Considerations and recommendations from the ISMRM Diffusion Study Group for preclinical diffusion MRI: Part 3-Ex vivo imaging: Data processing, comparisons with microscopy, and tractography

Kurt G Schilling; Amy F D Howard; Francesco Grussu; Andrada Ianus; Brian Hansen; Rachel L C Barrett; Manisha Aggarwal; Stijn Michielse; Fatima Nasrallah; Warda Syeda; Nian Wang; Jelle Veraart; Alard Roebroeck; Andrew F Bagdasarian; Cornelius Eichner; Farshid Sepehrband; Jan Zimmermann; Lucas Soustelle; Christien Bowman; Benjamin C Tendler; Andreea Hertanu; Ben Jeurissen; Marleen Verhoye; Lucio Frydman; Yohan van de Looij; David Hike; Jeff F Dunn; Karla Miller; Bennett A Landman; Noam Shemesh; Adam Anderson; Emilie McKinnon; Shawna Farquharson; Flavio Dell'Acqua; Carlo Pierpaoli; Ivana Drobnjak; Alexander Leemans; Kevin D Harkins; Maxime Descoteaux; Duan Xu; Hao Huang; Mathieu D Santin; Samuel C Grant; Andre Obenaus; Gene S Kim; Dan Wu; Denis Le Bihan; Stephen J Blackband; Luisa Ciobanu; Els Fieremans; Ruiliang Bai; Trygve B Leergaard; Jiangyang Zhang; Tim B Dyrby; G Allan Johnson; Julien Cohen-Adad; Matthew D Budde; Ileana O Jelescu

doi:10.1002/mrm.30424

Considerations and recommendations from the ISMRM Diffusion Study Group for preclinical diffusion MRI: Part 3-Ex vivo imaging: Data processing, comparisons with microscopy, and tractography

Kurt G Schilling, Amy F D Howard, Francesco Grussu, Andrada Ianus, Brian Hansen, Rachel L C Barrett, Manisha Aggarwal, Stijn Michielse, Fatima Nasrallah, Warda Syeda, Nian Wang, Jelle Veraart, Alard Roebroeck, Andrew F Bagdasarian, Cornelius Eichner, Farshid Sepehrband, Jan Zimmermann, Lucas Soustelle, Christien Bowman, Benjamin C TendlerAndreea Hertanu, Ben Jeurissen, Marleen Verhoye, Lucio Frydman, Yohan van de Looij, David Hike, Jeff F Dunn, Karla Miller, Bennett A Landman, Noam Shemesh, Adam Anderson, Emilie McKinnon, Shawna Farquharson, Flavio Dell'Acqua, Carlo Pierpaoli, Ivana Drobnjak, Alexander Leemans, Kevin D Harkins, Maxime Descoteaux, Duan Xu, Hao Huang, Mathieu D Santin, Samuel C Grant, Andre Obenaus, Gene S Kim, Dan Wu, Denis Le Bihan, Stephen J Blackband, Luisa Ciobanu, Els Fieremans, Ruiliang Bai, Trygve B Leergaard, Jiangyang Zhang, Tim B Dyrby, G Allan Johnson, Julien Cohen-Adad, Matthew D Budde, Ileana O Jelescu

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Preclinical diffusion MRI (dMRI) has proven value in methods development and validation, characterizing the biological basis of diffusion phenomena, and comparative anatomy. While dMRI enables in vivo non-invasive characterization of tissue, ex vivo dMRI is increasingly being used to probe tissue microstructure and brain connectivity. Ex vivo dMRI has several experimental advantages that facilitate high spatial resolution and high SNR images, cutting-edge diffusion contrasts, and direct comparison with histological data as a methodological validation. However, there are a number of considerations that must be made when performing ex vivo experiments. The steps from tissue preparation, image acquisition and processing, and interpretation of results are complex, with many decisions that not only differ dramatically from in vivo imaging of small animals, but ultimately affect what questions can be answered using the data. This work concludes a three-part series of recommendations and considerations for preclinical dMRI. Herein, we describe best practices for dMRI of ex vivo tissue, with a focus on image pre-processing, data processing, and comparisons with microscopy. In each section, we attempt to provide guidelines and recommendations but also highlight areas for which no guidelines exist (and why), and where future work should lie. We end by providing guidelines on code sharing and data sharing and point toward open-source software and databases specific to small animal and ex vivo imaging.

Original language	English
Pages (from-to)	2561-2582
Number of pages	22
Journal	Magnetic Resonance in Medicine
Volume	93
Issue number	6
Early online date	26 Feb 2025
DOIs	https://doi.org/10.1002/mrm.30424
Publication status	E-pub ahead of print - 26 Feb 2025

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Schilling, K. G., Howard, A. F. D., Grussu, F., Ianus, A., Hansen, B., Barrett, R. L. C., Aggarwal, M., Michielse, S., Nasrallah, F., Syeda, W., Wang, N., Veraart, J., Roebroeck, A., Bagdasarian, A. F., Eichner, C., Sepehrband, F., Zimmermann, J., Soustelle, L., Bowman, C., ... Jelescu, I. O. (2025). Considerations and recommendations from the ISMRM Diffusion Study Group for preclinical diffusion MRI: Part 3-Ex vivo imaging: Data processing, comparisons with microscopy, and tractography. Magnetic Resonance in Medicine, 93(6), 2561-2582. Advance online publication. https://doi.org/10.1002/mrm.30424

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title = "Considerations and recommendations from the ISMRM Diffusion Study Group for preclinical diffusion MRI: Part 3-Ex vivo imaging: Data processing, comparisons with microscopy, and tractography",

abstract = "Preclinical diffusion MRI (dMRI) has proven value in methods development and validation, characterizing the biological basis of diffusion phenomena, and comparative anatomy. While dMRI enables in vivo non-invasive characterization of tissue, ex vivo dMRI is increasingly being used to probe tissue microstructure and brain connectivity. Ex vivo dMRI has several experimental advantages that facilitate high spatial resolution and high SNR images, cutting-edge diffusion contrasts, and direct comparison with histological data as a methodological validation. However, there are a number of considerations that must be made when performing ex vivo experiments. The steps from tissue preparation, image acquisition and processing, and interpretation of results are complex, with many decisions that not only differ dramatically from in vivo imaging of small animals, but ultimately affect what questions can be answered using the data. This work concludes a three-part series of recommendations and considerations for preclinical dMRI. Herein, we describe best practices for dMRI of ex vivo tissue, with a focus on image pre-processing, data processing, and comparisons with microscopy. In each section, we attempt to provide guidelines and recommendations but also highlight areas for which no guidelines exist (and why), and where future work should lie. We end by providing guidelines on code sharing and data sharing and point toward open-source software and databases specific to small animal and ex vivo imaging.",

author = "Schilling, {Kurt G} and Howard, {Amy F D} and Francesco Grussu and Andrada Ianus and Brian Hansen and Barrett, {Rachel L C} and Manisha Aggarwal and Stijn Michielse and Fatima Nasrallah and Warda Syeda and Nian Wang and Jelle Veraart and Alard Roebroeck and Bagdasarian, {Andrew F} and Cornelius Eichner and Farshid Sepehrband and Jan Zimmermann and Lucas Soustelle and Christien Bowman and Tendler, {Benjamin C} and Andreea Hertanu and Ben Jeurissen and Marleen Verhoye and Lucio Frydman and {van de Looij}, Yohan and David Hike and Dunn, {Jeff F} and Karla Miller and Landman, {Bennett A} and Noam Shemesh and Adam Anderson and Emilie McKinnon and Shawna Farquharson and Flavio Dell'Acqua and Carlo Pierpaoli and Ivana Drobnjak and Alexander Leemans and Harkins, {Kevin D} and Maxime Descoteaux and Duan Xu and Hao Huang and Santin, {Mathieu D} and Grant, {Samuel C} and Andre Obenaus and Kim, {Gene S} and Dan Wu and {Le Bihan}, Denis and Blackband, {Stephen J} and Luisa Ciobanu and Els Fieremans and Ruiliang Bai and Leergaard, {Trygve B} and Jiangyang Zhang and Dyrby, {Tim B} and Johnson, {G Allan} and Julien Cohen-Adad and Budde, {Matthew D} and Jelescu, {Ileana O}",

note = "{\textcopyright} 2025 The Author(s). Magnetic Resonance in Medicine published by Wiley Periodicals LLC on behalf of International Society for Magnetic Resonance in Medicine.",

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doi = "10.1002/mrm.30424",

language = "English",

volume = "93",

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Schilling, KG, Howard, AFD, Grussu, F, Ianus, A, Hansen, B, Barrett, RLC, Aggarwal, M, Michielse, S, Nasrallah, F, Syeda, W, Wang, N, Veraart, J, Roebroeck, A, Bagdasarian, AF, Eichner, C, Sepehrband, F, Zimmermann, J, Soustelle, L, Bowman, C, Tendler, BC, Hertanu, A, Jeurissen, B, Verhoye, M, Frydman, L, van de Looij, Y, Hike, D, Dunn, JF, Miller, K, Landman, BA, Shemesh, N, Anderson, A, McKinnon, E, Farquharson, S, Dell'Acqua, F, Pierpaoli, C, Drobnjak, I, Leemans, A, Harkins, KD, Descoteaux, M, Xu, D, Huang, H, Santin, MD, Grant, SC, Obenaus, A, Kim, GS, Wu, D, Le Bihan, D, Blackband, SJ, Ciobanu, L, Fieremans, E, Bai, R, Leergaard, TB, Zhang, J, Dyrby, TB, Johnson, GA, Cohen-Adad, J, Budde, MD & Jelescu, IO 2025, 'Considerations and recommendations from the ISMRM Diffusion Study Group for preclinical diffusion MRI: Part 3-Ex vivo imaging: Data processing, comparisons with microscopy, and tractography', Magnetic Resonance in Medicine, vol. 93, no. 6, pp. 2561-2582. https://doi.org/10.1002/mrm.30424

Considerations and recommendations from the ISMRM Diffusion Study Group for preclinical diffusion MRI: Part 3-Ex vivo imaging: Data processing, comparisons with microscopy, and tractography. / Schilling, Kurt G; Howard, Amy F D; Grussu, Francesco et al.
In: Magnetic Resonance in Medicine, Vol. 93, No. 6, 06.2025, p. 2561-2582.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Considerations and recommendations from the ISMRM Diffusion Study Group for preclinical diffusion MRI

T2 - Part 3-Ex vivo imaging: Data processing, comparisons with microscopy, and tractography

AU - Schilling, Kurt G

AU - Howard, Amy F D

AU - Grussu, Francesco

AU - Ianus, Andrada

AU - Hansen, Brian

AU - Barrett, Rachel L C

AU - Aggarwal, Manisha

AU - Michielse, Stijn

AU - Nasrallah, Fatima

AU - Syeda, Warda

AU - Wang, Nian

AU - Veraart, Jelle

AU - Roebroeck, Alard

AU - Bagdasarian, Andrew F

AU - Eichner, Cornelius

AU - Sepehrband, Farshid

AU - Zimmermann, Jan

AU - Soustelle, Lucas

AU - Bowman, Christien

AU - Tendler, Benjamin C

AU - Hertanu, Andreea

AU - Jeurissen, Ben

AU - Verhoye, Marleen

AU - Frydman, Lucio

AU - van de Looij, Yohan

AU - Hike, David

AU - Dunn, Jeff F

AU - Miller, Karla

AU - Landman, Bennett A

AU - Shemesh, Noam

AU - Anderson, Adam

AU - McKinnon, Emilie

AU - Farquharson, Shawna

AU - Dell'Acqua, Flavio

AU - Pierpaoli, Carlo

AU - Drobnjak, Ivana

AU - Leemans, Alexander

AU - Harkins, Kevin D

AU - Descoteaux, Maxime

AU - Xu, Duan

AU - Huang, Hao

AU - Santin, Mathieu D

AU - Grant, Samuel C

AU - Obenaus, Andre

AU - Kim, Gene S

AU - Wu, Dan

AU - Le Bihan, Denis

AU - Blackband, Stephen J

AU - Ciobanu, Luisa

AU - Fieremans, Els

AU - Bai, Ruiliang

AU - Leergaard, Trygve B

AU - Zhang, Jiangyang

AU - Dyrby, Tim B

AU - Johnson, G Allan

AU - Cohen-Adad, Julien

AU - Budde, Matthew D

AU - Jelescu, Ileana O

PY - 2025/2/26

Y1 - 2025/2/26

N2 - Preclinical diffusion MRI (dMRI) has proven value in methods development and validation, characterizing the biological basis of diffusion phenomena, and comparative anatomy. While dMRI enables in vivo non-invasive characterization of tissue, ex vivo dMRI is increasingly being used to probe tissue microstructure and brain connectivity. Ex vivo dMRI has several experimental advantages that facilitate high spatial resolution and high SNR images, cutting-edge diffusion contrasts, and direct comparison with histological data as a methodological validation. However, there are a number of considerations that must be made when performing ex vivo experiments. The steps from tissue preparation, image acquisition and processing, and interpretation of results are complex, with many decisions that not only differ dramatically from in vivo imaging of small animals, but ultimately affect what questions can be answered using the data. This work concludes a three-part series of recommendations and considerations for preclinical dMRI. Herein, we describe best practices for dMRI of ex vivo tissue, with a focus on image pre-processing, data processing, and comparisons with microscopy. In each section, we attempt to provide guidelines and recommendations but also highlight areas for which no guidelines exist (and why), and where future work should lie. We end by providing guidelines on code sharing and data sharing and point toward open-source software and databases specific to small animal and ex vivo imaging.

AB - Preclinical diffusion MRI (dMRI) has proven value in methods development and validation, characterizing the biological basis of diffusion phenomena, and comparative anatomy. While dMRI enables in vivo non-invasive characterization of tissue, ex vivo dMRI is increasingly being used to probe tissue microstructure and brain connectivity. Ex vivo dMRI has several experimental advantages that facilitate high spatial resolution and high SNR images, cutting-edge diffusion contrasts, and direct comparison with histological data as a methodological validation. However, there are a number of considerations that must be made when performing ex vivo experiments. The steps from tissue preparation, image acquisition and processing, and interpretation of results are complex, with many decisions that not only differ dramatically from in vivo imaging of small animals, but ultimately affect what questions can be answered using the data. This work concludes a three-part series of recommendations and considerations for preclinical dMRI. Herein, we describe best practices for dMRI of ex vivo tissue, with a focus on image pre-processing, data processing, and comparisons with microscopy. In each section, we attempt to provide guidelines and recommendations but also highlight areas for which no guidelines exist (and why), and where future work should lie. We end by providing guidelines on code sharing and data sharing and point toward open-source software and databases specific to small animal and ex vivo imaging.

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U2 - 10.1002/mrm.30424

DO - 10.1002/mrm.30424

M3 - Article

C2 - 40008460

SN - 0740-3194

VL - 93

SP - 2561

EP - 2582

JO - Magnetic Resonance in Medicine

JF - Magnetic Resonance in Medicine

IS - 6

ER -

Considerations and recommendations from the ISMRM Diffusion Study Group for preclinical diffusion MRI: Part 3-Ex vivo imaging: Data processing, comparisons with microscopy, and tractography

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