Technical Evaluation of Earswitch Phase A

NCT ID: NCT05784727

Last Updated: 2023-05-11

Basic Information

• Recruitment Status: UNKNOWN
• Clinical Phase: NA
• Total Enrollment: 110 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2023-06-30
• Study Completion Date: 2024-09-30

Brief Summary

The goal of this study is to test the Earswitch device in both participants with and without assistive technology (AT) needs. The main aim is to determine how robust the Earswitch is in detecting voluntary eardrum movements (known as ear rumbling) and see how well the Earswitch fits with other assistive technology. To do this, participants will be asked to wear the Earswitch device and voluntarily contract their TT to complete a series of tasks shown on screen and/or explained audibly. Participants will be asked to complete questionnaires to understand their opinions about the effectiveness, usability, and comfort of both their current device (if applicable) and the Earswitch. This feedback will be invaluable in developing the Earswitch.

Detailed Description

The overall aim of this study is to evaluate the robustness of the EarSwitch technology (hardware and software) in detecting voluntary eardrum movements in people with assistive needs. This is a key step to ensure a robust design informed by patients' needs.

A secondary aim is to gather information from assistive device users about how well they can perform voluntary eardrum movements, as this knowledge will be used to inform what types of interfaces are appropriate for the Earswitch.

Healthy participants will also be recruited as a separate cohort, to maximise the amount of data collected which can be used to validate and inform future designs. The methodology will be the same across both cohorts with the same equipment (Earswitch, second screen, and laptop) being used, however the healthy participants will not be able to answer all questions in PART 1. Healthy participants will be invited into a University lab to undertake the study, whereas participants with assistive technology needs will be given the option of a home visit. As the same equipment will be used, only the environment (i.e., home vs lab) will change which is not anticipate to affect the study data.

At the start of the study a signal will be agreed with the participant (and carer when required) so that the participant can inform their carer and/or the experimenter if they wish to stop the study for any reason. The proposed study will take place in a single session and includes four main parts:

PART 1 - Co-design Questionnaires. The specific aims for this part are to collect data on what assistive technologies people use and gain feedback on current switch technologies to better understand how the Earswitch can be integrated in conjunction with other switch technology. The participants will be asked questions to understand the type of assistive technology (hardware and software) they currently use. This will include their opinions about the effectiveness, usability, and comfort of their current device, measured using the previously validated QUEST2 questionnaire. This process should not take more than 15 minutes, and will be carried out by the researcher, with the support of a carer where necessary.

PART 2 - Earswitch insertion. Following this, the participant, with the help of the experimenter or the carer, will select an earbud size which will be inserted into the participant's ear. The participant will then be asked if it is comfortable or whether they would like to try a different size according to the comfort or fit of the earbud. Once the participant is happy with the size of the earbud, the experiment or the carer will install the Earswitch device, which involves putting a small camera into the participant's ear canal and positioning it so that it can see their eardrum. During this procedure, the participant will be asked to let the experimenter or carer know if it is uncomfortable or if they wish to stop. This should be no different to putting a regular ear bud into the participant's ear. Once this is complete, the participant will be asked some questions about the comfort of the device, and how easy they felt the installation process was. Once the Earswitch has been inserted, the experimenter will take a measurement of how far the otoscope is inserted into the ear, by using a ruler to measure the extruding element (with which the depth of the otoscope can be calculated). In addition, the experimenter will take a close-up picture of the Earswitch sitting in the concha to provide visual evidence of the fit (i.e., how the silicone earbud sits in the concha) and to identify any potential pressure points (e.g., on the tragus) that may help explain the device comfort. Part two is scheduled to last 10 minutes.

PART 3 - Ear rumbling test. Next, some videos will be recorded by the Earswitch device of the participant's ear drum while they contract the tensor tympani (TT) muscle voluntarily in response to several tasks. The tasks will ask the participant to voluntarily contract the TT muscle in response to different stimuli when requested. These stimuli will be presented to the participant either visually on a screen, audibly through some speakers, or both depending on their sight and hearing. The purpose of this is to see how well the participant can voluntarily contract their TT muscle on demand, and to see how well the Earswitch can recognise this. The tasks will involve the participant contracting their TT muscle voluntarily in response to a presented stimulus, twice in a row, multiple times in a row, and they will be asked to hold the muscle contraction for certain periods of time (1 second, 2 seconds, as long as possible). In addition, the participant's eardrum will be recorded when they perform everyday tasks to make sure that the Earswitch does not accidentally activate when it shouldn't. The everyday tasks will be selected based on the capability of the participant, but will include (at minimum) doing whatever they wish for two minutes, and communicating with their existing communication device fortwo minutes. If possible, the participant will be asked to yawn, move their head, and drink some water. During these tasks the participant will not get any immediate feedback from the system, instead it will be recording the data which will be analysed after they have finished the study. The videos will be recorded using the Earswitch device in the participant's ear, and will therefore only contain anonymous images of their ear drum. This means that no-one will be able to identify the participant from the videos taken as no personally identifiable data will be stored alongside the videos. Finally, the participant will be asked to complete some questionnaires about their experiences with the Earswitch device, including the comfort of the device and how easy it was to use. This part of the study should last about 10minutes.This part of the study should take about 25 minutes.

PART 4 - Usability testing (optional). Following this data collection, the participant will be asked if they would like to interact with some interfaces using the Earswitch device. There will be three interfaces which the participant can try which involve text entry using a switch scanning keyboard, a target acquisition task which provides immediate feedback, and a game. The participant can complete these applications in any order they wish, and for as long as they wish. The purpose of this task is to provide an opportunity for the participant to use the Earswitch for real-time interaction using real-world tasks. This will be followed by further questionnaires to understand the participant's perception of interacting with the Earswitch. This part of the study should last about 15-20 minutes. At the end of the study the participant will have the opportunity to provide the research team with their contact details(e.g., an email address or telephone number) in the event that they would like to receive updates about the study results, the development of the Earswitch, or if they would like to participate in future studies involving the Earswitch.

Conditions

Motor Neuron Disease

Study Design

• Allocation Method: NA
• Intervention Model: SINGLE_GROUP
• Primary Study Purpose: OTHER
• Blinding Strategy: NONE

Study Groups

Earswitch Robustness

Participants will wear the Earswitch device and voluntarily contract their TT to complete a series of tasks shown on screen and/or explained audibly. We will also ask participants to complete questionnaires to understand participant opinions about the effectiveness, usability, and comfort of both their current device (if applicable) and the Earswitch.

Group Type: OTHER

Earswitch device

Intervention Type: DEVICE

The Earswitch™ device consists of an earpiece made from silicon or similar bio-compatible material and incorporates a miniature camera. The earpiece sits within the ear canal and is not in direct contact with the eardrum and the camera is not in contact with the ear-canal. The camera detects voluntary movement from the tensor tympani muscle as presented at the eardrum and the Earswitch system translates this movement to an external virtual keypad or similar to allow the patient to communicate nonverbally.

Interventions

Earswitch device

The Earswitch™ device consists of an earpiece made from silicon or similar bio-compatible material and incorporates a miniature camera. The earpiece sits within the ear canal and is not in direct contact with the eardrum and the camera is not in contact with the ear-canal. The camera detects voluntary movement from the tensor tympani muscle as presented at the eardrum and the Earswitch system translates this movement to an external virtual keypad or similar to allow the patient to communicate nonverbally.

Intervention Type: DEVICE

Other Intervention Names

Earswitch Ltd

Eligibility Criteria

Inclusion Criteria

• Able to voluntarily contract the tensor tympani muscle

We will be recruiting participants who require assistive technology, as well as people who don't. For the former there will be the requirement that:

• Individual requires the use of an assistive device in everyday life

Exclusion Criteria

• Those who do not have the capacity to understand the study and consent (e.g., severe learning disabilities).
• Inability to communicate either directly to the researcher or through a carer or communication partner and therefore inability to provide consent.

• Minimum Eligible Age: 18 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: Yes

Sponsors

National Institute for Health Research, United Kingdom

OTHER_GOV

Sponsor Role: collaborator

Earswitch Ltd.

UNKNOWN

Sponsor Role: collaborator

University of Bath

OTHER

Sponsor Role: lead

Responsible Party

Dario Cazzola

Principal Investigator

Responsibility Role: PRINCIPAL_INVESTIGATOR

Principal Investigators

Dario Cazzola, PhD, FHEA

Role: PRINCIPAL_INVESTIGATOR

University of Bath

Central Contacts

Dario Cazzola, PhD, FHEA

Role: CONTACT

dc547@bath.ac.uk

+44 1225 383569

Christopher Clarke, MSc, PhD

Role: CONTACT

cjc234@bath.ac.uk

+44 1225 388993

References

Judge S, Nasr N, Hawley M. A User-Centred Approach Exploring the Potential of a Novel EMG Switch for Control of Assistive Technology. Stud Health Technol Inform. 2017;242:381-384.

Reference Type: BACKGROUND

PMID: 28873827 (View on PubMed)

Turner MR, Al-Chalabi A. REM sleep physiology and selective neuronal vulnerability in amyotrophic lateral sclerosis. J Neurol Neurosurg Psychiatry. 2020 Jul;91(7):789-790. doi: 10.1136/jnnp-2020-323100. Epub 2020 Apr 30. No abstract available.

Reference Type: BACKGROUND

PMID: 32354769 (View on PubMed)

Related Links

https://eprints.whiterose.ac.uk/110162/

Examining the Need for and Provision of AAC Methods in the UK

Other Identifiers

NIHR203387

Identifier Type: OTHER_GRANT

Identifier Source: secondary_id

317435

Identifier Type: -

Identifier Source: org_study_id