2019
DOI: 10.1002/mrm.28012
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Insights into tissue microstructure using a double diffusion encoding sequence on a clinical scanner: Validation and application to experimental tumor models

Abstract: To present a double diffusion encoding MRI sequence on a clinical scanner to analyze micro-structure and micro-vasculature of tumors. Methods: The sequence was tested on phantoms, asparaguses, and 2 tumors allografts in a rodent. Results were analyzed using an adapted VERDICT model to estimate microstructural parameters. The technical feasibility of the sequence on a 3T clinical system was assessed on a water phantom. The accuracy of cell size estimation was assessed on asparaguses by comparison with light mic… Show more

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Cited by 7 publications
(1 citation statement)
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“…Estimating nonparametric compartment size distributions without a priori knowledge of the distribution function has been performed to estimate: (1) pore size distribution of glass capillaries 18 ; (2) nonparametric axon size distributions in fixed tissues using pulse gradient spin echo (PGSE), 19 nonuniform oscillating gradient spin (OGSE) 20 or double diffusion encoding 21 ; and (3) cell size distributions in asparagus and animal allografts. 22 All of these methods addressed the complex optimization problems without assuming any specific distribution forms, ensuring the generalizability of both normal and abnormal tissues. However, these approaches either used special preclinical hardware or focused on animal applications only.…”
Section: Introductionmentioning
confidence: 99%
“…Estimating nonparametric compartment size distributions without a priori knowledge of the distribution function has been performed to estimate: (1) pore size distribution of glass capillaries 18 ; (2) nonparametric axon size distributions in fixed tissues using pulse gradient spin echo (PGSE), 19 nonuniform oscillating gradient spin (OGSE) 20 or double diffusion encoding 21 ; and (3) cell size distributions in asparagus and animal allografts. 22 All of these methods addressed the complex optimization problems without assuming any specific distribution forms, ensuring the generalizability of both normal and abnormal tissues. However, these approaches either used special preclinical hardware or focused on animal applications only.…”
Section: Introductionmentioning
confidence: 99%