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Histochemical visualization and diffusion MRI at 7 Tesla in the TgCRND8 transgenic model of Alzheimer’s disease

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Abstract

Alzheimer’s disease (AD) is a progressive neurodegenerative disorder that has been characterized by gross cortical atrophy, cellular neurodegeneration, reactive gliosis, and the presence of microscopic extracellular amyloid plaques and intracellular neurofibrillary tangles. Earlier diagnoses of AD would be in the best interest of managing the patient and would allow for earlier therapeutic intervention. By measuring the apparent diffusion coefficient (ADC) using diffusion-weighted imaging (DWI), a type of magnetic resonance imaging (MRI), one can quantify alterations in water diffusivity resulting from microscopic structural changes in the cell at early stages that are associated with pathophysiological processes of brain injury and/or disease progression. Whether or not this methodology is useful for AD is a question under examination. For example, DWI in suspected AD patients has shown increases in mean ADC values in the hippocampus and diminished diffusion anisotropy in the posterior white matter. However, in some cases, hippocampal ADC values appear not to change in AD patients. Moreover, to our knowledge, all DWI studies in suspected AD patients to date are technically incomplete in experimental design, because corresponding histological sections demonstrating actual plaque deposition are lacking and so it is not clear that ADC changes actually correspond to plaque deposition. In our study, we used DWI in the TgCRND8 transgenic model of Alzheimer’s disease in conjunction with histological techniques and found robust plaque deposition in the transgenic strain in older animals (12–16 months old). However, we did not find statistically significant changes (p > 0.05) in ADC values (although ADC values in TgCRND8 mice did decrease in all regions examined) in mice 12–16 months old. Collectively, recent results from human studies and in rodent AD transgenic models support our findings and suggest that amyloid beta plaque load is not likely the major or primary component contributing to diffusional changes, if they occur.

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Acknowledgments

This study was supported with funds from the Manitoba Medical Service Foundation (MMSF), the St. Boniface General Hospital Research Foundation, the University of Manitoba, and the Manitoba Health Research Council (MHRC).

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Authors and Affiliations

  1. Division of Neurodegenerative Disorders, St. Boniface Research Centre, Winnipeg, MB, R2H 2A6, Canada

    Jonathan D. Thiessen, Kathryn A. C. Glazner, Solmaz Nafez & Benedict C. Albensi

  2. Department of Physics and Astronomy, University of Manitoba, Winnipeg, MB, R3T 2N2, Canada

    Jonathan D. Thiessen & Melanie Martin

  3. Department of Physics, University of Winnipeg, Winnipeg, MB, R3B 2E9, Canada

    Jonathan D. Thiessen & Melanie Martin

  4. Department of Pharmacology and Therapeutics, University of Manitoba, Winnipeg, MB, R3E 0W3, Canada

    Kathryn A. C. Glazner, Solmaz Nafez, Angela E. Schellenberg, Melanie Martin & Benedict C. Albensi

  5. Department of Radiology, University of Manitoba, Winnipeg, MB, R3E 0T6, Canada

    Richard Buist

Authors
  1. Jonathan D. Thiessen
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  2. Kathryn A. C. Glazner
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  3. Solmaz Nafez
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  4. Angela E. Schellenberg
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  5. Richard Buist
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  6. Melanie Martin
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  7. Benedict C. Albensi
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Correspondence to Benedict C. Albensi.

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Thiessen, J.D., Glazner, K.A.C., Nafez, S. et al. Histochemical visualization and diffusion MRI at 7 Tesla in the TgCRND8 transgenic model of Alzheimer’s disease. Brain Struct Funct 215, 29–36 (2010). https://doi.org/10.1007/s00429-010-0271-z

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  • DOI: https://doi.org/10.1007/s00429-010-0271-z

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