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Clinical Trial Summary

Neurodegenerative ataxia represents a group of disabling diseases. No effective treatment is currently available for them. Currently, studies are going on the effectiveness of noninvasive neurostimulation in neurodegenerative diseases. Transcranial pulsed current stimulation (tPCS) is a new modality of noninvasive neurostimulation. The investigators have planned to study the efficacy of tPCS in these patients of neurodegenerative ataxia.

Patients will be first examined clinically along with the rating of ataxia, assessment of upper limb coordination and speech as per protocol. Quantitative Electroencephalography (qEEG) and gait analysis will be done as per protocol. Next, a single session of 20 min non-invasive stimulation will be given via tPCS or sham stimulation. Stimulation will be given to cerebellum and dorsal spinal cord. After 20 mins of stimulation, re-assessment will be done using the same tools mentioned pre-stimulation.


Clinical Trial Description

The investigators have planned to study the efficacy of cerebello-spinal stimulation via Transcranial pulsed current stimulation (tPCS) in patients of neurodegenerative ataxia. Anodal stimulation will be used for the cerebellum and cathodal stimulation for the dorsal cord.

Patients will be assessed clinically and by EEG, KinArm and Gait - before and after a single session of 20 min stimulation via tPCS or sham stimulation.

The investigators have planned to assess-

1. Speech

2. Upper limb ataxia via KinArm. Standard KinArm testing protocol will be used which is used universally.

3. Gait via Gait Carpet

4. EEG

5. Scale for the assessment and rating of ataxia (SARA)

tPCS will be delivered through a pair of saline-soaked (0.9% NaCl) surface sponge electrodes (7 × 5 cm2, for the anodal cerebellar electrode; 8 × 6 cm2 for the cathodal spinal electrode). Anode will be placed on the scalp over the cerebellum area (2 cm under the inion). Cathode will be placed over the dorsal cord. Stimulation will be given for 20 mins.

Participant's speech will be recorded using a head-mounted microphone (AKG-c520) and a digital recording device (Zoom H4nPro) while performing the following calibrated tasks (Calibration involves a sound level meter placed at 15cm from the mouth while talker says 'ah' at 70dBA) -

1. Prolonged 'ah'.

2. Rapid repetitions of the sounds "puh", "tuh", and "kuh".

3. Two productions of a sentence with selected speech sounds (s, sh, p, b, t, i, a, u, ae, ai). "She saw Patty buy two poppies."

4. Two times louder production of a sentence with selected speech sounds. "She saw Patty buy two poppies."

5. Repetition of a continuous vowel at normal and fast rates. 'eye-eye-eye-eye-eye' without making any voice breaks or pauses".

6. Read aloud a section of a standard passage - standard rainbow passage

7. Monologue. Talk for two minutes about an interesting vacation (or an interesting hobby or activity).

The Zeno walkway will be used in conjunction with the ProtoKinetics Movement Analysis Software (PKMAS) . The walkway contains a series of pressure sensors to detect footfalls. These data will be captured and collated via the PKMAS software, resulting in numerous spatial, temporal and pressure-related gait parameters. Timed-up-and-go (TUG) task will be used, consisting of rising from chair, walking across the 20-foot gait carpet, turning around off the carpet, walking back and sitting down. This will be performed over 3 trials.

Gait analysis provides various parameters as output such as stride length, line of progression, step length, toe-offs and other temporal and spatial parameters for analysis.

Neurophysiological EEG signals will be recorded, eyes-closed, no-task, using g.Nautilus g.tec wireless system. The g.tech system uses earclip reference sensors. The subject will be in a quiet place with less light or electromagnetic perturbations. During the resting state recordings, patients are seated in a comfortable arm chair and will be instructed to keep relaxed, with their eyes closed for 5 min.

A paired t test will be used to compare baseline data and post tPCS data. Descriptive analysis of the neurological examination findings will be provided. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04054726
Study type Interventional
Source Western University, Canada
Contact Mandar Jog, MD
Phone ?519-685-8500?
Email Mandar.Jog@lhsc.on.ca
Status Not yet recruiting
Phase N/A
Start date September 2019
Completion date October 2021

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