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Compartment-specific Xe HyperCEST z spectroscopy and chemical shift imaging of cucurbit[6]uril in spontaneously breathing rats. | LitMetric

Compartment-specific Xe HyperCEST z spectroscopy and chemical shift imaging of cucurbit[6]uril in spontaneously breathing rats.

Z Med Phys

Institute for Diagnostic and Interventional Radiology, Hannover Medical School, Carl-Neuberg-Straße 1, 30625 Hannover, Germany; Biomedical Research in Endstage and Obstructive Lung Disease Hannover (BREATH), German Center for Lung Research (DZL), Carl-Neuberg-Straße 1, 30625 Hannover, Germany. Electronic address:

Published: September 2023

AI Article Synopsis

  • Xe hyperpolarized gas chemical exchange saturation transfer (HyperCEST) MRI is a promising molecular imaging technique, but its application in living organisms has faced challenges, particularly in synthesizing appropriate contrast agents.
  • The study utilized cucurbit[6]uril, a potentially useful contrast agent, to examine its effects in different chemical compartments and anatomical regions in 10 rats, focusing on variability in HyperCEST intensity.
  • Findings indicate that cucurbit[6]uril is detectable primarily in aqueous tissues, and variations in contrast intensity across regions must be considered when interpreting HyperCEST data, noting minimal effects in lipid-rich areas.

Article Abstract

Xe hyperpolarized gas chemical exchange saturation transfer (HyperCEST) MRI has been suggested as molecular imaging modality but translation to in vivo imaging has been slow, likely due to difficulties of synthesizing suitable molecules. Cucurbit[6]uril-either in readily available non-functionalized or potentially in functionalized form-may, combined with Xe HyperCEST MRI, prove useful as a switchable Xe MR contrast agent but the likely differential properties of contrast generation in individual chemical compartments as well as the influence of Xe signal drifts encountered in vivo on HyperCEST MRI are unknown. Here, HyperCEST z spectroscopy and chemical shift imaging with compartment-specific analysis are performed in a total of 10 rats using cucurbit[6]uril injected i.v. and under a protocol employing spontaneous respiration. Differences in intensity of the HyperCEST effect between chemical compartments and anatomical regions are investigated. Strategies to mitigate influence of signal instabilities associated with drifts in physiological parameters are developed. It is shown that presence of cucurbit[6]uril can be readily detected under spontaneous Xe inhalation mostly in aqueous tissues further away from the lung. Differences of effect intensity in individual regions and compartments must be considered in HyperCEST data interpretation. In particular, there seems to be almost no effect in lipids. Xe HyperCEST MR measurements utilizing spontaneous respiration protocols and extended measurement times are feasible. HyperCEST MRI of non-functionalized cucurbit[6]uril may create contrast between anatomical structures in vivo.

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Source
http://dx.doi.org/10.1016/j.zemedi.2023.08.005DOI Listing

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