Utilizing 3D Printing Technology to Merge MRI with Histology: A Protocol for Brain Sectioning

doi:10.3791/54780

. 2016 Dec 6:(118):54780.

doi: 10.3791/54780.

Utilizing 3D Printing Technology to Merge MRI with Histology: A Protocol for Brain Sectioning

Affiliations

¹ Translational Neuroradiology Section, National Institute of Neurological Disorders and Stroke.
² Cerebral Microcirculation Section, National Institute of Neurological Disorders and Stroke.
³ Viral Immunology Section, National Institute of Neurological Disorders and Stroke.
⁴ Translational Neuroradiology Section, National Institute of Neurological Disorders and Stroke; reichds@ninds.nih.gov.

PMID: 28060281
PMCID: PMC5226356
DOI: 10.3791/54780

Utilizing 3D Printing Technology to Merge MRI with Histology: A Protocol for Brain Sectioning

Nicholas J Luciano et al. J Vis Exp. 2016.

. 2016 Dec 6:(118):54780.

doi: 10.3791/54780.

Affiliations

¹ Translational Neuroradiology Section, National Institute of Neurological Disorders and Stroke.
² Cerebral Microcirculation Section, National Institute of Neurological Disorders and Stroke.
³ Viral Immunology Section, National Institute of Neurological Disorders and Stroke.
⁴ Translational Neuroradiology Section, National Institute of Neurological Disorders and Stroke; reichds@ninds.nih.gov.

PMID: 28060281
PMCID: PMC5226356
DOI: 10.3791/54780

Abstract

Magnetic resonance imaging (MRI) allows for the delineation between normal and abnormal tissue on a macroscopic scale, sampling an entire tissue volume three-dimensionally. While MRI is an extremely sensitive tool for detecting tissue abnormalities, association of signal changes with an underlying pathological process is usually not straightforward. In the central nervous system, for example, inflammation, demyelination, axonal damage, gliosis, and neuronal death may all induce similar findings on MRI. As such, interpretation of MRI scans depends on the context, and radiological-histopathological correlation is therefore of the utmost importance. Unfortunately, traditional pathological sectioning of brain tissue is often imprecise and inconsistent, thus complicating the comparison between histology sections and MRI. This article presents novel methodology for accurately sectioning primate brain tissues and thus allowing precise matching between histology and MRI. The detailed protocol described in this article will assist investigators in applying this method, which relies on the creation of 3D printed brain slicers. Slightly modified, it can be easily implemented for brains of other species, including humans.

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References

1. Evans AC, Frank JA, Antel J, Miller DH. The role of MRI in clinical trials of multiple sclerosis: comparison of image processing techniques. Ann Neurol. 1997;41(1):125–132. - PubMed
1. 't Hart BA, van Kooyk Y, Geurts JJG, Gran B. The primate autoimmune encephalomyelitis model; a bridge between mouse and man. Ann Clin Transl Neurol. 2015;2(5):581–593. - PMC - PubMed
1. Ontaneda D, Hyland M, Cohen JA. Multiple sclerosis: new insights in pathogenesis and novel therapeutics. Annu Rev Med. 2012;63:389–404. - PubMed
1. Guy JR, Sati P, Leibovitch E, Jacobson S, Silva AC, Reich DS. Custom fit 3D-printed brain holders for comparison of histology with MRI in marmosets. J Neurosci Methods. 2016;257:55–63. - PMC - PubMed
1. Breen MS, Lazebnik RS, Wilson DL. Three-dimensional registration of magnetic resonance image data to histological sections with model-based evaluation. Ann Biomed Eng. 2005;33(8):1100–1112. - PubMed

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[1] Evans AC, Frank JA, Antel J, Miller DH. The role of MRI in clinical trials of multiple sclerosis: comparison of image processing techniques. Ann Neurol. 1997;41(1):125–132. - PubMed

[2] Evans AC, Frank JA, Antel J, Miller DH. The role of MRI in clinical trials of multiple sclerosis: comparison of image processing techniques. Ann Neurol. 1997;41(1):125–132. - PubMed

[3] 't Hart BA, van Kooyk Y, Geurts JJG, Gran B. The primate autoimmune encephalomyelitis model; a bridge between mouse and man. Ann Clin Transl Neurol. 2015;2(5):581–593. - PMC - PubMed

[4] 't Hart BA, van Kooyk Y, Geurts JJG, Gran B. The primate autoimmune encephalomyelitis model; a bridge between mouse and man. Ann Clin Transl Neurol. 2015;2(5):581–593. - PMC - PubMed

[5] Ontaneda D, Hyland M, Cohen JA. Multiple sclerosis: new insights in pathogenesis and novel therapeutics. Annu Rev Med. 2012;63:389–404. - PubMed

[6] Ontaneda D, Hyland M, Cohen JA. Multiple sclerosis: new insights in pathogenesis and novel therapeutics. Annu Rev Med. 2012;63:389–404. - PubMed

[7] Guy JR, Sati P, Leibovitch E, Jacobson S, Silva AC, Reich DS. Custom fit 3D-printed brain holders for comparison of histology with MRI in marmosets. J Neurosci Methods. 2016;257:55–63. - PMC - PubMed

[8] Guy JR, Sati P, Leibovitch E, Jacobson S, Silva AC, Reich DS. Custom fit 3D-printed brain holders for comparison of histology with MRI in marmosets. J Neurosci Methods. 2016;257:55–63. - PMC - PubMed

[9] Breen MS, Lazebnik RS, Wilson DL. Three-dimensional registration of magnetic resonance image data to histological sections with model-based evaluation. Ann Biomed Eng. 2005;33(8):1100–1112. - PubMed

[10] Breen MS, Lazebnik RS, Wilson DL. Three-dimensional registration of magnetic resonance image data to histological sections with model-based evaluation. Ann Biomed Eng. 2005;33(8):1100–1112. - PubMed

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Utilizing 3D Printing Technology to Merge MRI with Histology: A Protocol for Brain Sectioning

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Utilizing 3D Printing Technology to Merge MRI with Histology: A Protocol for Brain Sectioning

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