Conventional magnetic resonance imaging in confirmed progressive supranuclear palsy
and multiple system atrophy
Massey, Luke A. ✉; Micallef, Caroline; Paviour, Dominic C.; O'Sullivan, Sean S.; Ling, Helen; Williams, David R.; Kallis, Constantinos; Holton, Janice L.; Revesz, Tamas [Révész, Tamás (Neuropathológia -...), szerző]; Burn, David J.; Yousry, Tarek; Lees, Andrew J.; Fox, Nick C.; Jaeger, Hans R.
Conventional magnetic resonance imaging (cMRI) is often used to aid the diagnosis
of progressive supranuclear palsy (PSP) and multiple system atrophy (MSA), but its
ability to predict the histopathological diagnosis has not been systematically studied.
cMRI from 48 neuropathologically confirmed cases, including PSP (n = 22), MSA (n =
13), Parkinson's disease (PD) (n = 7), and corticobasal degeneration (n = 6), and
controls (n = 9) were assessed blinded to clinical details and systematically rated
for reported abnormalities. Clinical diagnosis and macroscopic postmortem findings
were retrospectively assessed. Radiological assessment of MRI was correct in 16 of
22 (72.7%) PSP cases and 10 of 13 (76.9%) MSA cases with substantial interrater agreement
(Cohen's kappa 0.708; P < .001); no PSP case was misclassified as MSA or vice versa.
MRI was less sensitive but more specific than clinical diagnosis in PSP and both more
sensitive and specific than clinical diagnosis in MSA. The "hummingbird" and "morning
glory" signs were highly specific for PSP, and "the middle cerebellar peduncle sign"
and "hot cross bun" for MSA, but sensitivity was lower (up to 68.4%) and characteristic
findings may not be present even at autopsy. cMRI, clinical diagnosis, and macroscopic
examination at postmortem have similar sensitivity and specificity in predicting a
neuropathological diagnosis. We have validated specific radiological signs in pathologically
confirmed PSP and MSA. However, the low sensitivity of these and macroscopic findings
at autopsy suggest a need for imaging techniques sensitive to microstructural abnormalities
without regional atrophy. (C) 2012 Movement Disorder Society