

84Citation Statements Received

44Citation Statements Given

How they've been cited

127

How they cite others

Affiliations

Schott (Germany), Innovent, Ludwig-Maximilians-Universität München

Publications

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Every slow-wave impulse is associated with motor activity of the human stomach

Hocke¹,

Schöne²,

Richert³

et al. 2009

American Journal of Physiology-Gastrointestinal and Liver Physi

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Using a newly developed high-resolution three-dimensional magnetic detector system (3D-MAGMA), we observed periodical movements of a small magnetic marker in the human stomach at the typical gastric slow-wave frequency, that is 3 min(-1). Thus we hypothesized that each gastric slow wave induces a motor response that is not strong enough to be detected by conventional methods. Electrogastrographies (EGG, Medtronic, Minneapolis, MN) for measurement of gastric slow waves and 3D-MAGMA (Innovent, Jena, Germany) measurements were simultaneously performed in 21 healthy volunteers (10 men, 40.4+/-13.6 yr; 11 women, 35.8+/-11.6 yr). The 3D-MAGMA system contains 27 highly sensitive magnetic field sensors that are able to locate a magnetic pill inside a human body with an accuracy of +/-5 mm or less in position and +/-2 degrees in orientation at a frequency of 50 Hz. Gastric transit time of the magnetic marker ranged from 19 to 154 min. The mean dominant EGG frequency while the marker was in the stomach was 2.87+/-0.15 cpm. The mean dominant 3D-MAGMA frequency during this interval was nearly identical; that is, 2.85+/-0.15 movements per minute. We observed a strong linear correlation between individual dominant EGG and 3D-MAGMA frequency (R=0.66, P=0.0011). Our findings suggest that each gastric slow wave induces a minute contraction that is too small to be detected by conventional motility investigations but can be recorded by the 3D-MAGMA system. The present slow-wave theory that assumes that the slow wave is a pure electrical signal should be reconsidered.

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Magnetic Active Agent Release System (MAARS): Evaluation of a new way for a reproducible, externally controlled drug release into the small intestine

Dietzel

Richert

Abert³

et al. 2012

Journal of Controlled Release

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Dynamic Magneto-Optical Imaging of Domains in Grain-Oriented Electrical Steel

Richert

Schmidt

Lindner

et al. 2015

steel research int.

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Magneto-optical imaging with magneto-optical indicator films (MOIF) is a versatile method to characterize magnetic field distributions especially for material development and quality control. Magnetic domains and grains in grain-oriented electrical steel can be visualized, and quantified without removing the isolation layer. The combination of MOIF with digital high-speed camera technology enables temporally resolved investigations of the magnetization processes. In contrast to Kerr-effect measurements MOIF imaging works without sample preparation and even in the presence of industrial insulation coatings. Optical resolution of 25 microns and temporal resolution of 1 ms in single-shot mode could be demonstrated.

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Preparation and magneto-optical properties of BiY2Fe5O12 organic nanocomposite films

Hasanpour

Mozaffari

Amighian

et al. 2007

Journal of Magnetism and Magnetic Materials

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Magnetic Monitoring as a Diagnostic Method for Investigating Motility in the Human Digestive System

Richert

Kosch

Görnert

2006

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Hendryk Richert

Every slow-wave impulse is associated with motor activity of the human stomach

Magnetic Active Agent Release System (MAARS): Evaluation of a new way for a reproducible, externally controlled drug release into the small intestine

Dynamic Magneto-Optical Imaging of Domains in Grain-Oriented Electrical Steel

Preparation and magneto-optical properties of BiY2Fe5O12 organic nanocomposite films

Magnetic Monitoring as a Diagnostic Method for Investigating Motility in the Human Digestive System

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