Rie B. Olin scite author profile

Acute ischemic stroke patients benefit from reperfusion in a short time-window after debut. Later treatment may be indicated if viable brain tissue is demonstrated and this outweighs the inherent risks of late reperfusion. Magnetic resonance imaging (MRI) with hyperpolarized [1-13C]pyruvate is an emerging technology that directly images metabolism. Here, we investigated its potential to detect viable tissue in ischemic stroke. Stroke was induced in pigs by intracerebral injection of endothelin 1. During ischemia, the rate constant of pyruvate-to-lactate conversion, kPL, was 52% larger in penumbra and 85% larger in the infarct compared to the contralateral hemisphere (P = 0.0001). Within the penumbra, the kPL was 50% higher in the regions that later infarcted compared to non-progressing regions (P = 0.026). After reperfusion, measures of pyruvate-to-lactate conversion were slightly decreased in the infarct compared to contralateral. In addition to metabolic imaging, we used hyperpolarized pyruvate for perfusion-weighted imaging. This was consistent with conventional imaging for assessment of infarct size and blood flow. Lastly, we confirmed the translatability of simultaneous assessment of metabolism and perfusion with hyperpolarized MRI in healthy volunteers. In conclusion, hyperpolarized [1-13C]pyruvate may aid penumbral characterization and increase access to reperfusion therapy for late presenting patients.

show abstract

Three‐dimensional accelerated acquisition for hyperpolarized ¹³C MR with blipped stack‐of‐spirals and conjugate‐gradient SENSE

Olin

Sánchez‐Heredia

Schulte

et al. 2020

Magnetic Resonance in Med

View full text Add to dashboard Cite

Purpose:To test a new parallel imaging strategy for acceleration of hyperpolarized 13 C MR acquisitions based on a 3D blipped stack-of-spirals trajectory and conjugategradient SENSE reconstruction with precalibrated sensitivities. Methods: The blipped stack-of-spirals trajectory was developed for an acceleration factor of 4, based on an undersampled stack-of-spirals with gradient blips during spiral readout. The trajectory was developed with volumetric coverage of a large FOV and with high spatial resolution. High temporal resolution was attained through spectral-spatial excitation and 4 excitations per volume. The blipped stack-of-spirals was evaluated in simulations and phantom experiments. Next, the method was evaluated for kidney and cardiac imaging in 2 separate healthy pigs. Results: Simulation and phantom results showed successful acquisition and reconstruction, but also revealed reconstruction challenges for certain locations and for wide signal sources. For the kidney experiment, the accelerated acquisition showed high similarity to 2 separately acquired fully sampled data sets with matched spatial and temporal resolution, respectively. For the cardiac experiment, the accelerated acquisition proved able to map each metabolite in 3 dimensions within a single cardiac cycle. Conclusion:The proposed method demonstrated effective mapping of metabolism in both kidneys and the heart of healthy pigs. Limitations seen in phantom experiments, may be irrelevant for most clinical applications, but should be kept in mind as well as reconstruction challenges related to residual aliasing. All in all, we show that the blipped stack-of-spirals is a relevant parallel imaging method for hyperpolarized human imaging, facilitating better insights into metabolism compared with nonaccelerated acquisition. K E Y W O R D S3D imaging, 13 C MRI, hyperpolarization, metabolic imaging, parallel imaging 520 | OLIN et aL.

show abstract

RF coil design for accurate parallel imaging on ¹³C MRSI using ²³Na sensitivity profiles

Sánchez‐Heredia

Olin

Grist

et al. 2022

Magnetic Resonance in Med

View full text Add to dashboard Cite

To develop a coil-based method to obtain accurate sensitivity profiles in 13 C MRI at 3T from the endogenous 23 Na. An eight-channel array is designed for 13 C MR acquisitions. As application examples, the array is used for two-fold accelerated acquisitions of both hyperpolarized 13 C metabolic imaging of pig kidneys and the human brain.Methods: A flexible coil array was tuned optimally for 13 C at 3T (32.1 MHz), with the coil coupling coefficients matched to be nearly identical at the resonance frequency of 23 Na (33.8 MHz). This is done by enforcing a high decoupling (obtained through highly mismatched preamplifiers) and adjusting the coupling frequency response. The SNR performance is compared to reference coils. Results:The measured sensitivity profiles on a phantom showed high spatial similarity for 13 C and 23 Na resonances, with average noise correlation of 9 and 11%, respectively.For acceleration factors 2, 3, and 4, the obtained maximum g-factors were 1.0, 1.1, and 2.6, respectively. The 23 Na profiles obtained in vivo could be used successfully to perform two-fold acceleration of hyperpolarized 13 C 3D acquisitions of both pig kidneys and a healthy human brain. Conclusion:A receive array has been developed in such a way that the 13 C sensitivity profiles could be accurately obtained from measurements at the 23 Na frequency. This technique facilitates accelerated acquisitions for hyperpolarized 13 C imaging. The SNR performance obtained at the 13 C frequency, compares well to other state-of-the-art coils for the same purpose, showing slightly better superficial and central SNR.

show abstract

A cryogenic 14‐channel ¹³C receiver array for 3T human head imaging

Wang

Sánchez‐Heredia

Olin

et al. 2022

Magnetic Resonance in Med

View full text Add to dashboard Cite

Purpose This article presents a novel 14‐channel receive‐only array for 13C human head imaging at 3 T that explores the SNR gain by operating at cryogenic temperature cooled by liquid nitrogen. Methods Cryostats are developed to evaluate single‐coil bench SNR performance and cool the 14‐channel array with liquid nitrogen while having enough thermal insulation between the coils and the sample. The temperature distribution for the coil array is measured. Circuits are adapted to the −189°C environment and implemented in the 14‐channel array. 13C images are acquired with the array at cryogenic and room temperature in a 3T scanner. Results Compared with room temperature, the array at cryogenic temperature provides 27%–168% SNR improvement over all voxels and 47% SNR improvement near the image center. The measurements show a decrease of the element noise correlation at cryogenic temperature. Conclusion It is demonstrated that higher SNR can be achieved by cryogenically cooling the 14‐channel array. A cryogenic array suitable for clinical imaging can be further developed on the array proposed. The cryogenic coil array is most likely suited for scenarios in which high SNR deep in a head and decent SNR on the periphery are required.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Rie B. Olin

Multi-site benchmarking of clinical 13C RF coils at 3T

Metabolic MRI with hyperpolarized [1-¹³C]pyruvate separates benign oligemia from infarcting penumbra in porcine stroke

Three‐dimensional accelerated acquisition for hyperpolarized ¹³C MR with blipped stack‐of‐spirals and conjugate‐gradient SENSE

RF coil design for accurate parallel imaging on ¹³C MRSI using ²³Na sensitivity profiles

A cryogenic 14‐channel ¹³C receiver array for 3T human head imaging

Contact Info

Product

Resources

About

Rie B. Olin

Multi-site benchmarking of clinical 13C RF coils at 3T

Metabolic MRI with hyperpolarized [1-13C]pyruvate separates benign oligemia from infarcting penumbra in porcine stroke

Three‐dimensional accelerated acquisition for hyperpolarized 13C MR with blipped stack‐of‐spirals and conjugate‐gradient SENSE

RF coil design for accurate parallel imaging on 13C MRSI using 23Na sensitivity profiles

A cryogenic 14‐channel 13C receiver array for 3T human head imaging

Contact Info

Product

Resources

About

Metabolic MRI with hyperpolarized [1-¹³C]pyruvate separates benign oligemia from infarcting penumbra in porcine stroke

Three‐dimensional accelerated acquisition for hyperpolarized ¹³C MR with blipped stack‐of‐spirals and conjugate‐gradient SENSE

RF coil design for accurate parallel imaging on ¹³C MRSI using ²³Na sensitivity profiles

A cryogenic 14‐channel ¹³C receiver array for 3T human head imaging