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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT05497362
Other study ID # UW16-126
Secondary ID
Status Completed
Phase N/A
First received
Last updated
Start date April 1, 2016
Est. completion date June 30, 2017

Study information

Verified date September 2022
Source The University of Hong Kong
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

The proposed study aimed to determine if tDCS can help post-stroke patients with dysarthria.


Description:

A total of 9 Cantonese-speaking chronic post-stroke patients who are suffering from dysarthria was recruited and randomly divided into treatment group and sham group. For the treatment group, an anodal high-definition tDCS of 2 milliampere (mA) lasting for 15 minutes was delivered to the primary motor cortex (SM1) in 10 daily sessions during a 2-week period. For the sham tDCS group, the same setting of tDCS electrodes was applied on the scalp, but the stimulation only lasted for 30 sec in order to cause similar sensation on the scalp as the other group. Simultaneous to the tDCS stimulation, both groups will receive speech and voice therapy for 30 minutes. An array of outcome measures reflecting speech production ability including acoustic, kinematic, perceptual and self-perceptual qualities was obtained before and after stimulation. It was anticipated that post-stroke dysarthric patients will see improvement in speech production after stimulation. The results provided important insights into the effects of tDCS on articulatory movement in individuals with dysarthria post-stroke.


Recruitment information / eligibility

Status Completed
Enrollment 9
Est. completion date June 30, 2017
Est. primary completion date June 30, 2017
Accepts healthy volunteers No
Gender All
Age group 18 Years to 75 Years
Eligibility Inclusion Criteria: - Cantonese-speaking adults - At least 6 months after their initial stroke - Dysarthria post-stroke Exclusion Criteria: - A personal or family history of epilepsy or seizures - A history of another neurological condition - Speech disorders - Voice disorders - Oro-maxillo-facial surgery involving the tongue and/or lip - Severe cognitive impairment - Severe aphasia - Heart disease - Metallic foreign body implant - On medications that lower neural thresholds (e.g. tricyclines, antidepressants, neuroleptic agents, etc.)

Study Design


Related Conditions & MeSH terms


Intervention

Device:
Real tDCS
2mA of tDCS was delivered to the orofacial area of the primary motor cortex (SM1) for 15 minutes. Speech therapy was delivered simultaneously.
Sham tDCS
2mA of tDCS was delivered to the orofacial area of the primary motor cortex (SM1) for 30 sec. Speech therapy was delivered simultaneously.

Locations

Country Name City State
Hong Kong University of Hong Kong Hong Kong

Sponsors (2)

Lead Sponsor Collaborator
The University of Hong Kong The Hong Kong Polytechnic University

Country where clinical trial is conducted

Hong Kong, 

Outcome

Type Measure Description Time frame Safety issue
Primary Perceptual speech assessments All participants were required to produce a sustained vowel /a/, repeated some syllables (i.e., /pa/, /ta/, /ka/ and /pataka/), produce some single words, read a standard paragraph in Cantonese and had a two-minute conversation with the investigator. A professional grade microphone (SM58, Shure, USA) was used to record the speech production. Experienced speech-language pathologists blinded to the neurological condition and history of each participant analyzed the speech samples independently using a perceptual rating scale including 21 speech dimensions covering eight categories, including pitch, loudness, voice quality, resonance, rate, articulation, tone, and general impression. The speech samples were rated using a seven-point equal-appearing interval scale, with a "1" indicating within typical limit performance and a "7" severely deviated from the normal. Change before and after tDCS stimulation at immediately post-treatment
Primary Acoustic measurement: Fundamental frequency (F0) Fundamental frequency (F0) was obtained from sustained vowel phonation. Change before and after tDCS stimulation at immediately post-treatment
Primary Acoustic measurement: Frequency perturbation (jitter %) Frequency perturbation (jitter %) was obtained from sustained vowel phonation. Change before and after tDCS stimulation at immediately post-treatment
Primary Acoustic measurement: Intensity perturbation (shimmer %) Intensity perturbation (shimmer %) was obtained from sustained vowel phonation. Change before and after tDCS stimulation at immediately post-treatment
Primary Acoustic measurement: Noise to harmonic ratio (NHR) Noise to harmonic ratio (NHR) was obtained from sustained vowel phonation. Change before and after tDCS stimulation at immediately post-treatment
Primary Acoustic measurement: Harmonic to noise ratio (HNR) Harmonic to noise ratio (HNR) was obtained from sustained vowel phonation. Change before and after tDCS stimulation at immediately post-treatment
Secondary Kinematic measurement: Duration The lip and tongue function during speech production were traced real time and objectively measured using an electromagnetic articulography. All participants were required to produce single-syllable real words of consonant-vowel (CV) construction at high level tone embedded in a carrier phrase and repeat some syllables (i.e., /pa/, /ta/, /ka/ and /pataka/). A custom-written analysis programme was used to annotate and calculate the kinematic measures, including duration (ms), distance (mm), maximum velocity (mm/s), maximum acceleration (m/s2) and maximum deceleration (m/s2) in the approach (movement towards the upper lip/palate) and release (movement away from the upper lip/palate) phases along the z-axis, i.e., along the mid-sagittal plane. Change before and after tDCS stimulation at immediately post-treatment
Secondary Kinematic measurement: Distance The lip and tongue function during speech production were traced real time and objectively measured using an electromagnetic articulography. All participants were required to produce single-syllable real words of consonant-vowel (CV) construction at high level tone embedded in a carrier phrase and repeat some syllables (i.e., /pa/, /ta/, /ka/ and /pataka/). A custom-written analysis programme was used to annotate and calculate the kinematic measures, including duration (ms), distance (mm), maximum velocity (mm/s), maximum acceleration (m/s2) and maximum deceleration (m/s2) in the approach (movement towards the upper lip/palate) and release (movement away from the upper lip/palate) phases along the z-axis, i.e., along the mid-sagittal plane. Change before and after tDCS stimulation at immediately post-treatment
Secondary Kinematic measurement: Maximum velocity The lip and tongue function during speech production were traced real time and objectively measured using an electromagnetic articulography. All participants were required to produce single-syllable real words of consonant-vowel (CV) construction at high level tone embedded in a carrier phrase and repeat some syllables (i.e., /pa/, /ta/, /ka/ and /pataka/). A custom-written analysis programme was used to annotate and calculate the kinematic measures, including duration (ms), distance (mm), maximum velocity (mm/s), maximum acceleration (m/s2) and maximum deceleration (m/s2) in the approach (movement towards the upper lip/palate) and release (movement away from the upper lip/palate) phases along the z-axis, i.e., along the mid-sagittal plane. Change before and after tDCS stimulation at immediately post-treatment
Secondary Kinematic measurement: Maximum acceleration The lip and tongue function during speech production were traced real time and objectively measured using an electromagnetic articulography. All participants were required to produce single-syllable real words of consonant-vowel (CV) construction at high level tone embedded in a carrier phrase and repeat some syllables (i.e., /pa/, /ta/, /ka/ and /pataka/). A custom-written analysis programme was used to annotate and calculate the kinematic measures, including duration (ms), distance (mm), maximum velocity (mm/s), maximum acceleration (m/s2) and maximum deceleration (m/s2) in the approach (movement towards the upper lip/palate) and release (movement away from the upper lip/palate) phases along the z-axis, i.e., along the mid-sagittal plane. Change before and after tDCS stimulation at immediately post-treatment
Secondary Kinematic measurement: Maximum deceleration The lip and tongue function during speech production were traced real time and objectively measured using an electromagnetic articulography. All participants were required to produce single-syllable real words of consonant-vowel (CV) construction at high level tone embedded in a carrier phrase and repeat some syllables (i.e., /pa/, /ta/, /ka/ and /pataka/). A custom-written analysis programme was used to annotate and calculate the kinematic measures, including duration (ms), distance (mm), maximum velocity (mm/s), maximum acceleration (m/s2) and maximum deceleration (m/s2) in the approach (movement towards the upper lip/palate) and release (movement away from the upper lip/palate) phases along the z-axis, i.e., along the mid-sagittal plane. Change before and after tDCS stimulation at immediately post-treatment
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