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Signal Intensity
 
Signal intensity interpretation in MR imaging has a major problem.
Often there is no intuitive approach to signal behavior as signal intensity is a very complicated function of the contrast-determining tissue parameter, proton density, T1 and T2, and the machine parameters TR and TE. For this reason, the terms T1 weighted image, T2 weighted image and proton density weighted image were introduced into clinical MR imaging.
Air and bone produce low-intensity, weaker signals with darker images. Fat and marrow produce high-intensity signals with brighter images.
The signal intensity measured is related to the square of the xy-magnetization, which in a SE pulse sequence is given by
Mxy = Mxy0(1-exp(-TR/T1)) exp(-TE/T2) (1)
where Mxy0 = Mz0 is proportional to the proton or spin density, and corresponds to the z-magnetization present at zero time of the experiment when it is tilted into the xy-plane.

See also T2 Weighted Image and Ernst Angle.
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• View the NEWS results for 'Signal Intensity' (1).Open this link in a new window.

• View the DATABASE results for 'Signal Intensity' (56).Open this link in a new window

 
Further Reading:
  Basics:
Contrast mechanisms in magnetic resonance imaging
2004   by www.iop.org    
Image Characteristics and Quality
   by www.sprawls.org    
  News & More:
Specialized MRI sensor can detect light deep within tissues
Thursday, 22 December 2022
Study compares effect of food intake on manganese-based MRI contrast agent absorption
Saturday, 3 December 2022   by www.itnonline.com    
Kidney stone imaging with 3D ultra-short echo time (UTE) magnetic resonance imaging. A phantom study - Abstract
Wednesday, 11 March 2015   by www.urotoday.com    
Signal Suppression
 
The elimination or reduction of a particular signal by, for example, the application of a narrow band frequency-selective preparation pulse centered at the resonant frequency of the signal. This can also be accomplished using an inversion recovery technique to null the signal as it recovers its longitudinal magnetization.
 
Images, Movies, Sliders:
 Knee MRI Sagittal STIR 003  Open this link in a new window
    
 Brain MRI Coronal FLAIR 001  Open this link in a new window
    
 
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• View the DATABASE results for 'Signal Suppression' (2).Open this link in a new window

MRI Resources 
RIS - Research Labs - MRI Technician and Technologist Schools - Quality Advice - Pediatric and Fetal MRI - Societies
 
Signal to Noise Ratio
 
(SNR or S/N) The signal to noise ratio is used in MRI to describe the relative contributions to a detected signal of the true signal and random superimposed signals ('background noise') - a criterion for image quality.
One common method to increase the SNR is to average several measurements of the signal, on the expectation that random contributions will tend to cancel out. The SNR can also be improved by sampling larger volumes (increasing the field of view and slice thickness with a corresponding loss of spatial resolution) or, within limits, by increasing the strength of the magnetic field used. Surface coils can also be used to improve local signal intensity. The SNR will depend, in part, on the electrical properties of the sample or patient being studied. The SNR increases in proportion to voxel volume (1/resolution), the square root of the number of acquisitions (NEX), and the square root of the number of scans (phase encodings). SNR decreases with the field of view squared (FOV2) and wider bandwidths. See also Signal Intensity and Spin Density.

Measuring SNR:
Record the mean value of a small ROI placed in the most homogeneous area of tissue with high signal intensity (e.g. white matter in thalamus). Calculate the standard deviation for the largest possible ROI placed outside the object in the image background (avoid ghosting/aliasing or eye movement artifact regions).
The SNR is then:
Mean Signal/Standard Deviation of Background Noise
 
Images, Movies, Sliders:
 Brain MRI Images T1  Open this link in a new window
      

 
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• View the NEWS results for 'Signal to Noise Ratio' (2).Open this link in a new window.

• View the DATABASE results for 'Signal to Noise Ratio' (48).Open this link in a new window

 
Further Reading:
  Basics:
Musculoskeletal MRI at 3.0 T: Relaxation Times and Image Contrast
Sunday, 1 August 2004   by www.ajronline.org    
  News & More:
Picture-Perfect Particles Enhance MRI Signal
Friday, 13 April 2012   by cen.acs.org    
Researchers design 'intelligent' metamaterial to make MRIs affordable and accessible
Tuesday, 5 November 2019   by phys.org    
Metamaterials boost sensitivity of MRI machines
Thursday, 14 January 2016   by www.eurekalert.org    
Optimizing Musculoskeletal MR
   by rad.usuhs.mil    
Silicon Graphics® OCTANE®
 
Silicon Graphics workstations are used in products from many other industry-leading medical manufacturers including:
The CT and MR products from General Electric Medical Systems uses Silicon Graphics® O2 and OCTANE workstation.
From Siemens Medical Systems, Inc., the postprocessing CT and MR workstations use Silicon Graphics O2 workstations.
Toshiba America MRI Inc. uses Silicon Graphics O2 workstations in its MRI scanners.
Bruker uses Silicon Graphics O2 workstations in its MRI scanners.
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Simultaneous Acquisition of Spatial Harmonics
 
(SMASH) Several lines of data are acquired for each phase encoding step, which is also referred to as a k-space trajectory.
SMASH imaging with a four-element array coil is four times faster and can be used to achieve almost real-time imaging. The maximum reduction in acquisition time is determined by the number of array coil elements. Thus, the heart can be scanned with higher temporal resolution and increased spatial resolution.
SMASH and SENSE differ from other techniques in which only one line of k-space data is acquired for each phase encoding gradient step.

See Sensitivity encoding.
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• View the DATABASE results for 'Simultaneous Acquisition of Spatial Harmonics' (3).Open this link in a new window

MRI Resources 
Lung Imaging - Crystallography - Guidance - Jobs - Quality Advice - Sequences
 
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