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Related Concept Videos

Magnetic Resonance Imaging01:24

Magnetic Resonance Imaging

Magnetic resonance imaging (MRI) is a noninvasive medical imaging technique based on a phenomenon of nuclear physics discovered in the 1930s, in which matter exposed to magnetic fields and radio waves was found to emit radio signals. In 1970, a physician and researcher named Raymond Damadian noticed that malignant (cancerous) tissue gave off different signals than normal body tissue. He applied for a patent for the first MRI scanning device in clinical use by the early 1980s. The early MRI...
Imaging Studies IV: Magnetic Resonance Imaging01:27

Imaging Studies IV: Magnetic Resonance Imaging

Introduction:Magnetic Resonance Imaging, or MRI, can include a specialized imaging technique of the urinary system known as Magnetic Resonance Urography (MRU). This radiation-free technique uses strong magnetic fields and radio waves to produce detailed images with the help of a computer. MRU is particularly effective for visualizing fluid-filled structures like the kidneys, ureters, and bladder.Applications of MRI in the Genitourinary SystemKidneys and Ureters: MRI detects tumors, cysts,...
Imaging Studies for Cardiovascular System IV: CMRI01:21

Imaging Studies for Cardiovascular System IV: CMRI

Cardiovascular magnetic resonance imaging, or CMRI, is a non-invasive diagnostic test that employs a magnetic field and radiofrequency waves to create precise images of the heart and arteries. It provides comprehensive information about cardiac anatomy, function, perfusion, and tissue characterization without ionizing radiation.IndicationsCMRI diagnoses various heart conditions, including tissue damage from heart attacks, ischemic heart disease, myocarditis, aortic issues (tears, aneurysms,...
Proteomics01:33

Proteomics

A proteome is the entire set of proteins that a cell type produces. We can study proteomes using the knowledge of genomes because genes code for mRNAs, and the mRNAs encode proteins. Although mRNA analysis is a step in the right direction, not all mRNAs are translated into proteins.
Proteomics is the study of proteomes' function. It involves the large-scale systematic study of the proteome to denote the protein complement expressed by a genome. Scientist Mark Wilkins coined the term proteomics...

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Frequency Mixing Magnetic Detection Scanner for Imaging Magnetic Particles in Planar Samples
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Frequency Mixing Magnetic Detection Scanner for Imaging Magnetic Particles in Planar Samples

Published on: June 9, 2016

[Magnetic particle imaging (MPI)].

J Haegele1, T Sattel, M Erbe

  • 1Klinik für Radiologie und Nuklearmedizin, Universitätsklinikum Schleswig-Holstein, Lübeck. haegele@radiologie.uni-luebeck.de

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|December 27, 2011
PubMed
Summary
This summary is machine-generated.

Magnetic particle imaging (MPI) offers a radiation-free, quantitative method for visualizing superparamagnetic iron oxides. This review covers MPI

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Registered Bioimaging of Nanomaterials for Diagnostic and Therapeutic Monitoring
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Registered Bioimaging of Nanomaterials for Diagnostic and Therapeutic Monitoring

Published on: December 9, 2010

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Last Updated: May 26, 2026

Frequency Mixing Magnetic Detection Scanner for Imaging Magnetic Particles in Planar Samples
07:01

Frequency Mixing Magnetic Detection Scanner for Imaging Magnetic Particles in Planar Samples

Published on: June 9, 2016

Registered Bioimaging of Nanomaterials for Diagnostic and Therapeutic Monitoring
17:16

Registered Bioimaging of Nanomaterials for Diagnostic and Therapeutic Monitoring

Published on: December 9, 2010

Area of Science:

  • Physics and Engineering
  • Biomedical Imaging
  • Nanotechnology

Context:

  • Magnetic particle imaging (MPI) is an emerging tomographic technique.
  • It visualizes the spatial distribution and concentration of superparamagnetic iron oxides (SPIOs).
  • MPI offers high sensitivity and resolution without ionizing radiation.

Purpose:

  • To review the physical and technical fundamentals of MPI.
  • To present various concepts for clinical MPI scanners.
  • To outline current and potential clinical applications of MPI.

Summary:

  • MPI provides quantitative, high-resolution imaging of SPIOs.
  • The review details the underlying physics, technical aspects, and scanner designs.
  • Key applications in cardiovascular imaging, interventions, oncology, and molecular imaging are discussed.

Impact:

  • MPI shows significant promise as a safe and effective medical imaging modality.
  • It enables advanced diagnostics and therapeutic monitoring.
  • Potential to revolutionize areas from oncology to cardiovascular disease assessment.