Aerobic Exercise, Balance Training, and Ataxia

Columbia University20 enrolled

Overview

The first aim is to show aerobic training improves degenerative cerebellar patients functionally The second aim is to compare the effects of balance and aerobic training on degenerative cerebellar disease.

Individuals with degenerative cerebellar disease (DCD) exhibit gradual loss of coordination resulting in impaired balance, gait deviations, and severe, progressive disability. With no available disease-modifying medications, balance training is the primary treatment option to improve motor skills and functional performance. Aerobic training, on the other hand, may modify DCD progression as evident from animal data. Compared to sedentary controls, aerobically trained DCD rats have enhanced lifespan, motor function, and cerebellar Purkinje cell survival. Numerous animal studies also document that aerobic training has a direct, favorable effect on the brain that includes production of neurotrophic hormones, enhancement of neuroplasticity mechanisms, and protection from neurotoxins. The effects of aerobic training in humans with DCD are relatively unknown, despite these encouraging animal data. A single study to date has evaluated the benefits of aerobic exercise on DCD in humans, and this was a secondary outcome of the study. Although participants performed limited aerobic training during the study, modest functional benefits were still detected. The main objective of this project will be to compare the benefits of aerobic versus balance training in DCD. The investigators hypothesize that both aerobic and balance training will improve function in DCD subjects, but that the mechanisms in which these improvements occur differ.

Study Type

INTERVENTIONAL

Allocation

RANDOMIZED

Purpose

TREATMENT

Masking

SINGLE

Enrollment

Conditions

Ataxia Spino Cerebellar Degeneration Spinocerebellar Ataxias

Interventions

Aerobic trainingBEHAVIORAL

Aerobic training on stationary bicycle for 30 minutes a day, 5 days a week for 1 month

Balance TrainingBEHAVIORAL

Standard of care

Eligibility

Sex: ALLMin age: 18 Years

Medical Language ↔ Plain English

Inclusion Criteria: * Diagnosed with spinocerebellar ataxia * Cerebellar atrophy on MRI * Prevalence of ataxia on clinical exam * Ability to safely ride a stationary exercise bike Exclusion Criteria: * Other neurologic conditions * Heart disease * Cognitive impairment * Medical instability

Locations (1)

Columbia University/New York Presbyterian

New York, New York, United States

Outcomes

Primary Outcomes

Change in SARA score

Ataxia severity will be measured using the Scale for the Assessment and Rating of Ataxia (SARA).SARA evaluates the degree of ataxia by measuring gait, stance, sitting balance, speech, finger-chase test, nose-finger test, fast alternating movements, and heel-shin test.

Time frame: 1 month

Secondary Outcomes

Change in gait speed

For the walking assessment, participants will walk as fast as possible on a 10-meter runway six times, and the investigators will average the times of trials 3-6 to determine gait speed expressed in meters/second.

Time frame: 1 month

Change in static balance

Static standing balance will be assessed by measuring postural sway during two, one-minute trials. Participants will stand with arms crossed over their chest and feet shoulder-width apart under two conditions: eyes open and eyes closed. Data will be collected using Bertec's dual split-belt treadmill (Bertec, Columbus, OH) embedded with force plates. Balance deficits will be calculated as the magnitude of postural sway (sway amplitude) using custom Nexus and Bodybuilder software (Vicon, Denver, CO).

Time frame: 1 month

Data from ClinicalTrials.gov

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