Amrita Rajagopalan scite author profile

Amrita Rajagopalan

4Publications

36Citation Statements Received

82Citation Statements Given

How they've been cited

How they cite others

207

Affiliations

University of Southern California

Publications

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Co‐registration of in vivo human MRI brain images to postmortem histological microscopic images

Singh

Rajagopalan

Kim

et al. 2008

Int J Imaging Syst Tech

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Certain features such as small vascular lesions seen in human MRI are detected reliably only in postmortem histological samples by microscopic imaging. Co-registration of these microscopically detected features to their corresponding locations in the in-vivo images would be of great benefit to understanding the MRI signatures of specific diseases. Using non-linear Polynomial transformation, we report a method to co-register in-vivo MRIs to microscopic images of histological samples drawn off the postmortem brain. The approach utilizes digital photographs of postmortem slices as an intermediate reference to co-register the MRIs to microscopy. The overall procedure is challenging due to gross structural deformations in the postmortem brain during extraction and subsequent distortions in the histological preparations. Hemispheres of the brain were co-registered separately to mitigate these effects. Approaches relying on matching single-slices, multiple-slices and entire volumes in conjunction with different similarity measures suggested that using four slices at a time in combination with two sequential measures, Pearson correlation coefficient followed by mutual information, produced the best MRI-postmortem co-registration according to a voxel mismatch count. The accuracy of the overall registration was evaluated by measuring the 3D Euclidean distance between the locations of microscopically identified lesions on postmortem slices and their MRIpostmortem co-registered locations. The results show a mean 3D displacement of 5.1 ± 2.0 mm between the in-vivo MRI and microscopically determined locations for 21 vascular lesions in 11 subjects.

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Singh

Rajagopalan

Kim

et al. 2008

Int J Imaging Syst Tech

View full text Add to dashboard Cite

Certain features such as small vascular lesions seen in human MRI are detected reliably only in postmortem histological samples by microscopic imaging. Co-registration of these microscopically detected features to their corresponding locations in the in-vivo images would be of great benefit to understanding the MRI signatures of specific diseases. Using non-linear Polynomial transformation, we report a method to co-register in-vivo MRIs to microscopic images of histological samples drawn off the postmortem brain. The approach utilizes digital photographs of postmortem slices as an intermediate reference to co-register the MRIs to microscopy. The overall procedure is challenging due to gross structural deformations in the postmortem brain during extraction and subsequent distortions in the histological preparations. Hemispheres of the brain were co-registered separately to mitigate these effects. Approaches relying on matching single-slices, multiple-slices and entire volumes in conjunction with different similarity measures suggested that using four slices at a time in combination with two sequential measures, Pearson correlation coefficient followed by mutual information, produced the best MRI-postmortem co-registration according to a voxel mismatch count. The accuracy of the overall registration was evaluated by measuring the 3D Euclidean distance between the locations of microscopically identified lesions on postmortem slices and their MRI-postmortem co-registered locations. The results show a mean 3D displacement of 5.1 ± 2.0 mm between the in-vivo MRI and microscopically determined locations for 21 vascular lesions in 11 subjects.

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From Human MRI to Microscopy: Co-registration of Human Brain Images to Postmortem Histological Sections

Singh

Rajagopalan

Zarow

et al. 2006

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Small vascular lesions seen in human MRI are detected reliably only in postmortem histological samples. Using non-linear Polynomial transformation, we report a method to coregister in-vivo MRIs to microscopic examinations of histological samples drawn off the postmortem brain. Digital photographs of postmortem slices served as an intermediate reference to coregister the MRIs to microscopy. In-vivo MRI to postmortem coregistration is challenging due to gross structural deformations in the brain during extraction. Hemispheres of the brain were coregistered separately to mitigate these effects. Approaches relying on matching single-slices, multiple-slices and entire volume in conjunction with different similarity measures suggested that using four slices at a time in combination with two sequential measures, Pearson correlation coefficient followed by mutual information produced the best MRI-postmortem coregistration according to a voxel mismatch count. The accuracy of the overall registration was evaluated by measuring the 3D Euclidean distance between the locations of the microscopically identified vascular lesions and their MRI-postmortem coregistered locations. The results show a mean 3D displacement of 7.5 ± 2.7 mm between these locations for 11 vascular lesions in 7 subjects.

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Retrospective processing of DTI tractography to compensate for partial volume effects

Hwang

Shetty

Rajagopalan

et al. 2007

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