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The NeuroCatch Platform 2 (NCP2), an investigational medical device system developed by NeuroCatch Inc., consists of software and hardware that captures brain health information. The platform intends to provide a quick, portable and easy to use solution for the acquisition, display, analysis, storage, reporting and management of electroencephalograph (EEG) and event-related potential (ERP; brain response to a stimulus) information.
The NCP2 uses two types of tones to elicit N100 and P300 ERPs, along with two types of words to elicit N400 ERPs. The objective of this study is to determine if changing the volume of the standard tone has an effect on the amplitudes and latencies of the ERPs.
Electroencephalography (EEG) signals have been collected and studied since the early 1970s as a non-invasive way of assessing brain function. As early as the 1930s, a derivative of the raw EEG signal - event-related potentials (ERPs) - were computed. These scalp-recorded ERPs are the brain's response to a stimulus of interest (e.g. a flashing checkerboard or an angry face). The size, timing, and topographical location of ERP components lend insight into the timing and complexity of various cognitive processes. At NeuroCatch Inc. (NCI), research is primarily focused on three ERP components: the N100, P300 and N400, associated with different attention abilities (sensory processing, target detection & semantic processing).
The N100 is a negative-going deflection around 100 ms post stimulus onset. This particular ERP component indexes sensory stimulus at a pre-attentive level, or in other words, the acknowledgement by the brain that information has entered the system. Whereas the P300 - a positive-going deflection around 300 ms - indexes an early stage of attentional processing. This component is particularly sensitive to context updating or target identification (the brain's 'Ah-ha!' response). Finally, the N400 is a negative-going deflection peaking around 400 ms post stimulus. This component is measured in situations of semantic violations (e.g. 'The pizza was too hot to … lamp"), thus indexing one of the highest-order cognitive functions: language processing.
Each of the three ERP components have been studied in academic laboratories for multiple decades and prototypical values for their timing (latency) and size (amplitude) have become widely accepted. To elicit the ERP components of interest in this study (N100, P300, N400), proprietary auditory stimulus sequences will be administered using the NeuroCatch Platform 2, an investigational medical device. Each sequence consists of tones and word pairs to elicit the various components of interest. Standard tones (lower volume, low pitch) make up most of the tones in the sequence, with deviant tones (higher volume, higher pitch) inserted in random intervals. The difference in volume and pitch between the standard tones and deviant tones, coupled with the "unexpected" nature of the deviant tone, is what drives the N100 and P300 responses.
NeuroCatch Platform 2 consists of a computerized acquisition software which presents the stimulus, acquires the data and presents the amplitude and latency values of the ERP components (N100, N400, P300). This protocol is intended to assess the effect of changing the standard tone volume in the NeuroCatch Platform 2 auditory tone sequences on the elicited ERP responses.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Tone A | Active Comparator | Tone A uses an 80dB standard tone |
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| Tone B | Experimental | Tone B uses a 93dB standard tone |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| NeuroCatch Platform 2 | Device | To elicit the ERP components of interest in this study (N100, P300, N400), proprietary auditory stimulus sequences will be administered using the NeuroCatch Platform 2, an investigational medical device. Each sequence consists of tones and word pairs to elicit the various components of interest. The NeuroCatch Platform 2 consists of a computerized acquisition software which presents the stimulus, acquires the data and presents the amplitude and latency values of the ERP components (N100, N400, P300) |
| Measure | Description | Time Frame |
|---|---|---|
| Difference in amplitude of the N100 ERP | Amplitude (response size) will be measured in microvolts. The statistic being used to measure the difference in amplitude between the two Tone types will be a full-factorial repeated measures analysis of variance (Factors: Tone type, Session number, Run number) | 1 week (6-8 days) |
| Difference in latency of the N100 ERP | Latency (response time) will be measured in microseconds. The statistic being used to measure the difference in amplitude between the two Tone types will be a full-factorial repeated measures analysis of variance (Factors: Tone type, Session number, Run number) | 1 week (6-8 days) |
| Difference in amplitude of the P300 ERP | Amplitude (response size) will be measured in microvolts. The statistic being used to measure the difference in amplitude between the two Tone types will be a full-factorial repeated measures analysis of variance (Factors: Tone type, Session number, Run number) | 1 week (6-8 days) |
| Difference in latency of the P300 ERP | Latency (response time) will be measured in microseconds. The statistic being used to measure the difference in amplitude between the two Tone types will be a full-factorial repeated measures analysis of variance (Factors: Tone type, Session number, Run number) | 1 week (6-8 days) |
| Difference in amplitude of the N400 ERP | Amplitude (response size) will be measured in microvolts. The statistic being used to measure the difference in amplitude between the two Tone types will be a full-factorial repeated measures analysis of variance (Factors: Tone type, Session number, Run number) | 1 week (6-8 days) |
| Measure | Description | Time Frame |
|---|---|---|
| Repeatability of the N100 Amplitude for Tone A | The statistic being used to measure the repeatability will be the two-way mixed single measures absolute agreement type of intraclass correlation coefficient (denoted as ICC(A,1) | 1 week (6-8 days) |
| Repeatability of the N100 Amplitude for Tone B |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Bimal Lakhani, PhD | NeuroCatch Inc. | Study Chair |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| HealthTech Connex Centre for Neurology Studies | Surrey | British Columbia | V3V 0C6 | Canada |
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This is a within-subject repeated-measures, randomly counterbalanced, single blind study.
All participants will be asked to attend two study visits, one week (6-8 days) apart. At each study visit, participants will complete two NeuroCatch Platform 2 assessments with different auditory sequences. One sequence will include the Standard Tone A (80dB), and another will include Standard Tone B (93dB) while keeping the deviant tone volume consistent (105dB). The order of presentation of the two sequences will be randomly counterbalanced (i.e Session 1: AB & Session 2: BA, or Session 1: BA & Session 2: AB).
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Participants are not informed the order or type (standard Tone A, standard Tone B) of the sequences
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| Difference in latency of the N400 ERP |
Latency (response time) will be measured in microseconds. The statistic being used to measure the difference in amplitude between the two Tone types will be a full-factorial repeated measures analysis of variance (Factors: Tone type, Session number, Run number) |
| 1 week (6-8 days) |
The statistic being used to measure the repeatability will be the two-way mixed single measures absolute agreement type of intraclass correlation coefficient (denoted as ICC(A,1) |
| 1 week (6-8 days) |
| Repeatability of the N100 Latency for Tone A | The statistic being used to measure the repeatability will be the two-way mixed single measures absolute agreement type of intraclass correlation coefficient (denoted as ICC(A,1) | 1 week (6-8 days) |
| Repeatability of the N100 Latency for Tone B | The statistic being used to measure the repeatability will be the two-way mixed single measures absolute agreement type of intraclass correlation coefficient (denoted as ICC(A,1) | 1 week (6-8 days) |
| Repeatability of the P300 Amplitude for Tone A | The statistic being used to measure the repeatability will be the two-way mixed single measures absolute agreement type of intraclass correlation coefficient (denoted as ICC(A,1) | 1 week (6-8 days) |
| Repeatability of the P300 Amplitude for Tone B | The statistic being used to measure the repeatability will be the two-way mixed single measures absolute agreement type of intraclass correlation coefficient (denoted as ICC(A,1) | 1 week (6-8 days) |
| Repeatability of the P300 Latency for Tone A | The statistic being used to measure the repeatability will be the two-way mixed single measures absolute agreement type of intraclass correlation coefficient (denoted as ICC(A,1) | 1 week (6-8 days) |
| Repeatability of the P300 Latency for Tone B | The statistic being used to measure the repeatability will be the two-way mixed single measures absolute agreement type of intraclass correlation coefficient (denoted as ICC(A,1) | 1 week (6-8 days) |
| Repeatability of the N400 Amplitude for Tone A | The statistic being used to measure the repeatability will be the two-way mixed single measures absolute agreement type of intraclass correlation coefficient (denoted as ICC(A,1) | 1 week (6-8 days) |
| Repeatability of the N400 Amplitude for Tone B | The statistic being used to measure the repeatability will be the two-way mixed single measures absolute agreement type of intraclass correlation coefficient (denoted as ICC(A,1) | 1 week (6-8 days) |
| Repeatability of the N400 Latency for Tone A | The statistic being used to measure the repeatability will be the two-way mixed single measures absolute agreement type of intraclass correlation coefficient (denoted as ICC(A,1) | 1 week (6-8 days) |
| Repeatability of the N400 Latency for Tone B | The statistic being used to measure the repeatability will be the two-way mixed single measures absolute agreement type of intraclass correlation coefficient (denoted as ICC(A,1) | 1 week (6-8 days) |
| Collection and evaluation of adverse events and adverse device effects | Evaluation of safety and tolerability | At time of event |