Electroencephalography Clinical Trial
Official title:
Effects of Conventional Versus Acupuncture-like TENS on Pain Threshold and Brain Activities in Healthy Adults
The purpose of this study was to understand the effects of conventional versus acupuncture-like TENS on pain threshold, brain activities, and their relationships.
Status | Recruiting |
Enrollment | 40 |
Est. completion date | April 30, 2023 |
Est. primary completion date | April 30, 2023 |
Accepts healthy volunteers | Accepts Healthy Volunteers |
Gender | All |
Age group | 20 Years to 65 Years |
Eligibility | Inclusion Criteria: - 20~65 y adults - No cognitive function problem - Without taking any type of pain medication or substances that could affect the cognitive functions Exclusion Criteria: - Peripheral or central nervous system disease - Sensory lose - TENS application is contraindication - Cardiac pacemaker - Any type of pain |
Country | Name | City | State |
---|---|---|---|
Taiwan | National Yang-Ming University | Taipei |
Lead Sponsor | Collaborator |
---|---|
National Yang Ming University |
Taiwan,
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Pressure pain threshold after the intervention | Use a pressure algometer to press on the first dorsal interosseous muscle and the pressure would stop until the feeling changes from non-painful feeling to painful feeling. | The change between baseline and the time after 30 minutes intervention | |
Primary | Pressure pain tolerance after the intervention | Use a pressure algometer to press on the first dorsal interosseous muscle and the pressure would stop until the feeling reach the pain intensity at 5/10. | The change between baseline and the time after 30 minutes intervention | |
Primary | EEG power spectrum change in delta band after the intervention | Evaluate brain activity after the intervention | The change between baseline and the time after 30 minutes intervention | |
Primary | EEG power spectrum change in theta band after the intervention | Evaluate brain activity after the intervention | The change between baseline and the time after 30 minutes intervention | |
Primary | EEG power spectrum change in alpha band after the intervention | Evaluate brain activity after the intervention | The change between baseline and the time after 30 minutes intervention | |
Primary | EEG power spectrum change in beta band after the intervention | Evaluate brain activity after the intervention | The change between baseline and the time after 30 minutes intervention | |
Primary | EEG power spectrum change in low-gamma band after the intervention | Evaluate brain activity after the intervention | The change between baseline and the time after 30 minutes intervention | |
Primary | EEG power spectrum change in high-gamma band after the intervention | Evaluate brain activity after the intervention | The change between baseline and the time after 30 minutes intervention | |
Primary | EEG power spectrum change in total gamma band after the intervention | Evaluate brain activity after the intervention | The change between baseline and the time after 30 minutes intervention | |
Secondary | Pressure pain tolerance after the 30 minutes break | Use a pressure algometer to press on the first dorsal interosseous muscle and the pressure would stop until the feeling reach the pain intensity at 5/10. | The change between 30 minutes intervention and 30 minutes break after the intervention | |
Secondary | Pressure pain threshold after the 30 minutes break | Use a pressure algometer to press on the first dorsal interosseous muscle and the pressure would stop until the feeling changes from non-painful feeling to painful feeling. | The change between 30 minutes intervention and 30 minutes break after the intervention | |
Secondary | EEG power spectrum change in delta band after the 30 minutes break | Evaluate brain activity after the 30 minutes break | The change between 30 minutes intervention and 30 minutes break after the intervention | |
Secondary | EEG power spectrum change in theta band after the 30 minutes break | Evaluate brain activity after the 30 minutes break | The change between 30 minutes intervention and 30 minutes break after the intervention | |
Secondary | EEG power spectrum change in alpha band after the 30 minutes break | Evaluate brain activity after the 30 minutes break | The change between 30 minutes intervention and 30 minutes break after the intervention | |
Secondary | EEG power spectrum change in beta band after the 30 minutes break | Evaluate brain activity after the 30 minutes break | The change between 30 minutes intervention and 30 minutes break after the intervention | |
Secondary | EEG power spectrum change in low-gamma band after the 30 minutes break | Evaluate brain activity after the 30 minutes break | The change between 30 minutes intervention and 30 minutes break after the intervention | |
Secondary | EEG power spectrum change in high-gamma band after the 30 minutes break | Evaluate brain activity after the 30 minutes break | The change between 30 minutes intervention and 30 minutes break after the intervention | |
Secondary | EEG power spectrum change in total gamma band after the 30 minutes break | Evaluate brain activity after the 30 minutes break | The change between 30 minutes intervention and 30 minutes break after the intervention |
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