Real-time MRI: Difference between revisions
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== Real-time MRI == | |||
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File:Real-time MRI of a human heart (2-chamber view).ogv|Real-time MRI of a human heart (2-chamber view) | |||
File:Morphometric-Differences-of-Vocal-Tract-Articulators-in-Different-Loudness-Conditions-in-Singing-pone.0153792.s004.ogv|Morphometric Differences of Vocal Tract Articulators in Different Loudness Conditions in Singing | |||
File:Slew Rate Diagram.jpg|Slew Rate Diagram | |||
File:Rectilinear Sampling.gif|Rectilinear Sampling | |||
File:Other K-Space Trajectories.png|Other K-Space Trajectories | |||
File:Parallel Imaging Coil Collection.jpg|Parallel Imaging Coil Collection | |||
File:CMR Cardiac.jpg|CMR Cardiac | |||
File:Machine Learning.jpg|Machine Learning | |||
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Latest revision as of 01:32, 20 February 2025
Real-time MRI is a medical imaging technique that allows for the continuous observation of moving objects in real time. This technique is particularly useful in the field of medicine and healthcare, where it can be used to monitor the functioning of the heart, lungs, and other organs in real time.
Overview[edit]
Real-time MRI, also known as dynamic MRI, is a type of magnetic resonance imaging (MRI) that captures images in real time. This is achieved by using a fast imaging technique, which allows for the continuous capture of images at a rate of up to 30 frames per second. This makes it possible to observe the movement and functioning of organs in real time, which can be particularly useful in the diagnosis and treatment of various medical conditions.
Applications[edit]
Real-time MRI has a wide range of applications in the field of medicine. It is commonly used in cardiology to monitor the functioning of the heart, in pulmonology to observe the movement of the lungs, and in gastroenterology to study the movement of the digestive system. It can also be used in neurology to observe the functioning of the brain in real time.
In addition to these applications, real-time MRI can also be used in interventional radiology to guide the placement of catheters, stents, and other medical devices. This can help to improve the accuracy and safety of these procedures.
Advantages and Disadvantages[edit]
One of the main advantages of real-time MRI is that it allows for the continuous observation of moving objects in real time. This can provide valuable information about the functioning of organs, which can help to improve the diagnosis and treatment of various medical conditions.
However, real-time MRI also has some disadvantages. For example, it requires a high level of technical expertise to perform, and it can be more expensive than other imaging techniques. In addition, the quality of the images produced by real-time MRI can be affected by motion artifacts, which can make it difficult to interpret the results.
See Also[edit]
- Magnetic Resonance Imaging
- Cardiology
- Pulmonology
- Gastroenterology
- Neurology
- Interventional Radiology
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Real-time MRI[edit]
-
Real-time MRI of a human heart (2-chamber view) -
Morphometric Differences of Vocal Tract Articulators in Different Loudness Conditions in Singing
-
Slew Rate Diagram -
Rectilinear Sampling -
Other K-Space Trajectories -
Parallel Imaging Coil Collection -
CMR Cardiac -
Machine Learning
