2021
DOI: 10.1002/mrm.28654
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PCA denoising and Wiener deconvolution of 31P 3D CSI data to enhance effective SNR and improve point spread function

Abstract: Purpose This study evaluates the performance of 2 processing methods, that is, principal component analysis‐based denoising and Wiener deconvolution, to enhance the quality of phosphorus 3D chemical shift imaging data. Methods Principal component analysis‐based denoising increases the SNR while maintaining spectral information. Wiener deconvolution reduces the FWHM of the voxel point spread function, which is increased by Hamming filtering or Hamming‐weighted acquisition. The proposed methods are evaluated usi… Show more

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Cited by 17 publications
(25 citation statements)
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“…Channel combination was performed using the Roemer equal noise algorithm 28 . Spectra were denoised with a principal component analysis–noise suppression algorithm 29,30 and zero‐filled to 2048 points. The linewidths and splittings of the HDO signal in each voxel were determined by fitting the signal with 2 Lorentzian lines, with equal linewidth, amplitude, and phase, using AMARES (Advanced Method for Accurate, Robust, and Efficient Spectral fitting) 31 …”
Section: Methodsmentioning
confidence: 99%
“…Channel combination was performed using the Roemer equal noise algorithm 28 . Spectra were denoised with a principal component analysis–noise suppression algorithm 29,30 and zero‐filled to 2048 points. The linewidths and splittings of the HDO signal in each voxel were determined by fitting the signal with 2 Lorentzian lines, with equal linewidth, amplitude, and phase, using AMARES (Advanced Method for Accurate, Robust, and Efficient Spectral fitting) 31 …”
Section: Methodsmentioning
confidence: 99%
“…Also, due to the high BMI of several patients, significantly increasing the distance between the coil and the septum, the SNR of the Pi peak was too low to allow reliable Pi/PCr quantification in 5 out of 17 recruited patients. The use of dedicated higher B 1 + performance RF coils, e.g., quadrature [ 32 , 33 ], or a birdcage design [ 34 ] combined with a similarly or more sensitive receive array as used here [ 35 , 36 ] could improve the achievable spectral SNR in such high BMI patients in the future. While we used a dedicated B 0 shimming procedure, additional higher order shimming might improve the field homogeneity further and yield narrower linewidth and thus higher SNR.…”
Section: Discussionmentioning
confidence: 99%
“…Both SURE and MP automated threshold selection lead to biased data in low SNR cases (because the rank threshold tends to 1 and signal variance is lost). The lower bias and skewness of the SURE SVT (soft thresholding) at high noise levels indicates that it or other thresholding functions may be optimal for low SNR regimes (or where trying to detect small signal fluctuations), such as phosphorus-31 MRS or diffusion-weighted MRS. 9 , 31 In fact, recent work investigating optimal matrix denoising 29 highlights the increased performance of soft thresholding in lower SNR regimes and also proposes optimized singular value shrinkage functions that outperform hard or soft thresholding in all SNR regimes. Evaluation of this parameter-free optimized singular value shrinkage method in both simulation and in vivo data would certainly be an interesting direction for future work.…”
Section: Discussionmentioning
confidence: 99%
“…High levels of apparent denoising are consistently achieved by denoising algorithms in MRS with additional encoding dimensions, 7 , 8 or MRSI. 1 , 9 , 10 However, it is not clear whether there is an overall reduction in uncertainty of final dynamic model parameters, 11 or metabolite concentrations (the typical output of MRSI). Denoising will lower the apparent noise in any given spectrum, but can introduce systematic model-based errors affecting the bias and variance of the output, ultimately resulting in lower reproducibility and higher mean squared error.…”
Section: Introductionmentioning
confidence: 99%
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