Publications

CONCLUSION: 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.

CONCLUSION: 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.

CONCLUSION: 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.

The MRI hybrid ablation system is an approach to use the MR (magnetic resonance) scanner’s radiofrequency amplifier itself as power source for ablation. Hereby, an electrode is connected to the MR internal radiofrequency amplifier. An average RF power is provided through a train of short RF pulses, which is sufficient to thermally destroy tissue. However,…

The MRI hybrid ablation system is an approach to use the MR (magnetic resonance) scanner’s radiofrequency amplifier itself as power source for ablation. Hereby, an electrode is connected to the MR internal radiofrequency amplifier. An average RF power is provided through a train of short RF pulses, which is sufficient to thermally destroy tissue. However,…

The MRI hybrid ablation system is an approach to use the MR (magnetic resonance) scanner’s radiofrequency amplifier itself as power source for ablation. Hereby, an electrode is connected to the MR internal radiofrequency amplifier. An average RF power is provided through a train of short RF pulses, which is sufficient to thermally destroy tissue. However,…

The MRI hybrid ablation system is an approach to use the MR (magnetic resonance) scanner’s radiofrequency amplifier itself as power source for ablation. Hereby, an electrode is connected to the MR internal radiofrequency amplifier. An average RF power is provided through a train of short RF pulses, which is sufficient to thermally destroy tissue. However,…

The MRI hybrid ablation system is an approach to use the MR (magnetic resonance) scanner’s radiofrequency amplifier itself as power source for ablation. Hereby, an electrode is connected to the MR internal radiofrequency amplifier. An average RF power is provided through a train of short RF pulses, which is sufficient to thermally destroy tissue. However,…

The MRI hybrid ablation system is an approach to use the MR (magnetic resonance) scanner’s radiofrequency amplifier itself as power source for ablation. Hereby, an electrode is connected to the MR internal radiofrequency amplifier. An average RF power is provided through a train of short RF pulses, which is sufficient to thermally destroy tissue. However,…

The MRI hybrid ablation system is an approach to use the MR (magnetic resonance) scanner’s radiofrequency amplifier itself as power source for ablation. Hereby, an electrode is connected to the MR internal radiofrequency amplifier. An average RF power is provided through a train of short RF pulses, which is sufficient to thermally destroy tissue. However,…