TY - JOUR
T1 - Noninvasive quantification of cerebrovascular pressure changes using 4D Flow MRI
AU - Marlevi, David
AU - Schollenberger, Jonas
AU - Aristova, Maria
AU - Ferdian, Edward
AU - Ma, Yue
AU - Young, Alistair A.
AU - Edelman, Elazer R.
AU - Schnell, Susanne
AU - Figueroa, C. Alberto
AU - Nordsletten, David A.
N1 - Publisher Copyright:
© 2021 International Society for Magnetic Resonance in Medicine.
PY - 2021/12
Y1 - 2021/12
N2 - Purpose: Hemodynamic alterations are indicative of cerebrovascular disease. However, the narrow and tortuous cerebrovasculature complicates image-based assessment, especially when quantifying relative pressure. Here, we present a systematic evaluation of image-based cerebrovascular relative pressure mapping, investigating the accuracy of the routinely used reduced Bernoulli (RB), the extended unsteady Bernoulli (UB), and the full-field virtual work-energy relative pressure ((Formula presented.) WERP) method. Methods: Patient-specific in silico models were used to generate synthetic cerebrovascular 4D Flow MRI, with RB, UB, and (Formula presented.) WERP performance quantified as a function of spatiotemporal sampling and image noise. Cerebrovascular relative pressures were also derived in 4D Flow MRI from healthy volunteers ((Formula presented.)), acquired at two spatial resolutions (dx = 1.1 and 0.8 mm). Results: The in silico analysis indicate that accurate relative pressure estimations are inherently coupled to spatial sampling: at dx = 1.0 mm high errors are reported for all methods; at dx = 0.5 mm (Formula presented.) WERP recovers relative pressures at a mean error of 0.02 ± 0.25 mm Hg, while errors remain higher for RB and UB (mean error of −2.18 ± 1.91 and −2.18 ± 1.87 mm Hg, respectively). The dependence on spatial sampling is also indicated in vivo, albeit with higher correlative dependence between resolutions using (Formula presented.) WERP (k = 0.64, R2 = 0.81 for dx = 1.1 vs. 0.8 mm) than with RB or UB (k = 0.04, R2 = 0.03, and k = 0.07, R2 = 0.07, respectively). Conclusion: Image-based full-field methods such as (Formula presented.) WERP enable cerebrovascular relative pressure mapping; however, accuracy is directly dependent on utilized spatial resolution.
AB - Purpose: Hemodynamic alterations are indicative of cerebrovascular disease. However, the narrow and tortuous cerebrovasculature complicates image-based assessment, especially when quantifying relative pressure. Here, we present a systematic evaluation of image-based cerebrovascular relative pressure mapping, investigating the accuracy of the routinely used reduced Bernoulli (RB), the extended unsteady Bernoulli (UB), and the full-field virtual work-energy relative pressure ((Formula presented.) WERP) method. Methods: Patient-specific in silico models were used to generate synthetic cerebrovascular 4D Flow MRI, with RB, UB, and (Formula presented.) WERP performance quantified as a function of spatiotemporal sampling and image noise. Cerebrovascular relative pressures were also derived in 4D Flow MRI from healthy volunteers ((Formula presented.)), acquired at two spatial resolutions (dx = 1.1 and 0.8 mm). Results: The in silico analysis indicate that accurate relative pressure estimations are inherently coupled to spatial sampling: at dx = 1.0 mm high errors are reported for all methods; at dx = 0.5 mm (Formula presented.) WERP recovers relative pressures at a mean error of 0.02 ± 0.25 mm Hg, while errors remain higher for RB and UB (mean error of −2.18 ± 1.91 and −2.18 ± 1.87 mm Hg, respectively). The dependence on spatial sampling is also indicated in vivo, albeit with higher correlative dependence between resolutions using (Formula presented.) WERP (k = 0.64, R2 = 0.81 for dx = 1.1 vs. 0.8 mm) than with RB or UB (k = 0.04, R2 = 0.03, and k = 0.07, R2 = 0.07, respectively). Conclusion: Image-based full-field methods such as (Formula presented.) WERP enable cerebrovascular relative pressure mapping; however, accuracy is directly dependent on utilized spatial resolution.
KW - 4D Flow MRI
KW - cerebrovascular
KW - hemodynamics
KW - patient-specific modeling
KW - relative pressure
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U2 - 10.1002/mrm.28928
DO - 10.1002/mrm.28928
M3 - Article
C2 - 34431550
AN - SCOPUS:85113321316
SN - 0740-3194
VL - 86
SP - 3096
EP - 3110
JO - Magnetic resonance in medicine
JF - Magnetic resonance in medicine
IS - 6
ER -