MRI$95394$ - significado y definición. Qué es MRI$95394$
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Qué (quién) es MRI$95394$ - definición

PULSE SEQUENCE USED IN MAGNETIC RESONANCE IMAGING (MRI)
Flash mri; FLASH MRI

Intraoperative MRI         
Wikipedia talk:Articles for creation/Intraoperative MRI
Intraoperative magnetic resonance imaging (iMRI) refers to an operating room configuration that enables surgeons to image the patient via an MRI scanner while the patient is undergoing surgery, particularly brain surgery. iMRI reduces the risk of damaging critical parts of the brain and helps confirm that the surgery was successful or if additional resection is needed before the patient’s head is closed and the surgery completed.
Synthetic MRI         
TYPE OF MRI
User:Dioid/Synthetic MRI; Draft:Synthetic MRI
Synthetic MRI is a simulation method in Magnetic Resonance Imaging (MRI), for generating contrast weighted images based on measurement of tissue properties. The synthetic (simulated) images are generated after an MR study, from parametric maps of tissue properties.
Magnetic resonance imaging burn         
MRI burn
Magnetic resonance imaging burn (also known as an "MRI burn") is a cutaneous condition characterized by first-, second- or third-degree burns due to metal or wire contact with skin, creating a closed-loop conduction system.

Wikipedia

Fast low angle shot magnetic resonance imaging

Fast low angle shot magnetic resonance imaging (FLASH MRI) is a particular sequence of magnetic resonance imaging. It is a gradient echo sequence which combines a low-flip angle radio-frequency excitation of the nuclear magnetic resonance signal (recorded as a spatially encoded gradient echo) with a short repetition time. It is the generic form of steady-state free precession imaging.

Different manufacturers of MRI equipment use different names for this experiment. Siemens uses the name FLASH, General Electric used the name SPGR (Spoiled Gradient Echo), and Philips uses the name CE-FFE-T1 (Contrast-Enhanced Fast Field Echo) or T1-FFE.

Depending on the desired contrast, the generic FLASH technique provides spoiled versions that destroy transverse coherences and yield T1 contrast as well as refocused versions (constant phase per repetition) and fully balanced versions (zero phase per repetition) that incorporate transverse coherences into the steady-state signal and offer T1/T2 contrast.

Applications include:

  • cross-sectional images with acquisition times of a few seconds enable MRI studies of the thorax and abdomen within a single breathhold,
  • dynamic acquisitions synchronized to the electrocardiogram generate movies of the beating heart,
  • sequential acquisitions monitor physiological processes such as the differential uptake of contrast media into body tissues,
  • three-dimensional acquisitions visualize complex anatomic structures (brain, joints) at unprecedented high spatial resolution in all three dimensions and along arbitrary view directions, and
  • Magnetic resonance angiography (MRA) yields three-dimensional representations of the vasculature.