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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...
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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,...

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Registered Bioimaging of Nanomaterials for Diagnostic and Therapeutic Monitoring
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Published on: December 9, 2010

Highly parallel transmit/receive systems for dynamic MRI.

Steven M Wright1, Mary Preston McDougall, Ke Feng

  • 1Department of Electrical and Computer Engineering, Texas A&M University, College Station, TX 77843, USA. smwright@tamu.edu

Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference
|December 8, 2009
PubMed
Summary
This summary is machine-generated.

Advancements in magnetic resonance imaging (MRI) include new parallel transmitters, enabling high-speed imaging. A 64-channel transmitter achieved 1000 frames per second for dynamic MRI applications.

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Area of Science:

  • Medical Imaging
  • Physics
  • Engineering

Background:

  • Dynamic MRI capabilities are expanding with advanced receiver technology.
  • Parallel transmitter technology is emerging in MRI systems.
  • High channel count receivers (64, 128) and transmitters (8, 16) are being developed.

Purpose of the Study:

  • To detail the development of a 64-channel parallel transmitter for MRI.
  • To showcase applications of this technology in high-speed imaging.
  • To demonstrate the potential for achieving unprecedented imaging speeds.

Main Methods:

  • Development of a novel 64-channel parallel transmitter system.
  • Integration and testing of the transmitter with MRI hardware.
  • Implementation of advanced imaging sequences for high-speed data acquisition.

Main Results:

  • Successful development and testing of the 64-channel transmitter.
  • Demonstration of high-speed MR imaging capabilities.
  • Achieved imaging speeds of up to 1000 frames per second.

Conclusions:

  • The 64-channel transmitter represents a significant advancement in MRI technology.
  • High-speed dynamic MRI is feasible with parallel transmitter systems.
  • This technology opens new avenues for clinical and research applications requiring rapid imaging.