Keywords

cerebellar atrophy, ataxia, overground harness training, vestibular system

 

Authors

  1. Landers, Merrill DPT, OCS
  2. Adams, Melissa DPT, ATC, CSCS
  3. Acosta, Keri DPT
  4. Fox, Andrew DPT

Abstract

Background and Purpose: Sporadic olivopontocerebellar atrophy (OPCA) is a rare and debilitating neurologic disease of insidious onset. It is characterized by atrophy of the cerebellum, pons, and inferior olivary nuclei with concomitant ambulation deficits and dyscoordination. To our knowledge, there has been no published study investigating any aspect of rehabilitation in OPCA. Therefore, the purpose of this study was to investigate the use of challenge-oriented gait and balance training to improve gait and balance in OPCA.

 

Case Description: An otherwise healthy 19-year-old woman with moderate to severe upper and lower extremity ataxia, secondary to sporadic OPCA, participated in this prospective case study. She also had a vestibulotoxic treatment procedure to decrease the severity of her vertigo.

 

Intervention: This individual participated in a 12-week gait and balance training program (five times per week), which consisted of one to two hours of various challenging static and dynamic balance tasks. To measure her progress, the following scales and tests were used: Berg Balance Scale, Dynamic Gait Index, Activities-Specific Balance Confidence Scale, computerized dynamic posturography (sensory organization test and limits of stability), and self-selected gait velocity.

 

Outcomes: Improvements were noted in all the dependent measures (pre to post): Berg Balance Scale (34/56 to 39/56), Dynamic Gait Index (1/24 to 7/24), Activities-Specific Balance Confidence Scale (50.6%-85.1%), sensory organization test (composite score, 31/100 to 47/100), limits of stability (maximum excursion, 89-105; endpoint excursion, 57-93; directional control, 60-78), and SSGV (0.375-0.526 m/sec).

 

Discussion: Results from this case study suggest that a gait and balance training program may be beneficial to individuals with ataxia from OPCA. This early evidence warrants further investigation using more rigorous methods.