Cryogen-Free dissolution Dynamic Nuclear Polarization polarizer operating at 3.35 T, 6.70 T and 10.1 T

TL;DR

This paper introduces a versatile, cryogen-free dissolution DNP polarizer operating at multiple magnetic fields up to 10.1 T, achieving high polarization levels and rapid sample throughput for medical imaging applications.

Contribution

It presents a fully automated, cryogen-free DNP polarizer capable of operating across a wide magnetic field range with high polarization efficiency and rapid sample processing.

Findings

Achieves 70% polarization of [1-13C]pyruvate at 10.1 T

Operates continuously from room temperature to 1.3 K

Allows at least one sample per hour throughput

Abstract

Purpose: A novel dissolution dynamic nuclear polarization (dDNP) polarizer platform is presented. The polarizer meets a number of key requirements for in vitro, pre-clinical and clinical applications. Method: It uses no liquid cryogens, operates in continuous mode, accommodates a wide range of sample sizes up to and including those required for human studies, and is fully automated. Results: It offers a wide operational window both in terms of magnetic field, up to 10.1 T, and temperature, from room temperature down to 1.3 K. The polarizer delivers a 13C liquid state polarization for [1-13C]pyruvate of 70%. The build-up time constant in the solid state is approx. 1200 s (20 min), allowing a sample throughput of at least one sample per hour including sample loading and dissolution. Conclusion: We confirm the previously reported strong field dependence in the range 3.35 to 6.7 T, but see no further increase in polarization when increasing the magnetic field strength to 10.1 T for [1-13C]pyruvate and trityl. Using a custom dry magnet, cold head and recondensing, closed-cycle cooling system, combined with a modular DNP probe, automation and fluid handling systems; we have designed a unique dDNP system with unrivalled flexibility and performance.