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A portable brainwave technology in detecting functional brain changes in aging and dementia: A pilot study on feasibility of the application in residential care older adults
Author(s) -
Arvan Tara,
Sepheri Kattie,
Hajra Sujoy Ghosh,
Pawlowski Gabriela,
Fickling Shaun,
D’arcy Ryan C.N.,
Song Xiaowei
Publication year - 2020
Publication title -
alzheimer's and dementia
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 6.713
H-Index - 118
eISSN - 1552-5279
pISSN - 1552-5260
DOI - 10.1002/alz.038658
Subject(s) - dementia , intraclass correlation , audiology , n400 , electroencephalography , cognition , medicine , cognitive impairment , psychology , physical medicine and rehabilitation , event related potential , psychometrics , clinical psychology , psychiatry , disease
Background A portable brainwave technology based on electroencephalography (EEG) / event‐related potential (ERP) has been established; i.e., the so called Brain Vital Signs ‐ BVS. Previous studies reported the development of the BVS framework and the characterization of BVS features in healthy younger adults. In the present study, we investigated the feasibility of application of this novel brainwave technology in older adult residents in long‐term care, and analyzed the relationship of the BVS scores in relation to age and dementia diagnosis. Method Fifty‐one residents in long‐term care (mean age=81.4±9.5 years; range =56‐98; 66% female) with or without dementia (31:20) participated in the study. Each participant was tested, in their residence facility, at baseline and followed for up to 12 months during which two more tests were conducted. At each test time, participants were scanned twice using the BVS device, with which the electrodes placed on the frontal, central, and posterior sites along the midline of the head. Three ERP components, N100 (perception), P300 (attention), and N400 (cognition) were identified and converted into normalized comparative scores, based on which BVS sub‐scores assessing the amplitude, latency, and the area under the curve of each component were computed. The BVS total score was generated based on the sub‐scores applying a weighted algorithm. Inter‐rater reliability was examined using Intraclass Correlation Coefficient. The BVS scores were correlated with age, and compared for dementia and cognitive status. Result Data were consistently collected from residential‐care older adults at each of the three time points with 100% success rate, suggesting the feasible application of the portably brainwave technology. Inter‐rater reliability rate was as high as 0.991‐1.000. The BVS total scores and several of the component scores were moderately related to age; e.g., Spearman correlation coefficient r=.262, p=.027 for P300 amplitude and r=‐.286, p=.016 for N400 latency. Some of the component scores differed by dementia status (e.g., t=‐2.03, p‐value= .046 for P300 latency). Conclusion The study suggests that BVS can be feasibly applied in studying older residents in long‐term care. Ongoing analysis effort is to better understand age‐ and dementia‐ associated changes of the BVS scores for practical result interpretation.