A standardized method for brain-cutting suitable for both stereology and MRI-brain co-registration.

We have developed an agar-embedding method for brain-slicing that minimizes the geometrical distortions which arise from handling and slicing the fixed postmortem brain. To facilitate postmortem brain-magnetic resonance imaging (MRI) co-registration, each hemisphere is processed separately. We embed the fixed brain hemisphere with reference markers in agar. The block containing the brain and markers is sliced at a fixed interval using a rotary slicer. Each slice is photographed with a high-resolution digital camera. The digital images are realigned as a 3-dimensional volume via a control point-based registration method for multi-slice registration. The realigned multiple slices of the reconstructed postmortem hemisphere are then co-registered to corresponding slices of an in vivo reference MRI-volume. We illustrate these postmortem MRI-brain co-registration methods to correlate in vivo T2-weighted MRI hyperintensities in gray and white matter with underlying pathology. For design-based stereology, the volume of interest (VOI) is defined using reproducible anatomical boundaries. This method is suitable for stereologic measures of structures ranging from defined nuclei to whole brain.