Viktor Puchnin scite author profile

Purpose To demonstrate the feasibility of using octafluorocyclobutane (OFCB, c‐C4F8) for T1 mapping of lungs in 19F MRI. Methods The study was performed at 7 T in three healthy rats and three rats with pulmonary hypertension. To increase the sensitivity of 19F MRI, a bent‐shaped RF coil with periodic metal strips structure was used. The double flip angle method was used to calculate normalized transmitting RF field (B1n+) maps and for correcting T1 maps built with the variable flip angle (VFA) method. The ultrashort TE pulse sequence was applied for acquiring MR images throughout the study. Results The dependencies of OFCB relaxation times on its partial pressure in mixtures with oxygen, air, helium, and argon were obtained. T1 of OFCB linearly depended on its partial pressure with the slope of about 0.35 ms/kPa in the case of free diffusion. RF field inhomogeneity leads to distortion of T1 maps built with the VFA method, and therefore to high standard deviation of T1 in these maps. To improve the accuracy of the T1 maps, the B1n+ maps were applied for VFA correction. This contributed to a 2–3‐fold decrease in the SD of T1 values in the corresponding maps compared with T1 maps calculated without the correction. Three‐dimensional T1 maps were obtained, and the mean T1 in healthy rat lungs was 35 ± 10 ms, and in rat lungs with pulmonary hypertension – 41 ± 9 ms. Conclusion OFCB has a spin‐rotational relaxation mechanism and can be used for 19F T1 mapping of lungs. The calculated OFCB maps captured ventilation defects induced by edema.

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Comparison of different wireless coils for 1.5 T bilateral breast MRI

Puchnin

Nikulin

Hurshkainen

et al. 2021

J. Phys.: Conf. Ser.

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In this work, we compare three types of transceive wireless coils: Helmholtz-type coil, metamaterial-inspired coil and their combination. Each transceive coil is electromagnetically coupled to a body coil “birdcage” type of a 1.5 T MR scanner and improves bilateral breast imaging performance. While Helmholtz-type coil and metamaterial-inspired coil based on coupled split loop resonators are linearly polarized, their combination allows to couple with both linear components of the radiofrequency magnetic field, providing a more significant effect of a local boosting of the body coil’s transmit efficiency and radiofrequency safety in comparison with birdcage coil only.

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Magnetic resonance imaging with a multi-tunable metamaterial-inspired radiofrequency coil

Puchnin

Ivanov

Gulyaev

et al. 2021

J. Phys.: Conf. Ser.

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We present the initial experimental results obtained using a two-part receive/transmit (Rx/Tx) radiofrequency (RF) coil design for small animals magnetic resonance imaging at 7 T. The assembly uses a butterfly-type coil tuned to 300 MHz for scanning the 1H nuclei and a non-resonant antenna with a metamaterial-inspired resonator tunable over wide frequency range for X-nuclei. 1H, 31P, 23Na and 13C are selected as test nuclei in this work. Coil simulations show the two parts of the RF-assembly to be efficiently operating at the required frequencies. Simulations and phantom imaging show sufficiently homogeneous transverse transmit RF fields and tuning capabilities for the pilot heteronuclear experiments.

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Viktor Puchnin

Metamaterial inspired wireless coil for clinical breast imaging

Control of the near magnetic field pattern uniformity inside metamaterial-inspired volumetric resonators

Т₁ mapping of rat lungs in ¹⁹F MRI using octafluorocyclobutane

Comparison of different wireless coils for 1.5 T bilateral breast MRI

Magnetic resonance imaging with a multi-tunable metamaterial-inspired radiofrequency coil

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Viktor Puchnin

Metamaterial inspired wireless coil for clinical breast imaging

Control of the near magnetic field pattern uniformity inside metamaterial-inspired volumetric resonators

Т1 mapping of rat lungs in 19F MRI using octafluorocyclobutane

Comparison of different wireless coils for 1.5 T bilateral breast MRI

Magnetic resonance imaging with a multi-tunable metamaterial-inspired radiofrequency coil

Contact Info

Product

Resources

About

Т₁ mapping of rat lungs in ¹⁹F MRI using octafluorocyclobutane