LAUSR

When the hot cross bun (HCB) was created in the 12th century, little did its makers know that the buns’ rather innocuous existence would extend far beyond the realms of the culinary world and that it would play a significant role in the field of neurology. This sudden shot to neurological fame occurred in 1998 when Schrag et at, christened the imaging observation with the statement “Infratentorial signal changes had characteristic appearances. The pontine hyperintensity was cruciform resembling a ‘hot cross bun’” and suggested that this sign was specific to multiple system atrophy (MSA). In fact, the association is so well established that a general survey among neurologists regarding conditions associated with the HCB sign (HCBS) will probably always lead to the response of MSA-C and perhaps a spinocerebellar ataxia (SCA). However, it is time to cross out this specificity and understand that the HCB is in no way a sign specific to an etiology. The current issue features two articles which strongly reinforce the above concepts. A case of HCBS in ATX-ELOVL4 (SCA34) by Moreno-Escobar and Tripathi and the article by Naidoo et al which is a case series of HCBS in ATX-ATXN2 (SCA2) and ATX-ATXN7 (SCA7) accompanied by a highly comprehensive review of the HCBS. The evolution of possible differential diagnosis for the HCBS is rather interesting (Fig. 1) with a significant increase within the past decade in the number of conditioned associated with the sign. To a certain extent this is indicative of progress made in the field specifically in advances associated with autoimmune and paraneoplastic antibodies. The underlying etiologies are varied and as described in detail in the article by Naidoo et al, the HCBS may be secondary to degenerative, genetic, autoimmune, infectious, inflammatory, neoplastic/ paraneoplastic, vascular or other causes. Concepts pertaining to the pathophysiological process contributing to the HCBS have also evolved. Earlier when the association was restricted to MSA, the underlying pathophysiological process was considered to be atrophy of pontine neurons and transverse pontocerebellar fibers with sparing pontine tegmentum and corticospinal tracts. This neurodegeneration follows a 4-point visual grade on MR imaging, where grade 0 (no changes), grade 1 (a relatively hyperintense vertical line in comparison to the horizontal line which is beginning to appear), grade 2 (only a clear vertical line is visible), grade 3 (a horizontal line is beginning to appear following the appearance of a vertical line) and grade 4 (prominent and complete HCBS). However, delayed appearance of the sign in cases with a vascular etiology has suggested the role of Wallerian degeneration or gliosis of the pontocerebellar fibers. In case of infectious etiologies, the pathogenesis of the HCBS is rather different. For instance, in variant Creutzfeldt Jakob disease, neuronal loss, plaques with spongiform changes, and astrocytosis has been described. Whereas in progressive multifocal leukoencephalopathy, the granule cell layer has been considered to be involved. In natalizumab-associated multifocal leukoencephalopathy, a variant of the HCBS named the “across the pons” sign has been described. This consists of a linear T2-hyperintensity across the rostral pons with some intersecting T2-hyperintensity anteriorly. Another variant is the “reverse” HCBS, that is observed as a cruciform hypointensity quadrisecting the pontine hyperintensities and has been reported in pontine infarcts, Wilson disease, and primary progressive aphasia. Finally, and perhaps of most interest is the association with an inflammatory etiology wherein radiological recovery of the HCBS post immunomodulation strongly indicates an alternative pathophysiology. A majority of the new conditions associated with the HCB are rare and have been described only in a few case reports. Taking into account that the differential diagnoses of the HCBS include numerous conditions, it is of importance to conduct detailed clinical evaluations taking into consideration the predominant clinical manifestations, age at disease onset, patterns of progression of the illness, as well as findings in complementary investigative procedures and additional imaging hallmarks. Studies aimed at differentiating cerebellar ataxias based on pontine MRI findings have reported that the HCBS had a high specificity of 98%