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Resolution and b value dependent structural connectome in ex vivo mouse brain

Diffusion magnetic resonance imaging has been widely used in both clinical and preclinical studies to characterize tissue microstructure and structural connectivity. The diffusion MRI protocol for the Human Connectome Project (HCP) has been developed and optimized to obtain high-quality, high-resolu...

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Autores principales: Crater, Stephanie, Maharjan, Surendra, Qi, Yi, Zhao, Qi, Cofer, Gary, Cook, James C., Johnson, G. Allan, Wang, Nian
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9195912/
https://www.ncbi.nlm.nih.gov/pubmed/35417754
http://dx.doi.org/10.1016/j.neuroimage.2022.119199
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author Crater, Stephanie
Maharjan, Surendra
Qi, Yi
Zhao, Qi
Cofer, Gary
Cook, James C.
Johnson, G. Allan
Wang, Nian
author_facet Crater, Stephanie
Maharjan, Surendra
Qi, Yi
Zhao, Qi
Cofer, Gary
Cook, James C.
Johnson, G. Allan
Wang, Nian
author_sort Crater, Stephanie
collection PubMed
description Diffusion magnetic resonance imaging has been widely used in both clinical and preclinical studies to characterize tissue microstructure and structural connectivity. The diffusion MRI protocol for the Human Connectome Project (HCP) has been developed and optimized to obtain high-quality, high-resolution diffusion MRI (dMRI) datasets. However, such efforts have not been fully explored in preclinical studies, especially for rodents. In this study, high quality dMRI datasets of mouse brains were acquired at 9.4T system from two vendors. In particular, we acquired a high-spatial resolution dMRI dataset (25 μm isotropic with 126 diffusion encoding directions), which we believe to be the highest spatial resolution yet obtained; and a high-angular resolution dMRI dataset (50 μm isotropic with 384 diffusion encoding directions), which we believe to be the highest angular resolution compared to the dMRI datasets at the microscopic resolution. We systematically investigated the effects of three important parameters that affect the final outcome of the connectome: b value (1000s/mm(2) to 8000 s/mm(2)), angular resolution (10 to 126), and spatial resolution (25 μm to 200 μm). The stability of tractography and connectome increase with the angular resolution, where more than 50 angles is necessary to achieve consistent results. The connectome and quantitative parameters derived from graph theory exhibit a linear relationship to the b value (R(2) > 0.99); a single-shell acquisition with b value of 3000 s/mm(2) shows comparable results to the multi-shell high angular resolution dataset. The dice coefficient decreases and both false positive rate and false negative rate gradually increase with coarser spatial resolution. Our study provides guidelines and foundations for exploration of tradeoffs among acquisition parameters for the structural connectome in ex vivo mouse brain.
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spelling pubmed-91959122022-07-15 Resolution and b value dependent structural connectome in ex vivo mouse brain Crater, Stephanie Maharjan, Surendra Qi, Yi Zhao, Qi Cofer, Gary Cook, James C. Johnson, G. Allan Wang, Nian Neuroimage Article Diffusion magnetic resonance imaging has been widely used in both clinical and preclinical studies to characterize tissue microstructure and structural connectivity. The diffusion MRI protocol for the Human Connectome Project (HCP) has been developed and optimized to obtain high-quality, high-resolution diffusion MRI (dMRI) datasets. However, such efforts have not been fully explored in preclinical studies, especially for rodents. In this study, high quality dMRI datasets of mouse brains were acquired at 9.4T system from two vendors. In particular, we acquired a high-spatial resolution dMRI dataset (25 μm isotropic with 126 diffusion encoding directions), which we believe to be the highest spatial resolution yet obtained; and a high-angular resolution dMRI dataset (50 μm isotropic with 384 diffusion encoding directions), which we believe to be the highest angular resolution compared to the dMRI datasets at the microscopic resolution. We systematically investigated the effects of three important parameters that affect the final outcome of the connectome: b value (1000s/mm(2) to 8000 s/mm(2)), angular resolution (10 to 126), and spatial resolution (25 μm to 200 μm). The stability of tractography and connectome increase with the angular resolution, where more than 50 angles is necessary to achieve consistent results. The connectome and quantitative parameters derived from graph theory exhibit a linear relationship to the b value (R(2) > 0.99); a single-shell acquisition with b value of 3000 s/mm(2) shows comparable results to the multi-shell high angular resolution dataset. The dice coefficient decreases and both false positive rate and false negative rate gradually increase with coarser spatial resolution. Our study provides guidelines and foundations for exploration of tradeoffs among acquisition parameters for the structural connectome in ex vivo mouse brain. 2022-07-15 2022-04-10 /pmc/articles/PMC9195912/ /pubmed/35417754 http://dx.doi.org/10.1016/j.neuroimage.2022.119199 Text en https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/ (https://creativecommons.org/licenses/by-nc-nd/4.0/) )
spellingShingle Article
Crater, Stephanie
Maharjan, Surendra
Qi, Yi
Zhao, Qi
Cofer, Gary
Cook, James C.
Johnson, G. Allan
Wang, Nian
Resolution and b value dependent structural connectome in ex vivo mouse brain
title Resolution and b value dependent structural connectome in ex vivo mouse brain
title_full Resolution and b value dependent structural connectome in ex vivo mouse brain
title_fullStr Resolution and b value dependent structural connectome in ex vivo mouse brain
title_full_unstemmed Resolution and b value dependent structural connectome in ex vivo mouse brain
title_short Resolution and b value dependent structural connectome in ex vivo mouse brain
title_sort resolution and b value dependent structural connectome in ex vivo mouse brain
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9195912/
https://www.ncbi.nlm.nih.gov/pubmed/35417754
http://dx.doi.org/10.1016/j.neuroimage.2022.119199
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