Fat/water separation in k‐space with real‐valued estimates and its combination with POCS

Berglund, Johan; Rydén, Henric; Avventi, Enrico; Norbeck, Ola; Sprenger, Tim; Skare, Stefan

doi:10.1002/mrm.27949

Cited by 9 publications

(26 citation statements)

References 29 publications

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“…Given the estimated off‐resonance

\overset{ψ}{true}

and

\overset{ϕ}{true}

for each sample, real‐valued estimates of X were calculated using weighted least‐squares 20 :

\overset{false^}{boldX} = {(][, \begin{matrix} left L \\ left L^{*} \end{matrix})}^{+} [\begin{matrix} SB false(\overset{ψ}{true} false) e^{- i ϕ} \\ {()(, SB, false(\overset{ψ}{true} false), e^{- i ϕ})}^{*} \end{matrix}]

where the + and * superscript denotes the pseudoinverse and conjugate operator, respectively. The NSA of the species is calculated from the signal variance divided by the variance of the estimate ρ ∈ { W , F } of interest:

{NSA}_{\overset{ρ}{true}} = \frac{σ^{2}}{Var (\overset{ρ}{true})}

…”

Section: Methodsmentioning

confidence: 99%

“…A non‐uniform k‐space regularization was applied to achieve a leveled noise power spectrum in the fat and water estimates 19 . The real‐valued constraint allows partial Fourier data to be separated in a modified projection onto convex sets (POCS) technique, 20 enforcing k‐space symmetry in the estimates rather than in the signal domain. This also improves the conditionality of k‐space points with insufficient CSE by including the conjugate sample pair.…”

Section: Methodsmentioning

confidence: 99%

“…Here, we introduce a dual readout bandwidths (dBW‐RARE) approach that aims to achieve high readout resolution, completely remove dead times and avoid redundant CSE while still complying with CPMG conditions. The problem of choosing optimal readout waveforms to minimize the noise in the estimates is also investigated, where a modified POCS technique was used to allow an additional degree of freedom 20 . We demonstrate the technique for

T_{2}

and PD weighted images on 1.5T and 3T systems.…”

Section: Introductionmentioning

confidence: 99%

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RARE two‐point Dixon with dual bandwidths

Rydén

Berglund

Norbeck

et al. 2020

Magnetic Resonance in Med

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Purpose To investigate the impact of dual readout bandwidths (dBW) in a dual echo fat/water acquisition and describe a dBW‐rapid acquisition relaxation enhanced, or turbo spin echo sequence where the concept is used to improve SNR by removing dead times between refocusing pulses and avoiding redundant Chemical‐shift encoded. Methods Cramér‐Rao bounds and Monte Carlo simulations were used to investigate a two‐point fat/water model where the difference in bandwidths is incorporated. In vivo images were acquired at 1.5 and 3 T with the dBW‐rapid acquisition relaxation enhanced, or turbo spin echo sequence. Typical bandwidth ratios were 1:2. SNR was compared with a single bandwidth sequence under identical scan parameters at 3T. Results Monte Carlo simulations and Cramér‐Rao analysis demonstrate that number of signal averages can be improved with dual bandwidths compared to conventional single bandwidth acquisitions. The dBW‐rapid acquisition relaxation enhanced, or turbo spin echo sequence can acquire images with high readout resolutions with well‐conditioned sampling. An SNR improvement of 52% was measured, in line with the theoretical gain of 54%. Conclusions The proposed dBW‐rapid acquisition relaxation enhanced, or turbo spin echo sequence is a highly SNR‐efficient two‐point rapid acquisition relaxation enhanced, or turbo spin echo sequence without dead times, and can acquire images at higher resolutions than current vendor‐supplied alternatives.

show abstract

“…Given the estimated off‐resonance

\overset{ψ}{true}

and

\overset{ϕ}{true}

for each sample, real‐valued estimates of X were calculated using weighted least‐squares 20 :

\overset{false^}{boldX} = {(][, \begin{matrix} left L \\ left L^{*} \end{matrix})}^{+} [\begin{matrix} SB false(\overset{ψ}{true} false) e^{- i ϕ} \\ {()(, SB, false(\overset{ψ}{true} false), e^{- i ϕ})}^{*} \end{matrix}]

{NSA}_{\overset{ρ}{true}} = \frac{σ^{2}}{Var (\overset{ρ}{true})}

…”

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

T_{2}

and PD weighted images on 1.5T and 3T systems.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

RARE two‐point Dixon with dual bandwidths

Rydén

Berglund

Norbeck

et al. 2020

Magnetic Resonance in Med

Self Cite

View full text Add to dashboard Cite

show abstract

“…By modeling x as real‐valued in image space, fat and water estimation enforces conjugate symmetry in k‐space 20 . Although Equation is exactly determined (two complex measurements

S_{1}

S_{2}

, and four real‐valued estimates, ϕ , ψ , W , and F ), estimating and demodulating only low resolution ϕ ‐ and ψ ‐maps leaves an over‐determined inverse problem.…”

Section: Methodsmentioning

confidence: 99%

“…17 By modeling x as real-valued in image space, fat and water estimation enforces conjugate symmetry in k-space. 20 Although Equation (4) is exactly determined (two complex measurements S 1 , S 2 , and four real-valued estimates, ϕ, ψ, W, and F), estimating and demodulating only low resolution ϕand ψ-maps leaves an over-determined inverse problem. The additional degrees of freedom can be used to take advantage of the known differences in signal uncertainties Λ for an improved estimation: Here,  () is the Fourier transform operator, and S , = Se −i(̂+̂t) denotes an acquired echo after image space demodulation with the estimated ̂ and ̂.…”

Section: Fat/water Separationmentioning

confidence: 99%