MRI ARTIFACTS.pptx
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Oct 16, 2023
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About This Presentation
MRI ARTIFACTS,ARTIFACTS,MOTION ARTIFACT,ALIASING ARTIFACT ,ZIPPER,BLOOMING,FLOW ARTIFACT AND THEIR CORRECTION,
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MRI ARTIFACTS BY:MS.AALIA ABDULLAH ASSISTANT PROFESSOR RADIOLOGY AND IMAGING MEWAR UNIVERSITY RAJASTHAN
Artifacts Artifacts are features that appear on a reconstructed image but are not part of the original anatomy. They may make the image unclear and harder to interpret, or they can mimic the appearance of pathology. The radiographer’s aim is to minimize artifacts. However, some artifacts have clinical/diagnostic uses.
Movement/Physiological Artifacts Motion artifact due to physical movements Motion artifact in MRI refers to the image degradation caused by patient or object motion during image acquisition. It can result in blurred, distorted, or ghosted images, and can significantly affect image quality and diagnostic accuracy.
CORRECTION Give clear instructions to patient before the scan Constantly communicate to claustrophobic patients Make the patient comfortable Use immobilization equipment or paddings Feed and wrap the infants Use oral or IV sedation Perform the scans under GA reduce scan time using fast scan techniques Adjust phase and frequency encoding directions to project artifact away from anatomy Use compressed sensing techniques
Aliasing / Wrap around artifact Aliasing, also known as wrap-around artifact, is a common artifact that can occur in magnetic resonance imaging (MRI) when the field of view (FOV) is smaller than the actual object being imaged. Spatial localisation is determined by the frequency of the spins within a selected sample of tissue. In 3D imaging phase encoding is used to select sections of tissue. If the anatomy extends beyond the FOV, a similar process may cause wrap-over in the slab select direction between slices at either end of the volume.
CORRECTION Increase field of view (FOV): using surface coils applying saturation bands.
MRI Zipper Artifact Zipper artifact is a type of artifact in MRI images that appears as a series of bright and dark stripes that run parallel to the phase-encoding direction. It is caused by a timing error in the gradient system that causes the gradient to switch on too early or too late, leading to phase errors in the acquired signals. There can be a range of hardware and software problems that could contribute to the zipper artifact in MRI scans
One common factor is inadequate RF shielding within the scanner room, which could result from factors such as a door being left open, a faulty door seal, or interference from electrical equipment like a satellite monitor. Additionally, the zipper artifact could arise from faults in the MRI system itself or issues related to the mains electricity supply.
Effect on image: Zipper artifact is characterized by the presence of stripes or bands across the image that appear as bright and dark lines that resemble the teeth of a zipper. These stripes or bands can appear parallel or oblique to the imaging plane and can affect image quality and diagnostic accuracy.
CORRECTION Check door is closed, check door seal is intact, remove electrical equipment, check for blown bulbs in scanner room Use MRI compatible monitoring equipment Call engineer if no obvious solution is found Regularly perform quality control tests to identify and address any issues with the scanner’s hardware.
Blooming Artifact Blooming artifact is a type of artifact that occurs in magnetic resonance imaging (MRI) when there are regions of high magnetic susceptibility differences. It appears as signal spreading or blooming beyond the actual boundaries of an object
Susceptibility Weighted Imaging (SWI) is a sequence that is particularly sensitive to magnetic susceptibility differences, making it useful for visualizing blood products, including hemorrhages. However, SWI can be susceptible to blooming artifact, which occurs when the signal from blood products spreads beyond their actual boundaries, leading to signal loss and distortion in surrounding structures.
CORRECTION Sequence selection: Choosing the appropriate MRI sequence is crucial. Gradient-echo sequences, such as susceptibility-weighted imaging (SWI) or T2*-weighted sequences, are commonly used to detect hemorrhages due to their sensitivity to blood products. However, they are also more susceptible to blooming artifact. Spin-echo sequences, such as T1-weighted or T2-weighted sequences, may be preferred when blooming artifact is a concern.
Flow Artifacts Flow artifacts in MRI refer to distortions or signal changes in the images caused by the movement of fluids, such as cerebrospinal fluid (CSF) and blood flow. These artifacts can result in blurring, ghosting, or signal loss in the images, making it challenging to accurately interpret the anatomical structures.
CORRECTION Lower TE can also be used, which will reduce the time between the 90° and 180° pulses and decrease the likelihood of spins moving in and out of the slice, thereby reducing the occurrence of flow void. NEX (Number of Excitations): NEX refers to the number of times the MRI scan is repeated to acquire multiple signal averages. Increasing the NEX can help improve the signal-to-noise ratio (SNR) by reducing random noise. This, in turn, can enhance image quality and reduce flow artifacts.
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