AI Article Synopsis
- The study aimed to investigate how the structure of arterial tissue changes by using advanced diffusion magnetic resonance imaging (dMRI) techniques on three different porcine carotid artery models: native, collagenase treated, and decellularized.
- Researchers used a high-powered 7 T scanner and various imaging protocols to capture detailed diffusion-weighted images, analyzing the role of collagen and smooth muscle cells in the tissue.
- Key findings reveal significant differences in microstructure between the models, with specific diffusion metrics indicating a greater slowing of diffusion in the absence of collagen, highlighting the potential of advanced dMRI methods for studying arterial tissue changes.
Article Abstract
The purpose of this study was to characterize the alterations in microstructural organization of arterial tissue using higher-order diffusion magnetic resonance schemes. Three porcine carotid artery models namely; native, collagenase treated and decellularized, were used to estimate the contribution of collagen and smooth muscle cells (SMC) on diffusion signal attenuation using gaussian and non-gaussian schemes. The samples were imaged in a 7 T preclinical scanner. High spatial and angular resolution diffusion weighted images (DWIs) were acquired using two multi-shell (max b-value = 3000 s/mm) acquisition protocols. The processed DWIs were fitted using monoexponential, stretched-exponential, kurtosis and bi-exponential schemes. Directionally variant and invariant microstructural parametric maps of the three artery models were obtained from the diffusion schemes. The parametric maps were used to assess the sensitivity of each diffusion scheme to collagen and SMC composition in arterial microstructural environment. The inter-model comparison showed significant differences across the considered models. The bi-exponential scheme based slow diffusion compartment (Ds) was highest in the absence of collagen, compared to native and decellularized microenvironments. In intra-model comparison, kurtosis along the radial direction was the highest. Overall, the results of this study demonstrate the efficacy of higher order dMRI schemes in mapping constituent specific alterations in arterial microstructure.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8593063 | PMC |
| http://dx.doi.org/10.1038/s41598-021-01476-z | DOI Listing |
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