Publications
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Correction of heat-induced susceptibility changes in respiratory-triggered 2D-PRF-based thermometry for monitoring of magnetic resonance-guided hepatic microwave ablation in a human-like <em>in vivo</em> porcine model
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Read more →: Correction of heat-induced susceptibility changes in respiratory-triggered 2D-PRF-based thermometry for monitoring of magnetic resonance-guided hepatic microwave ablation in a human-like <em>in vivo</em> porcine modelCONCLUSION: Using susceptibility corrected 2D PRF-based MR-thermometry to predict the ablation zones of hepatic MWA provided a good agreement in comparison to T1w post-ablation CE MR-imaging and histopathology.
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Correction of heat-induced susceptibility changes in respiratory-triggered 2D-PRF-based thermometry for monitoring of magnetic resonance-guided hepatic microwave ablation in a human-like <em>in vivo</em> porcine model
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Read more →: Correction of heat-induced susceptibility changes in respiratory-triggered 2D-PRF-based thermometry for monitoring of magnetic resonance-guided hepatic microwave ablation in a human-like <em>in vivo</em> porcine modelCONCLUSION: Using susceptibility corrected 2D PRF-based MR-thermometry to predict the ablation zones of hepatic MWA provided a good agreement in comparison to T1w post-ablation CE MR-imaging and histopathology.
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Correction of heat-induced susceptibility changes in respiratory-triggered 2D-PRF-based thermometry for monitoring of magnetic resonance-guided hepatic microwave ablation in a human-like <em>in vivo</em> porcine model
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Read more →: Correction of heat-induced susceptibility changes in respiratory-triggered 2D-PRF-based thermometry for monitoring of magnetic resonance-guided hepatic microwave ablation in a human-like <em>in vivo</em> porcine modelCONCLUSION: Using susceptibility corrected 2D PRF-based MR-thermometry to predict the ablation zones of hepatic MWA provided a good agreement in comparison to T1w post-ablation CE MR-imaging and histopathology.
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Correction of heat-induced susceptibility changes in respiratory-triggered 2D-PRF-based thermometry for monitoring of magnetic resonance-guided hepatic microwave ablation in a human-like <em>in vivo</em> porcine model
•
Read more →: Correction of heat-induced susceptibility changes in respiratory-triggered 2D-PRF-based thermometry for monitoring of magnetic resonance-guided hepatic microwave ablation in a human-like <em>in vivo</em> porcine modelCONCLUSION: Using susceptibility corrected 2D PRF-based MR-thermometry to predict the ablation zones of hepatic MWA provided a good agreement in comparison to T1w post-ablation CE MR-imaging and histopathology.
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Correction of heat-induced susceptibility changes in respiratory-triggered 2D-PRF-based thermometry for monitoring of magnetic resonance-guided hepatic microwave ablation in a human-like <em>in vivo</em> porcine model
•
Read more →: Correction of heat-induced susceptibility changes in respiratory-triggered 2D-PRF-based thermometry for monitoring of magnetic resonance-guided hepatic microwave ablation in a human-like <em>in vivo</em> porcine modelCONCLUSION: Using susceptibility corrected 2D PRF-based MR-thermometry to predict the ablation zones of hepatic MWA provided a good agreement in comparison to T1w post-ablation CE MR-imaging and histopathology.
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Correction of heat-induced susceptibility changes in respiratory-triggered 2D-PRF-based thermometry for monitoring of magnetic resonance-guided hepatic microwave ablation in a human-like <em>in vivo</em> porcine model
•
Read more →: Correction of heat-induced susceptibility changes in respiratory-triggered 2D-PRF-based thermometry for monitoring of magnetic resonance-guided hepatic microwave ablation in a human-like <em>in vivo</em> porcine modelCONCLUSION: Using susceptibility corrected 2D PRF-based MR-thermometry to predict the ablation zones of hepatic MWA provided a good agreement in comparison to T1w post-ablation CE MR-imaging and histopathology.
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Absolute thermometry using hyperpolarized <sup>129</sup> Xe free-induction decay and spin-echo chemical-shift imaging in rats
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Read more →: Absolute thermometry using hyperpolarized <sup>129</sup> Xe free-induction decay and spin-echo chemical-shift imaging in ratsCONCLUSION: 129 $$ {}^{129} $$ Xe MRI using conventional CSI and turbo spectroscopic imaging of lipid-dissolved 129 $$ {}^{129} $$ Xe enables precise temperature measurements in the rat’s abdomen using both FID and spin-echo acquisitions with acquisition of spin echoes enabling most precise temperature measurements.
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Absolute thermometry using hyperpolarized <sup>129</sup> Xe free-induction decay and spin-echo chemical-shift imaging in rats
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Read more →: Absolute thermometry using hyperpolarized <sup>129</sup> Xe free-induction decay and spin-echo chemical-shift imaging in ratsCONCLUSION: 129 $$ {}^{129} $$ Xe MRI using conventional CSI and turbo spectroscopic imaging of lipid-dissolved 129 $$ {}^{129} $$ Xe enables precise temperature measurements in the rat’s abdomen using both FID and spin-echo acquisitions with acquisition of spin echoes enabling most precise temperature measurements.
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Absolute thermometry using hyperpolarized <sup>129</sup> Xe free-induction decay and spin-echo chemical-shift imaging in rats
•
Read more →: Absolute thermometry using hyperpolarized <sup>129</sup> Xe free-induction decay and spin-echo chemical-shift imaging in ratsCONCLUSION: 129 $$ {}^{129} $$ Xe MRI using conventional CSI and turbo spectroscopic imaging of lipid-dissolved 129 $$ {}^{129} $$ Xe enables precise temperature measurements in the rat’s abdomen using both FID and spin-echo acquisitions with acquisition of spin echoes enabling most precise temperature measurements.
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Absolute thermometry using hyperpolarized <sup>129</sup> Xe free-induction decay and spin-echo chemical-shift imaging in rats
•
Read more →: Absolute thermometry using hyperpolarized <sup>129</sup> Xe free-induction decay and spin-echo chemical-shift imaging in ratsCONCLUSION: 129 $$ {}^{129} $$ Xe MRI using conventional CSI and turbo spectroscopic imaging of lipid-dissolved 129 $$ {}^{129} $$ Xe enables precise temperature measurements in the rat’s abdomen using both FID and spin-echo acquisitions with acquisition of spin echoes enabling most precise temperature measurements.