Diagnosing Variant Creutzfeldt-Jakob Disease with the Pulvinar Sign: MR Imaging Findings in 86 Neuropathologically Confirmed Cases
Donald A. Colliea,
David M. Summersa,
Robin J. Sellara,
James W. Ironsideb,
Sarah Cooperb,
Martin Zeidlerb,
Richard Knightb and
Robert G. Willb
a Department of Neuroradiology, Western General Hospital, Edinburgh, Scotland
b United Kingdom National Creutzfeldt-Jakob Disease Surveillance Unit, Western General Hospital, Edinburgh, Scotland
View larger version (65K):
[in a new window]
|
FIG 1. A, Normal FLAIR image at the level of the basal ganglia shows the thalamus is normally isointense or slightly hypointense relative to the putamen. This appearance is depicted with most sequences, particularly the FLAIR sequence.
B, Pulvinar sign of vCJD. FLAIR image shows marked, symmetrical hyperintensity of the pulvinar (posterior) thalamic nuclei. In this case, the pulvinar signal intensity was scored as grade 4 by both observers.
C, "Hockey-stick" sign of vCJD. FLAIR image shows symmetrical pulvinar and dorsomedial thalamic nuclear hyperintensity. This combination gives a characteristic "hockey-stick" appearance and was present in 93% of cases with FLAIR imaging.
| |
View larger version (158K):
[in a new window]
|
FIG 2. Grading of degree of pulvinar hyperintensity in vCJD. Because only hard-copy images were available in most cases of vCJD, a 5-point semiquantitative scoring system was used to grade the degree of hyperintensity of the cerebral structures, with white matter scored as 0, normal gray matter scored as 1, and pathologic hyperintensity scored from 2 to 4. Examples of FLAIR images are presented.
A, Normal FLAIR image for comparison.
B, Grade 2 hyperintensity of pulvinar.
C, Grade 3 hyperintensity of pulvinar.
D, Grade 4 hyperintensity of pulvinar
| |
View larger version (122K):
[in a new window]
|
FIG 3. Effect of MR sequence on visibility of the pulvinar sign.
A, Nonenhanced T1-weighted image. High signal intensity was relatively rarely detected on T1-weighted images, which was thought to be secondary to the T1-shortening effect from marked prion protein deposition. Contrast enhancement was not seen in any case.
B–D, The pulvinar sign was more easily seen on T2-weighted (B) and PD-weighted (C) images, but was clearly visible on FLAIR (D) images.
E, DW image was also positive in one of two available cases.
| |
View larger version (44K):
[in a new window]
|
FIG 4. Graph shows timing of MR imaging in relation to vCJD duration. Dark gray indicates negative MR images; light gray, positive MR images
| |
View larger version (132K):
[in a new window]
|
FIG 5. Other MR imaging findings in vCJD.
A, Axial FLAIR image shows periaqueductal gray matter hyperintensity (arrow). Though not a specific sign, periaqueductal gray matter hyperintensity was seen in 83% of cases with FLAIR imaging.
B, FLAIR image shows abnormal hyperintensity in the centrum semiovale white matter (arrows), reflecting the diffuse involvement of the brain by the disease.
C, FLAIR image shows asymmetrical bilateral pulvinar hyperintensity. Asymmetrical hyperintensity was a rare finding in vCJD, seen in less than 5% of cases.
D, PD-weighted image shows widespread basal ganglia hyperintensity. Though hyperintensity in the basal ganglia is also seen in a number of other conditions, the signal intensity of the pulvinar remains the most hyperintense, helping to categorize this case correctly as probable vCJD.
E and F, Case of progressive cerebral atrophy in vCJD. Two images taken 3 months apart show subtle but definite global cerebral atrophy. Unlike in sCJD, cerebral atrophy is not a prominent feature of vCJD and is most easily seen in the parietooccipital region.
| |
