MRI-guided dissection of the nonhuman primate brain: A case study

James Bernard Daunais; Robert Arthur Kraft; April Teresa Davenport; Elizabeth J. Burnett; Vicki Moser Maxey; Kendall Thomas Szeliga; Andrew Ryan Rau; Graham Stallard Flory; Scott Edwards Hemby; Christopher David Kroenke; Kathleen Alice Grant; David Paul Friedman

doi:10.1016/j.ymeth.2009.03.023

MRI-guided dissection of the nonhuman primate brain: A case study

James Bernard Daunais, Robert Arthur Kraft, April Teresa Davenport, Elizabeth J. Burnett, Vicki Moser Maxey, Kendall Thomas Szeliga, Andrew Ryan Rau, Graham Stallard Flory, Scott Edwards Hemby, Christopher David Kroenke, Kathleen Alice Grant, David Paul Friedman

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

21 Scopus citations

Abstract

Numerous biochemical as well as electrophysiological techniques require tissue that must be retrieved very quickly following death in order to preserve the physiological integrity of the neuronal environment. Therefore, the ability to accurately predict the precise locations of brain regions of interest (ROI) and to retrieve those areas as quickly as possible following the brain harvest is critical for subsequent analyses. One way to achieve this objective is the utilization of high-resolution MRI to guide the subsequent dissections. In the present study, individual MRI images of the brains of rhesus and cynomolgus macaques that had chronically self-administered ethanol were employed in order to determine which blocks of dissected tissue contained specific ROIs. MRI-guided brain dissection of discrete brain regions was completely accurate in 100% of the cases. In comparison, approximately 60-70% accuracy was achieved in dissections that relied on external landmarks alone without the aid of MRI. These results clearly demonstrate that the accuracy of targeting specific brain areas can be improved with high-resolution MR imaging.

Original language	English (US)
Pages (from-to)	199-204
Number of pages	6
Journal	Methods
Volume	50
Issue number	3
DOIs	https://doi.org/10.1016/j.ymeth.2009.03.023
State	Published - Mar 2010

Keywords

Brain
Dissection
Ethanol
Magnetic resonance imaging
Primate
Region of interest

ASJC Scopus subject areas

Molecular Biology
General Biochemistry, Genetics and Molecular Biology

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10.1016/j.ymeth.2009.03.023

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title = "MRI-guided dissection of the nonhuman primate brain: A case study",

abstract = "Numerous biochemical as well as electrophysiological techniques require tissue that must be retrieved very quickly following death in order to preserve the physiological integrity of the neuronal environment. Therefore, the ability to accurately predict the precise locations of brain regions of interest (ROI) and to retrieve those areas as quickly as possible following the brain harvest is critical for subsequent analyses. One way to achieve this objective is the utilization of high-resolution MRI to guide the subsequent dissections. In the present study, individual MRI images of the brains of rhesus and cynomolgus macaques that had chronically self-administered ethanol were employed in order to determine which blocks of dissected tissue contained specific ROIs. MRI-guided brain dissection of discrete brain regions was completely accurate in 100% of the cases. In comparison, approximately 60-70% accuracy was achieved in dissections that relied on external landmarks alone without the aid of MRI. These results clearly demonstrate that the accuracy of targeting specific brain areas can be improved with high-resolution MR imaging.",

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author = "Daunais, {James Bernard} and Kraft, {Robert Arthur} and Davenport, {April Teresa} and Burnett, {Elizabeth J.} and Maxey, {Vicki Moser} and Szeliga, {Kendall Thomas} and Rau, {Andrew Ryan} and Flory, {Graham Stallard} and Hemby, {Scott Edwards} and Kroenke, {Christopher David} and Grant, {Kathleen Alice} and Friedman, {David Paul}",

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AU - Szeliga, Kendall Thomas

AU - Rau, Andrew Ryan

AU - Flory, Graham Stallard

AU - Hemby, Scott Edwards

AU - Kroenke, Christopher David

AU - Grant, Kathleen Alice

AU - Friedman, David Paul

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AB - Numerous biochemical as well as electrophysiological techniques require tissue that must be retrieved very quickly following death in order to preserve the physiological integrity of the neuronal environment. Therefore, the ability to accurately predict the precise locations of brain regions of interest (ROI) and to retrieve those areas as quickly as possible following the brain harvest is critical for subsequent analyses. One way to achieve this objective is the utilization of high-resolution MRI to guide the subsequent dissections. In the present study, individual MRI images of the brains of rhesus and cynomolgus macaques that had chronically self-administered ethanol were employed in order to determine which blocks of dissected tissue contained specific ROIs. MRI-guided brain dissection of discrete brain regions was completely accurate in 100% of the cases. In comparison, approximately 60-70% accuracy was achieved in dissections that relied on external landmarks alone without the aid of MRI. These results clearly demonstrate that the accuracy of targeting specific brain areas can be improved with high-resolution MR imaging.

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MRI-guided dissection of the nonhuman primate brain: A case study

Abstract

Keywords

ASJC Scopus subject areas

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