
Degeneration of the Cerebellum in H untington's Disease ( HD ): Possible Relevance for the Clinical Picture and Potential Gateway to Pathological Mechanisms of the Disease Process
Author(s) -
Rüb Udo,
Hoche Franziska,
Brunt Ewout R.,
Heinsen Helmut,
Seidel Kay,
Del Turco Domenico,
Paulson Henry L.,
Bohl Jürgen,
Gall Charlotte,
Vonsattel JeanPaul,
Korf HorstWerner,
Dunnen Wilfred F.
Publication year - 2013
Publication title -
brain pathology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.986
H-Index - 132
eISSN - 1750-3639
pISSN - 1015-6305
DOI - 10.1111/j.1750-3639.2012.00629.x
Subject(s) - cerebellum , atrophy , pathology , ataxia , cerebellar ataxia , pathological , neuroscience , huntington's disease , psychology , medicine , disease
H untington's disease ( HD ) is a polyglutamine disease and characterized neuropathologically by degeneration of the striatum and select layers of the neo‐ and allocortex. In the present study, we performed a systematic investigation of the cerebellum in eight clinically diagnosed and genetically confirmed HD patients. The cerebellum of all HD patients showed a considerable atrophy, as well as a consistent loss of P urkinje cells and nerve cells of the fastigial, globose, emboliform and dentate nuclei. This pathology was obvious already in HD brains assigned V onsattel grade 2 striatal atrophy and did not correlate with the extent and distribution of striatal atrophy. Therefore, our findings suggest (i) that the cerebellum degenerates early during HD and independently from the striatal atrophy and (ii) that the onset of the pathological process of HD is multifocal. Degeneration of the cerebellum might contribute significantly to poorly understood symptoms occurring in HD such as impaired rapid alternating movements and fine motor skills, dysarthria, ataxia and postural instability, gait and stance imbalance, broad‐based gait and stance, while the morphological alterations (ie ballooned neurons, torpedo‐like axonal inclusions) observed in the majority of surviving nerve cells may represent a gateway to the unknown mechanisms of the pathological process of HD .