Abstract

The autosomal dominant spinocerebellar ataxias (SCAS) and episodic ataxias (EAs) are a group of adult- and juvenile-onset neurodegenerative diseases characterized by progressive or intermittent dysarthria and incoordination due to degeneration of the cerebellum and brainstem. Advances in the genetic understanding of these diseases have established that, despite similar clinical presentations, there are at least 9 genetically distinct subtypes, SCAI-SCA7, EA-1 and EA-2. Clinical observations suggest that eye movements and postural stability are universally but differentially impaired in the SCAs, presumably due to regional differences in brainstem and cerebellar involvement in the disease. The voluntary and reflexive control of oculomotor and vestibular function rely heavily on the normal function of the cerebellum and its interaction with brainstem neurons. A precise understanding of extraocular movements and vestibular dependent reflexes in SCA may identify both common abnormalities useful for comparative scoring among kindreds, and abnormalities that are unique to a given SCA subtype. In this project the applicants propose to take advantage of a large database of SCA patients, and recent developments in both the genetics of autosomal dominant ataxia, and in the technology for recording and analyzing eye movements and the dynamic control of posture to address the question of whether specific patterns of eye movement abnormalities and postural instability characterize genetically-defined SCAs. These studies will allow them to assess the functional integrity of widespread areas of the brainstem and cerebellum. These measurements are non-invasive, more sensitive than static magnetic resonance imaging, and can be applied to a larger number of genetically defined ataxia patients than could be possible using pathological studies. They propose to: 1) Determine the genetic status of all SCA and EA (episodic ataxia) patients in the University of Minnesota Ataxia Database. 2) Determine whether genetically homogeneous forms of SCA manifest unique patterns of oculomotor and vestibular abnomalities. 3) Determine whether the length of CAG repeat expansions in SCA 1, 2, 3 and 6 correlate with the profile of oculomotor and vestibular abnormalities. 4) Define the progression of oculomotor, vestibular and postural abnormalities as a function of disease duration for SCA 1-7. These studies may identify diagnostic features for some SCA types and provide valuable information about selective vulnerability of CNS neurons and the pathogenesis of CAG repeat diseases. They also may identify traits common to all patients with ataxia that will be useful quantitative measures for therapeutic trials. These studies will test the hypothesis that sensitive measures of eye movements and balance can be used to detect and quantify ataxia from its earliest stages.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
1R01NS037211-01A1
Application #
2692731
Study Section
Special Emphasis Panel (ZRG1-NLS-1 (01))
Program Officer
Spinella, Giovanna M
Project Start
1998-08-01
Project End
2002-07-31
Budget Start
1998-08-01
Budget End
1999-07-31
Support Year
1
Fiscal Year
1998
Total Cost
Indirect Cost

  Institution

Name
University of Minnesota Twin Cities
Department
Neurology
Type
Schools of Medicine
DUNS #
168559177
City
Minneapolis
State
MN
Country
United States
Zip Code
55455

  Publications

Solodkin, Ana; Gomez, Christopher M (2012) Spinocerebellar ataxia type 6. Handb Clin Neurol 103:461-73
Christova, Peka; Anderson, John H; Gomez, Christopher M (2008) Impaired eye movements in presymptomatic spinocerebellar ataxia type 6. Arch Neurol 65:530-6
Sidtis, John J; Gomez, Christopher; Groshong, Ansam et al. (2006) Mapping cerebral blood flow during speech production in hereditary ataxia. Neuroimage 31:246-54
Maschke, Matthias; Gomez, Christopher M; Tuite, Paul J et al. (2006) Depth perception in cerebellar and basal ganglia disease. Exp Brain Res 175:165-76
Maschke, Matthias; Oehlert, Gary; Xie, Ting-Dong et al. (2005) Clinical feature profile of spinocerebellar ataxia type 1-8 predicts genetically defined subtypes. Mov Disord 20:1405-12
Engel, Kevin C; Anderson, John H; Gomez, Christopher M et al. (2004) Deficits in ocular and manual tracking due to episodic ataxia type 2. Mov Disord 19:778-87
Maschke, Matthias; Gomez, Christopher M; Ebner, Timothy J et al. (2004) Hereditary cerebellar ataxia progressively impairs force adaptation during goal-directed arm movements. J Neurophysiol 91:230-8
Subramony, S H; Schott, Kelly; Raike, Robert S et al. (2003) Novel CACNA1A mutation causes febrile episodic ataxia with interictal cerebellar deficits. Ann Neurol 54:725-31
Maschke, Matthias; Gomez, Christopher M; Tuite, Paul J et al. (2003) Dysfunction of the basal ganglia, but not the cerebellum, impairs kinaesthesia. Brain 126:2312-22
Anderson, J H; Yavuz, M C; Kazar, B M et al. (2002) The vestibulo-ocular reflex and velocity storage in spinocerebellar ataxia 8. Arch Ital Biol 140:323-9

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