Optokinetic Nystagmus Clinical Trial
— CAVAOfficial title:
Production of a Device to Obtain Continuous Ambulatory Vestibular Assessment (CAVA) - Healthy Volunteer Trial
| Verified date | November 2020 |
| Source | Norfolk and Norwich University Hospitals NHS Foundation Trust |
| Contact | n/a |
| Is FDA regulated | No |
| Health authority | |
| Study type | Observational |
Clinical investigation of a medical device (CAVA) for recording eye movements. Healthy volunteers will wear the device for 23 hours a day, for 30 days. On 8 separate days of the trial they will induce optokinetic nystagmus (a normal reflex in response to full-field motion) by watching a short video of less than 1 minute in duration. The data will be analysed offline by a scientist, who will attempt to identify the dates that the nystagmus was induced.
| Status | Completed |
| Enrollment | 18 |
| Est. completion date | April 5, 2019 |
| Est. primary completion date | December 12, 2018 |
| Accepts healthy volunteers | Accepts Healthy Volunteers |
| Gender | All |
| Age group | 18 Years and older |
| Eligibility | Inclusion Criteria: - Adults aged 18 and over - Able to commit to 30 days of continuous wear of the trial device as per the study plan - Own a telephone Exclusion Criteria: - Potential participants who have a history of dermatological disease or damage around the forehead - Potential participants who have an allergy to plasters and/or medical adhesives - History of dizziness, vertigo, balance disorders, or syncope - History of hypertension or cardiac problems (uncontrolled, acute or de-compensated phase) - History of ear disease, or previous ear surgery - History of psychotic/neurotic disorders or epilepsy - History of eye disease, or previous eye surgery - Unable to follow the testing protocol |
| Country | Name | City | State |
|---|---|---|---|
| United Kingdom | Norfolk and Norwich University Hospitals NHS Foundation Trust | Norwich | Norfolk |
| Lead Sponsor | Collaborator |
|---|---|
| Julie Dawson | Medical Research Council, University of East Anglia |
United Kingdom,
| Type | Measure | Description | Time frame | Safety issue |
|---|---|---|---|---|
| Primary | Sensitivity and Specificity of a Computer Algorithm to Detect Artificially Induced Nystagmus | Dates containing nystagmus. Of the ~450 days' worth of data captured during the study, 120 will contain artificially induced nystagmus. A computer algorithm has been developed at the University of East Anglia for detecting nystagmus. The key measurements are the sensitivity and specificity of the algorithm's results when applied to data captured during the trial. This measurement will be assessed post-trial. | 30 days | |
| Secondary | Post-trial Participant Questionnaire. | A 2-page questionnaire producing qualitative and quantitative data. Participants rate different aspects of their experiences with the device using a sliding scale and have the opportunity to write more detailed descriptions. | 30 days | |
| Secondary | Compliance With the Device. | 1 - There is a minimum of 80% compliance with wearing the device for each single day of the trial for a minimum of 80% of participants. 2 There is a minimum of 80% compliance with wearing the device for the entirety of the 30-day trial for a minimum of 80% of participants. | 30 days | |
| Secondary | Data Usefulness | The device provides less than 5% non-useful data for each participant. We will report the percentage of non-useful data (corrupted or flat-line data) that is captured for each participant. | 30 days | |
| Secondary | Data Usefulness | The device provides less than 5% non-useful data for the entirety of the 30-day trial across all participants. We will report the percentage of non-useful data (corrupted or flat-line data) that is captured over the entire trial, across all participants. | 30 days | |
| Secondary | Event Marker Functioning | During a return visit, the event marker on each device will be pressed and the time noted. Post-trial, the data on the device will be examined to confirm that an event was recorded on the correct date. This will produce either a positive or negative outcome, depending on whether the event marker button press is present in the data or not. The percentage of identifiable button presses across all devices will be reported. | 30 days | |
| Secondary | Time Stamp Accuracy | The difference will be calculated between the time noted by the research team and the time logged by the device when the event marker was activated. The time difference (in hh:mm:ss) will be calculated across all devices and we will report the average and standard deviation of the clock drift. | 30 days | |
| Secondary | Accelerometer Functioning | Participants will perform a number of head movements and the device data will be examined visually to confirm that they can be identified. This will produce either a positive or negative outcome for each head movement, depending on whether the movement is visible in the data or not. The proportion of successfully identified head movements will be reported. | 30 days | |
| Secondary | Accuracy of Nystagmus Beat Direction | Participants will undergo caloric testing at the end of the trial, during which they will wear conventional Videonystagmography (VNG) goggles as well as the CAVA device. The beat direction (whether the fast phase of the nystagmus is towards the left or right ear) will be determined from both sources of data during the period of nystagmus captured. This will produce either a positive or negative outcome, depending on whether the beat direction matches in both data sources. The proportion of matches will be reported. | 1 hour | |
| Secondary | Accuracy of Nystagmus Onset Time | Also from the data captured during caloric testing, the start time of nystagmus will be identified from both the VNG data and data captured by the CAVA device. The time difference (in mm:ss) will be calculated between the two data sources and the mean time difference will be reported. | 1 hour | |
| Secondary | Accuracy of Nystagmus Finishing Time | Also from the data captured during caloric testing, the finishing time of nystagmus will be identified from both the VNG data and data captured by the CAVA device. The time difference (in mm:ss) will be calculated between the two data sources and the mean time difference will be reported. | 1 hour | |
| Secondary | Accuracy of Nystagmus Peak Time | Also from the data captured during caloric testing, the time at which the nystagmus reaches its maximum slow phase velocity will be calculated from the VNG data and the data captured by the CAVA device. The time difference (in mm:ss) will be calculated between the two data sources and the mean time difference will be reported. | 1 hour | |
| Secondary | Accuracy of Nystagmus Frequency | Also from the data captured during caloric testing, the number of beats will be counted during the period identified as the nystagmus peak time. This will be calculated for both the VNG data and the data captured by the CAVA device. From the number of beats and time duration examined, the frequency of the nystagmus will be determined. The difference between the two systems will be calculated and the mean difference will be reported. The Unit of Measure will be Hz (number of beats per second). | 1 hour | |
| Secondary | Data Drop-outs | The device provides less 5 drop-outs for each single day of the trial for each participant. We will report the maximum number of drop-outs (periods when the device stopped logging) per participant, per day. | 30 days | |
| Secondary | Data Drop-outs | The device provides less 60 drop-outs for the entirety of the 30-day trial across all participants. We will report the total number of drop-outs that occurred over the entire trial, across all participants. | 30 days |