Your search keyword '"portable EEG"' showing total 109 results

1. Real-Time Movement-Related EEG Phenomena Detection for Portable BCI Devices. Neural Network Approach

Author

Ekizyan, A. Kh., Shaposhnikov, P. D., Kostulin, D. V., Shaposhnikov, D. G., Kiroy, V. N., Kacprzyk, Janusz, Series Editor, Kryzhanovsky, Boris, editor, Dunin-Barkowski, Witali, editor, Redko, Vladimir, editor, Tiumentsev, Yury, editor, and Klimov, Valentin, editor

Published

2023

2. Exploratory Validation of Sleep-Tracking Devices in Patients with Psychiatric Disorders

Author

Ogasawara M, Takeshima M, Kosaka S, Imanishi A, Itoh Y, Fujiwara D, Yoshizawa K, Ozaki N, Nakagome K, and Mishima K

Subjects

polysomnography, actigraphy, portable eeg, consumer sleep technologies, psychiatric patients, Psychiatry, RC435-571, Neurophysiology and neuropsychology, QP351-495

Abstract

Masaya Ogasawara,1 Masahiro Takeshima,1 Shumpei Kosaka,2 Aya Imanishi,1 Yu Itoh,1 Dai Fujiwara,1 Kazuhisa Yoshizawa,1 Norio Ozaki,3 Kazuyuki Nakagome,4 Kazuo Mishima1 1Department of Neuropsychiatry, Akita University Graduate School of Medicine, Akita, Japan; 2Department of Psychiatry, Akita Prefectural Center for Rehabilitation and Psychiatric Medicine, Daisen, Japan; 3Department of Pathophysiology of Mental Disorders, Nagoya University Graduate School of Medicine, Nagoya, Japan; 4Department of Psychiatry, National Center of Neurology and Psychiatry, Tokyo, JapanCorrespondence: Kazuo Mishima, Department of Neuropsychiatry, Akita University Graduate School of Medicine, 1-1-1 Hondo, Akita, 010-8543, Japan, Tel +81-18-884-6122, Fax +81-18-884-6445, Email clocksclub@gmail.comPurpose: Sleep-tracking devices have performed well in recent studies that evaluated their use in healthy adults by comparing them with the gold standard sleep assessment technique, polysomnography (PSG). These devices have not been validated for use in patients with psychiatric disorders. Therefore, we tested the performance of three sleep-tracking devices against PSG in patients with psychiatric disorders.Patients and methods: In total, 52 patients (32 women; 48.1 ± 17.2 years, mean ± SD; 18 patients diagnosed with schizophrenia, 19 with depressive disorder, 3 with bipolar disorder, and 12 with sleep disorder cases) were tested in a sleep laboratory with PSG, along with portable electroencephalography (EEG) device (Sleepgraph), actigraphy (MTN-220/221) and consumer sleep-tracking device (Fitbit Sense).Results: Epoch-by-epoch sensitivity (for sleep) and specificity (for wake), respectively, were as follows: Sleepgraph (0.95, 0.76), Fitbit Sense (0.95, 0.45) and MTN-220/221 (0.93, 0.40). Portable EEG (Sleepgraph) had the best sleep stage-tracking performance. Sleep-wake summary metrics demonstrated lower performance on poor sleep (ice, shorter total sleep time, lower sleep efficiency, longer sleep latency, longer wake after sleep onset).Conclusion: Devices demonstrated similar sleep-wake detecting performance as compared with previous studies that evaluated sleep in healthy adults. Consumer sleep device may exhibit poor sleep stage-tracking performance in patients with psychiatric disorders due to factors that affect the sleep determination algorithm, such as changes in autonomic nervous system activity. However, Sleepgraph, a portable EEG device, demonstrated higher performance in mental disorders than the Fitbit Sense and actigraphy.Keywords: polysomnography, actigraphy, portable EEG, consumer sleep technologies, psychiatric patients

Published

2023

3. Crowdsourced EEG experiments: A proof of concept for remote EEG acquisition using EmotivPRO Builder and EmotivLABS

Author

Nikolas S. Williams, William King, Geoffrey Mackellar, Roshini Randeniya, Alicia McCormick, and Nicholas A. Badcock

Subjects

Portable EEG, Online testing, Experiment builder, Remote EEG, Emotiv, EPOC, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

The development of online research platforms has made data collection more efficient and representative of populations. However, these benefits have not been available for use with cognitive neuroscience tools such as electroencephalography (EEG). In this study, we introduce an approach for remote EEG data collection. We demonstrate how an experiment can be built via the EmotivPRO Builder and deployed to the EmotivLABS website where it can be completed by participants who own EMOTIV EEG headsets. To demonstrate the data collection technique, we collected EEG while participants engaged in a resting state task where participants sat with their eyes open and then eyes closed for 2 min each. We observed a significant difference in alpha power between the two conditions thereby demonstrating the well-known alpha suppression effect. Thus, we demonstrate that EEG data collection, particularly for frequency domain analysis, can be successfully conducted online.

Published

2023

4. A study on the clinical and electrographic profile of Nonconvulsive Status Epilepticus (NCSE) in comatose ICU patients using portable electroencephalography (EEG).

Author

Anadure, R.K., Goel, J., Saxena, Rajeev, Gupta, Salil, and Vidhale, Tushar

Subjects

STATUS epilepticus, ELECTROENCEPHALOGRAPHY, EPILEPSY, RESOURCE-limited settings, PARTIAL epilepsy, INTENSIVE care units, DIFFERENTIAL diagnosis

Abstract

Coma is one of the frequently encountered clinical conditions in any intensive care unit (ICU), which is responsible for considerable morbidity and mortality. Therefore, this study was designed to look at the clinical and EEG profile of Nonconvulsive Status Epilepticus (NCSE) in comatose ICU patients using portable electroencephalography (EEG). In all 102 patients of unresponsive coma (GCS ≤ 8), who remained in poor sensorium despite 48 h of optimum treatment in ICU, were included in the study. All patients underwent 1 h of electroencephalography (EEG) monitoring with a portable EEG machine. All EEGs were screened according to Salzburg Consensus Criteria (SCC) for Nonconvulsive Status Epilepticus (NCSE). Patients with evidence of NCSE were administered parenteral Antiepileptic Drugs (AED). A repeat EEG was done after 24 h of baseline to ascertain the effect of AED. The primary outcome was the recognition of patients with NCSE on the basis of established EEG criteria. The secondary outcome measure was the Glasgow outcome scale (GOS) at the time of discharge. Out of 102 cases enrolled, 12 (11.8%) cases were detected to have NCSE on portable EEG. The mean age of patients with NCSE was 52.2 years. In terms of gender distribution, 2/12 (17%) were female, and 10/12 (83%) were male (M: F = 5:1). Median GCS was 6 (range 3–8). Looking at CNS infections, 4/12 (33.3%) had evidence of some form of CNS infection in the NCSE group, compared to 16/90 (18%) in the group without NCSE. This difference was statistically significant (P-value < 0.05). The EEG recordings of patients with NCSE showed dynamicity with fluctuating rhythms and ictal-EEG patterns associated with spatiotemporal evolution. All twelve cases showed reversal of EEG changes with AED administration. In 5 out of 12, transient improvement in GCS (>2 points) after administration of AED' was noted with good clinical outcomes (GOS 5). In five of these 12 cases, death was the final outcome (GOS 1). NSCE should be considered in the differential diagnosis of all unresponsive comatose ICU patients. In resource-limited settings, where continuous EEG monitoring may not be feasible, bedside portable EEG testing can be used to diagnose patients with NCSE. Treating NCSE reverses epileptiform EEG changes and improves clinical outcomes in a subset of comatose ICU patients. [ABSTRACT FROM AUTHOR]

Published

2023

5. Evaluating Memory and Cognition via a Wearable EEG System: A Preliminary Study

Author

Miloulis, Stavros-Theofanis, Kakkos, Ioannis, Dimitrakopoulos, Georgios Ν., Sun, Yu, Karanasiou, Irene, Asvestas, Panteleimon, Ventouras, Errikos-Chaim, Matsopoulos, George, Akan, Ozgur, Editorial Board Member, Bellavista, Paolo, Editorial Board Member, Cao, Jiannong, Editorial Board Member, Coulson, Geoffrey, Editorial Board Member, Dressler, Falko, Editorial Board Member, Ferrari, Domenico, Editorial Board Member, Gerla, Mario, Editorial Board Member, Kobayashi, Hisashi, Editorial Board Member, Palazzo, Sergio, Editorial Board Member, Sahni, Sartaj, Editorial Board Member, Shen, Xuemin (Sherman), Editorial Board Member, Stan, Mircea, Editorial Board Member, Jia, Xiaohua, Editorial Board Member, Zomaya, Albert Y., Editorial Board Member, Ye, Juan, editor, O'Grady, Michael J., editor, Civitarese, Gabriele, editor, and Yordanova, Kristina, editor

Published

2021

6. Portable EEG in groups shows increased brain coupling to strong health messages.

Author

Imhof MA, Flösch KP, Schmälzle R, Renner B, and Schupp HT

Subjects

Humans, Male, Female, Young Adult, Adult, Electroencephalography methods, Brain physiology

Abstract

Health messages are core building blocks of public health efforts. Neuroscientific measures offer insights into how target audiences receive health messages. To move towards real-world applications, however, challenges regarding costs, lab restraints, and slow data acquisition need to be addressed. Using portable electroencephalography (EEG) and inter-subject correlation (ISC) analysis as measure of message strength, we ask whether these challenges can be met. Portable EEG was recorded while participants viewed strong and weak video health messages against risky alcohol use. Participants viewed the messages either individually or in a focus group-like setting with six participants simultaneously. For both viewing conditions, three correlated components were extracted. The topographies of these components showed a high spatial correlation with previous high-density EEG results. Moreover, ISC was strongly enhanced when viewing strong as compared to weak health messages in both the group and individual viewing conditions. The findings suggest that ISC analysis shows sensitivity to message strength, even in a group setting using low-density portable EEG. Measuring brain responses to messages in group settings is more efficient and scalable beyond the laboratory. Overall, these results support a translational perspective for the use of neuroscientific measures in health message development., (© The Author(s) 2024. Published by Oxford University Press.)

Published

2024

7. More creative ideas are associated with increased right posterior power and frontal-parietal/occipital coupling in the upper alpha band: A within-subjects study.

Author

Rominger, Christian, Gubler, Danièle A., Makowski, Lisa M., and Troche, Stefan J.

Subjects

*ATTENTION control, *PARIETAL lobe, *SENSORIMOTOR integration, *ELECTROENCEPHALOGRAPHY

Abstract

The neurophysiological investigation of creative idea generation is a growing research area. EEG studies congruently reported the sensitivity of upper alpha power (10-12 Hz) for the creative ideation process and its outcome. However, the majority of studies were between-subject design studies and research directly comparing the neurophysiological activation pattern when generating more and less creative ideas within a person are rare. Therefore, the present study was specifically focused on investigating brain activation patterns associated with the generation of more vs. less creative ideas. We applied an alternate uses task (AU-task; i.e., finding original uses for everyday objects such as a brick) in a sample of 74 participants and recorded the brain activation during the AU-task and reference period. A portable EEG system with 21 dry electrodes arranged in the international 10–20 system and linked ear as reference was used. We found a higher increase of upper alpha power during creative ideation (relative to reference period, i.e., task-related power, TRP) over right posterior sites when people generated more compared to less creative ideas. This was accompanied by an increase of functional coupling (i.e., task-related coherence increase) between frontal and parietal/occipital sites, which suggests higher internal attention and more control over sensory processes. Taken together, these findings complement the existing creativity research literature and indicate the importance of alpha power for the creative ideation process also within people. • Task related power (TRP) is the power-change from reference to activation interval. • More creative ideas show higher right parietal upper alpha TRP compared to left. • Greater frontal-posterior coupling was linked to more than less creative ideas. [ABSTRACT FROM AUTHOR]

Published

2022

8. New wearable and portable EEG modalities in epilepsy: The views of hospital-based healthcare professionals.

Author

Biondi, Andrea, Dursun, Eren, Viana, Pedro F., Laiou, Petroula, and Richardson, Mark P.

Subjects

*MEDICAL personnel, *DIAGNOSIS of epilepsy, *PATIENT experience, *RESEARCH personnel, *PEOPLE with epilepsy, *EPILEPSY

Abstract

• Respondents emphasized performance, data quality, mobility, and comfort. • Professionals reported that novel EEG systems can improve patient experience. • High interest exists in integrating novel EEG systems into clinical practice. • Novel EEG systems can aid epilepsy diagnosis, long-term monitoring, and seizure prediction. • Respondents stress the need for further research to validate novel EEG. Novel mobile and portable EEG solutions, designed for short and long-term monitoring of individuals with epilepsy have been developed in recent years but, they are underutilized, lacking full integration into clinical routine. Exploring the opinions of hospital-based healthcare professionals regarding their potential application, technical requirements and value would be crucial for future device development and increase their clinical application. To evaluate professionals' opinions on novel EEG systems, focusing on their potential application in various clinical settings, professionals' interest in non-invasive solutions for ultra-long monitoring of people with epilepsy (PWE) and factors which could increase future use of novel EEG systems. We conducted an online survey where Hospital-based professionals shared opinions on potential advantages, clinical value, and key features of novel wearable EEG systems in five different clinical settings. Additionally, insights were gathered on the need for future research and, the need for additional information about devices from companies and researchers. Respondents (n = 40) prioritized high performance, data quality, easy patient mobility, and comfort as crucial features for novel devices. Advantages were highlighted, including more natural settings, reduced application time, earlier epilepsy diagnosis, and decreased support requirements. Novel EEG devices were seen as valuable for epilepsy diagnosis, seizure monitoring, automatic seizure documentation, seizure alarms, and seizure forecasting. Interest in integrating these new systems into clinical practice was high, particularly for supervising drug-resistant epilepsy, reducing SUDEP, and detecting nocturnal seizures. Professionals emphasized the need for more research studies and highlighted the need for increased information from companies and researchers. Professionals underscore specific technical and practical features, along with potential clinical advantages and value of novel EEG devices that could drive their development. While interest in integrating these solutions in clinical practice exists, further validation studies and enhanced communication between researchers, companies, and clinicians are crucial for overcoming potential scepticism and facilitating widespread adoption. [ABSTRACT FROM AUTHOR]

Published

2024

9. Sleep Onset Detection using the Low-Cost Emotiv EPOC Neuroheadset

Author

Khai, Le Quoc, Thuy, Le Nu Ngoc, Kien, Tran, Anh, Pham Thi Tram, Hang, Nguyen Thi Diem, Linh, Huynh Quang, Magjarevic, Ratko, Series Editor, Ładyżyński, Piotr, Associate Editor, Ibrahim, Fatimah, Associate Editor, Lackovic, Igor, Associate Editor, Rock, Emilio Sacristan, Associate Editor, Van Toi, Vo, editor, Le, Trung Quoc, editor, Ngo, Hoan Thanh, editor, and Nguyen, Thi-Hiep, editor

Published

2020

10. The Acceptability, Feasibility, and Utility of Portable Electroencephalography to Study Resting-State Neurophysiology in Rural Communities.

Author

Bhavnani, Supriya, Parameshwaran, Dhanya, Sharma, Kamal Kant, Mukherjee, Debarati, Divan, Gauri, Patel, Vikram, and Thiagarajan, Tara C.

Subjects

MIDDLE-income countries, BRAIN-computer interfaces, LOW-income countries, ELECTROENCEPHALOGRAPHY, NEUROPHYSIOLOGY, NEURAL development

Abstract

Electroencephalography (EEG) provides a non-invasive means to advancing our understanding of the development and function of the brain. However, the majority of the world's population residing in low and middle income countries has historically been limited from contributing to, and thereby benefiting from, such neurophysiological research, due to lack of scalable validated methods of EEG data collection. In this study, we establish a standard operating protocol to collect approximately 3 min each of eyes-open and eyes-closed resting-state EEG data using a low-cost portable EEG device in rural households through formative work in the community. We then evaluate the acceptability of these EEG assessments to young children and feasibility of administering them through non-specialist workers. Finally, we describe properties of the EEG recordings obtained using this novel approach to EEG data collection. The formative phase was conducted with 9 families which informed protocols for consenting, child engagement strategies and data collection. The protocol was then implemented on 1265 families. 977 children (Mean age = 38.8 months, SD = 0.9) and 1199 adults (Mean age = 27.0 years, SD = 4) provided resting-state data for this study. 259 children refused to wear the EEG cap or removed it, and 58 children refused the eyes-closed recording session. Hardware or software issues were experienced during 30 and 25 recordings in eyes-open and eyes-closed conditions respectively. Disturbances during the recording sessions were rare and included participants moving their heads, touching the EEG headset with their hands, opening their eyes within the eyes-closed recording session, and presence of loud sounds in the testing environment. Similar to findings in laboratory-based studies from high-income settings, the percentage of recordings which showed an alpha peak was higher in eyes-closed than eyes-open condition, with the peak occurring most frequently in electrodes at O1 and O2 positions, and the mean frequency of the alpha peak was found to be lower in children (8.43 Hz, SD = 1.73) as compared to adults (10.71 Hz, SD = 3.96). We observed a deterioration in the EEG signal with prolonged device usage. This study demonstrates the acceptability, feasibility and utility of conducting EEG research at scale in a rural low-resource community, while highlighting its potential limitations, and offers the impetus needed to further refine the methods and devices and validate such scalable methods to overcome existing research inequity. [ABSTRACT FROM AUTHOR]

Published

2022

11. The Acceptability, Feasibility, and Utility of Portable Electroencephalography to Study Resting-State Neurophysiology in Rural Communities

Author

Supriya Bhavnani, Dhanya Parameshwaran, Kamal Kant Sharma, Debarati Mukherjee, Gauri Divan, Vikram Patel, and Tara C. Thiagarajan

Subjects

resting-state EEG, preschool children, LMIC, EMOTIV, portable EEG, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Electroencephalography (EEG) provides a non-invasive means to advancing our understanding of the development and function of the brain. However, the majority of the world’s population residing in low and middle income countries has historically been limited from contributing to, and thereby benefiting from, such neurophysiological research, due to lack of scalable validated methods of EEG data collection. In this study, we establish a standard operating protocol to collect approximately 3 min each of eyes-open and eyes-closed resting-state EEG data using a low-cost portable EEG device in rural households through formative work in the community. We then evaluate the acceptability of these EEG assessments to young children and feasibility of administering them through non-specialist workers. Finally, we describe properties of the EEG recordings obtained using this novel approach to EEG data collection. The formative phase was conducted with 9 families which informed protocols for consenting, child engagement strategies and data collection. The protocol was then implemented on 1265 families. 977 children (Mean age = 38.8 months, SD = 0.9) and 1199 adults (Mean age = 27.0 years, SD = 4) provided resting-state data for this study. 259 children refused to wear the EEG cap or removed it, and 58 children refused the eyes-closed recording session. Hardware or software issues were experienced during 30 and 25 recordings in eyes-open and eyes-closed conditions respectively. Disturbances during the recording sessions were rare and included participants moving their heads, touching the EEG headset with their hands, opening their eyes within the eyes-closed recording session, and presence of loud sounds in the testing environment. Similar to findings in laboratory-based studies from high-income settings, the percentage of recordings which showed an alpha peak was higher in eyes-closed than eyes-open condition, with the peak occurring most frequently in electrodes at O1 and O2 positions, and the mean frequency of the alpha peak was found to be lower in children (8.43 Hz, SD = 1.73) as compared to adults (10.71 Hz, SD = 3.96). We observed a deterioration in the EEG signal with prolonged device usage. This study demonstrates the acceptability, feasibility and utility of conducting EEG research at scale in a rural low-resource community, while highlighting its potential limitations, and offers the impetus needed to further refine the methods and devices and validate such scalable methods to overcome existing research inequity.

Published

2022

12. Portable Headband Electroencephalogram in the Detection of Absence Epilepsy.

Author

Nordli DR 3rd, Fives K, and Galan F

Subjects

Humans, Child, Female, Male, Adolescent, Child, Preschool, Epilepsy, Absence physiopathology, Epilepsy, Absence diagnosis, Electroencephalography methods

Abstract

The accuracy of headband electroencephalogram (EEG) was compared to traditional EEG in pediatric patients with absence epilepsy. This study enrolled 10 patients with previously diagnosed absence epilepsy and examined the concordance of headband EEG and traditional EEG in the follow-up EEG of treated absence epilepsy. The study found a concordant result in 80% of cases providing a signal that absence epilepsy is an effective target for headband EEG. The study showcases a need for further research in headband EEG technology and continued improvements in technology., Competing Interests: Declaration of Conflicting InterestsThe authors declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

Published

2024

13. Feasibility of assessing brain activity using mobile, in‐home collection of electroencephalography: methods and analysis.

Author

Troller‐Renfree, Sonya V., Morales, Santiago, Leach, Stephanie C., Bowers, Maureen E., Debnath, Ranjan, Fifer, William P., Fox, Nathan A., and Noble, Kimberly G.

Abstract

The last decade has seen increased availability of mobile electroencephalography (EEG). These mobile systems enable researchers to conduct data collection "in‐context," reducing participant burden and potentially increasing diversity and representation of research samples. Our research team completed in‐home data collection from more than 400 twelve‐month‐old infants from low‐income backgrounds using a mobile EEG system. In this paper, we provide methodological and analytic guidance for collecting high‐quality, mobile EEG in infants. Specifically, we offer insights and recommendations for equipment selection, data collection, and data analysis, highlighting important considerations for selecting a mobile EEG system. Examples include the size of the recording equipment, electrode type, reference types, and available montages. We also highlight important recommendations surrounding preparing a nonstandardized recording environment for EEG collection, obtaining informed consent from parents, instructions for parents during capping and recording, stimuli and task design, training researchers, and monitoring data as it comes in. Additionally, we provide access to the analysis code and demonstrate the robustness of the data from a recent study using this approach, in which 20 artifact‐free epochs achieve good internal consistency reliability. Finally, we provide recommendations and publicly available resources for future studies aiming to collect mobile EEG. [ABSTRACT FROM AUTHOR]

Published

2021

14. REVISIÓN DE ELECTROENCEFALOGRAFÍA PORTABLE Y SU APLICABILIDAD EN NEUROCIENCIAS.

Author

Serna Rojas, Carolina, Rios Arismendy, Sara, and Ochoa Gómez, John F.

Subjects

*ELECTROENCEPHALOGRAPHY, *MEASURING instruments, *COMPUTER interfaces, *NEUROSCIENCES

Abstract

Encephalography is a technique that allows the recording of electrical activity of the brain and has been studied during the last hundred years in different areas of neuroscience. For several years, measuring equipment that are portable and that allow a good signal quality to have been researched and developed, so a literature review of the manufacturing companies of some of portable electroencephalography devices available on the market was carried out: Its main features are exposed, as well as some of the work found that were made with those, comparisons between them and a discussion about the advantages and disadvantages of their features. It is concluded that, when a portable encephalography device is bought, it's necessary to take into consideration the use that it will be having and the cost-benefit that the device has according to its features. [ABSTRACT FROM AUTHOR]

Published

2021

15. Diagnostic and therapeutic yield of a patient-controlled portable EEG device with dry electrodes for home-monitoring neurological outpatients—rationale and protocol of the HOMEONE pilot study

Author

Thomas Neumann, Anne Katrin Baum, Ulrike Baum, Renate Deike, Helmut Feistner, Hermann Hinrichs, Joseph Stokes, and Bernt-Peter Robra

Subjects

Portable EEG, Home monitoring, Diagnostic testing, Intra-individual comparison, Medicine (General), R5-920

Abstract

Abstract Background The HOMEONE study is part of the larger HOME project, which aims to provide evidence of diagnostic and therapeutic yield (“change of management”) of a patient-controlled portable EEG device with dry electrodes for the purposes of EEG home-monitoring neurological outpatients. Methods The HOMEONE study is the first step in the process of investigating whether outpatient EEG home-monitoring changes the diagnosis and treatment of patients in comparison to conventional EEG (“change of management”). Both EEG devices (conventional and portable) will be systematically compared via a two-phase intra-individual assessment. In the first phase (pilot study phase), both EEG devices will be used within neurologist practices (all other things being equal). This pilot study (involving 130 patients) will evaluate the technical usability and efficacy of the new portable dry electrode EEG recorder in comparison to conventional EEG devices. Judgements will be based on technical assessments and EEG record examinations of private practitioners and two experienced neurologists (percent of concordant readings and kappa values). The second phase (feasibility study phase) aims to assess patients’ acceptability and feasibility of the EEG home-monitoring and will provide insights into the extent diagnostic and therapeutic yields can be expected. For this purpose, a conventional EEG will be recorded in neurologist practices. Thereafter, the practice staff will instruct the patients on how the portable EEG device functions. The patients will subsequently use the devices in their home environment. The evaluation will compare the before and after documented diagnostic findings and the therapeutic consequences of the private practitioners with those of two experienced neurologists. Discussion To the best of our knowledge, this will be the first study of its kind to examine new approaches to diagnosing unclear consciousness disorders or other disorders of the CNS or the cardiovascular system through the use of a patient-controlled portable EEG device with dry electrodes for the purpose of home-monitoring neurological outpatients. If the two phases of the HOMEONE study provide sufficient evidence of diagnostic and therapeutic yields, this would justify (indication-specific) full-scale randomized controlled trials or observational studies. Trial registration DRKS DRKS00012685. Registered 9 August 2017, retrospectively registered.

Published

2018

16. A Quantitative Analysis Method for Objectively Assessing the Depression Mood Status Based on Portable EEG and Self-rating Scale

Author

Wan, Zhijiang, He, Qiang, Zhou, Haiyan, Yang, Jie, Yan, Jianzhuo, Zhong, Ning, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Zeng, Yi, editor, He, Yong, editor, Kotaleski, Jeanette Hellgren, editor, Martone, Maryann, editor, Xu, Bo, editor, Peng, Hanchuan, editor, and Luo, Qingming, editor

Published

2017

17. Morning brain: real-world neural evidence that high school class times matter.

Author

Dikker, Suzanne, Haegens, Saskia, Bevilacqua, Dana, Davidesco, Ido, Wan, Lu, Kaggen, Lisa, McClintock, James, Chaloner, Kim, Ding, Mingzhou, West, Tessa, and Poeppel, David

Subjects

*HIGH schools, *HIGH school students, *MORNING, *LECTURE method in teaching, *CLASSROOM activities, *ACQUISITION of data

Abstract

Researchers, parents and educators consistently observe a stark mismatch between biologically preferred and socially imposed sleep–wake hours in adolescents, fueling debate about high school start times. We contribute neural evidence to this debate with electroencephalogram data collected from high school students during their regular morning, mid-morning and afternoon classes. Overall, student alpha power was lower when class content was taught via videos than through lectures. Students' resting state alpha brain activity decreased as the day progressed, consistent with adolescents being least attentive early in the morning. During the lessons, students showed consistently worse performance and higher alpha power for early morning classes than for mid-morning classes, while afternoon quiz scores and alpha levels varied. Together, our findings demonstrate that both class activity and class time are reflected in adolescents' brain states in a real-world setting, and corroborate educational research suggesting that mid-morning may be the best time to learn. [ABSTRACT FROM AUTHOR]

Published

2020

18. Developing a portable, customizable, single-channel EEG device for homecare and validating it against a commercial EEG device

Author

Károly Tóth, Máté and Károly Tóth, Máté

Abstract

There are several commercial electroencephalography (EEG) devices on the market; however, affordable devices are not versatile for diverse research applications. The purpose of this project was to investigate how to develop a low-cost, portable, single-channel EEG system for a research institute that could be used for neurofeedback-related applications in homecare. A device comparison was intended to examine what system requirements such a system would need to achieve the secondary objective of developing a neurofeedback application that demonstrates the functionalities of the new device. A portable, single-channel EEG device prototype was realized that consisted of an amplifier module called EEG Click, a single-board microcontroller, an electrode cable, some disposable wet electrode pads, and a custom 3D-printed headband. Three pieces of software were developed: firmware for the prototype, two supporting computer applications for data recording, and visual neurofeedback. The neurofeedback application replayed a first-person view roller coaster video at a varying frame rate based on the theta band's mean power spectral density (PSD). The prototype was compared against a commercial device, InteraXon MUSE 2 (Muse). Technical measurements included determining the amplitude-frequency characteristics and signal quality, such as signal-to-noise ratio (SNR), spurious-free dynamic range (SFDR), and total harmonic distortion (THD). Furthermore, four physiological measurements were performed on six human test subjects, aged between 21-31 (mean: 26.0, std: 3.11), to compare the altered brain activity and induced artifacts between the two devices. The four tests were respiratory exercise, head movement exercise, eye movement exercise, and paced auditory serial addition test (PASAT), where each measurement included several epochs with various stimuli. After the recordings, PSD was calculated for each bandpass filtered epoch, then the spectra were split into theta (4-8 Hz), alpha, Det finns flera kommersiella EEG-apparater (elektroencefalografi) på marknaden; däremot är de prismässigt överkomliga apparaterna inte mångsidiga nog för olika forskningsapplikationer. Syftet med detta projekt var att undersöka hur man kan utveckla en billigt, portabelt, enkanaligt EEG-system för ett forskningsinstitut som skulle kunna användas för neurofeedbackrelaterade tillämpningar inom hemsjukvård. En apparatjämförelse var tänkt att undersöka vilka systemkrav ett sådant system skulle behöva uppnå för att realisera det sekundära målet att utveckla en neurofeedback-applikation för att demonstrera den nya apparatens funktioner. En prototyp av en bärbar, enkanalig EEG-apparat skapades som bestod av en förstärkarmodul kallad EEG Click, en enkortsmikrokontroller, en elektrodkabel, några utbytbara våta elektrodkuddar och ett 3D-tryckt specialpannband. Tre mjukvarodelar utvecklades: en firmware för prototypen och två stödjande datorapplikationer, en för datainspelning och en för visuell neurofeedback. Applikationen för neurofeedback spelade upp en berg-och-dalbana för förstapersonsvisning med en varierande bildhastighet baserat på thetabandets effektspektrumet (eng. power spectral density, PSD). Prototypen jämfördes mot en kommersiell apparat, InteraXon MUSE 2 (Muse). Tekniska mätningar inkluderade fastställande av amplitud-frekvensegenskaper och signalkvalitet, såsom signal-brusförhållande (eng. signal-to-noise ratio, SNR), spuriosfritt dynamiskt område (eng. spurious free dynamic range, SFDR) och total harmonisk distorsion (eng. total harmonic distortion, THD). Vidare utfördes fyra fysiologiska mätningar på sex mänskliga deltagare (medelålder: 26,0, std: 3,11) för att jämföra de två apparaterna med avseende på mätningar av den förändrade hjärnaktiviteten och inducerade artefakter. De fyra testerna var andningsövningar, huvudrörelseövningar, ögonrörelseövningar, och paced auditory serial addition test (PASAT), där varje mätning innehöll flera epoker med olika stimuli.

Published

2023

19. Rapid Handheld Continuous Electroencephalogram (EEG) Has the Potential to Detect Delirium in Older Adults

Author

Donna W. Roberson, Alexander M Schoeman, D. Erik Everhart, DaiWai M. Olson, Malissa Mulkey, Sonya R. Hardin, Sunghan Kim, Laura T Gantt, Cindy L. Munro, and Maura McAuliffe

Subjects

education.field_of_study, medicine.medical_specialty, medicine.diagnostic_test, business.industry, Critically ill, Population, Signs and symptoms, Emergency Nursing, Electroencephalography, Critical Care Nursing, behavioral disciplines and activities, nervous system diseases, Physical medicine and rehabilitation, mental disorders, Medicine, Delirium, In patient, Symptom onset, medicine.symptom, business, education, Portable EEG

Abstract

Background Delirium-related biochemical derangements lead to electrical changes that can be detected in electroencephalographic (EEG) patterns followed by behavioral signs and symptoms. Studies using limited lead EEG show a large difference between patients with and without delirium while discriminating delirium from other causes. Handheld rapid EEG devices may be capable of detecting delirium before symptom onset, thus providing an objective physiological method to detect delirium when it is most amenable to interventions. Objective The aim of this study was to explore the potential for rapid EEG to detect waveform pattern changes consistent with delirium status. Methods This prospective exploratory pilot study used a correlational design and mixed models to explore the relationships between handheld portable EEG data and delirium status. Results While being under powered minimized opportunities to detect statistical differences in EEG-derived ratios using spectral density analysis, sleep-to-wake ratios tended to be higher in patients with delirium. Conclusions Limited lead EEG may be useful in predicting adverse outcomes and risk for delirium in older critically ill patients. Although this population is at the highest risk for mortality, delirium is not easily identified by current clinical assessments. Therefore, further investigation of limited lead EEG for delirium detection is warranted.

Published

2022

20. Measuring the Degree of Content Immersion in a Nonexperimental Environment Using a Portable EEG Device.

Author

Nam-Ho Keum, Taek Lee, Jung-Been Lee, and Hoh Peter In

Abstract

As mobile devices such as smartphones and tablet PCs become more popular, users are becoming accustomed to consuming a massive amount of multimedia content every day without time or space limitations. From the industry, the need for user satisfaction investigation has consequently emerged. Conventional methods to investigate user satisfaction usually employ user feedback surveys or interviews, which are considered manual, subjective, and inefficient. Therefore, the authors focus on a more objective method of investigating users' brainwaves to measure how much they enjoy their content. Particularly for multimedia content, it is natural that users will be immersed in the played content if they are satisfied with it. In this paper, the authors propose a method of using a portable and dry electroencephalogram (EEG) sensor device to overcome the limitations of the existing conventional methods and to further advance existing EEG-based studies. The proposed method uses a portable EEG sensor device that has a small, dry (i.e., not wet or adhesive), and simple sensor using a single channel, because the authors assume mobile device environments where users consider the features of portability and usability to be important. This paper presents how to measure attention, gauge and compute a score of user's content immersion level after addressing some technical details related to adopting the portable EEG sensor device. Lastly, via an experiment, the authors verified a meaningful correlation between the computed scores and the actual user satisfaction scores. [ABSTRACT FROM AUTHOR]

Published

2018

21. Brain-to-Brain Synchrony Tracks Real-World Dynamic Group Interactions in the Classroom.

Author

Dikker, Suzanne, Wan, Lu, Davidesco, Ido, Kaggen, Lisa, Oostrik, Matthias, McClintock, James, Rowland, Jess, Michalareas, Georgios, Van Bavel, Jay J., Ding, Mingzhou, and Poeppel, David

Subjects

*BRAIN physiology, *NEUROSCIENCES, *SOCIAL interaction, *SOCIAL exchange, *ELECTROENCEPHALOGRAPHY

Abstract

Summary The human brain has evolved for group living [ 1 ]. Yet we know so little about how it supports dynamic group interactions that the study of real-world social exchanges has been dubbed the “dark matter of social neuroscience” [ 2 ]. Recently, various studies have begun to approach this question by comparing brain responses of multiple individuals during a variety of (semi-naturalistic) tasks [ 3–15 ]. These experiments reveal how stimulus properties [ 13 ], individual differences [ 14 ], and contextual factors [ 15 ] may underpin similarities and differences in neural activity across people. However, most studies to date suffer from various limitations: they often lack direct face-to-face interaction between participants, are typically limited to dyads, do not investigate social dynamics across time, and, crucially, they rarely study social behavior under naturalistic circumstances. Here we extend such experimentation drastically, beyond dyads and beyond laboratory walls, to identify neural markers of group engagement during dynamic real-world group interactions. We used portable electroencephalogram (EEG) to simultaneously record brain activity from a class of 12 high school students over the course of a semester (11 classes) during regular classroom activities ( Figures 1 A–1C; Supplemental Experimental Procedures , section S1). A novel analysis technique to assess group-based neural coherence demonstrates that the extent to which brain activity is synchronized across students predicts both student class engagement and social dynamics. This suggests that brain-to-brain synchrony is a possible neural marker for dynamic social interactions, likely driven by shared attention mechanisms. This study validates a promising new method to investigate the neuroscience of group interactions in ecologically natural settings. [ABSTRACT FROM AUTHOR]

Published

2017

22. Portable EEG monitoring for older adults with dementia and chronic pain - A feasibility study

Author

Wendy Moyle, Lihui Pu, Michael Todorovic, and Katarzyna Lion

Subjects

medicine.medical_specialty, Electroencephalography, Eeg patterns, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Pain assessment, medicine, Humans, Dementia, 030212 general & internal medicine, Portable EEG, Aged, Pain Measurement, medicine.diagnostic_test, business.industry, Chronic pain, medicine.disease, Sample size determination, Potential biomarkers, Feasibility Studies, Chronic Pain, business, Gerontology, 030217 neurology & neurosurgery

Abstract

Given the reduced ability of people with dementia to self-report pain, this study examined the feasibility of using a portable electroencephalography (EEG) headband (MUSE 2) as a pain measurement tool for long-term care residents with dementia. Ten minutes of resting-state EEG was acquired by MUSE 2 from people with dementia experiencing ongoing pain (n = 3) and without current pain (n = 1) over three days. The MUSE 2 was acceptable and feasible for use in people with dementia while challenges regarding software, data collection and analysis in using this device are reported. Compared to the resident not experiencing pain, EEG signals of residents with ongoing pain showed different EEG patterns, and this could be a potential biomarker to support pain measurement in people with dementia. Further research with larger sample size is warranted to verify study results.

Published

2021

23. Absence Seizure Detection Algorithm for Portable EEG Devices

Author

Wojciech Jernajczyk, Bruce J. West, Pawel Glaba, Tadeusz Sebzda, Miroslaw Latka, Magdalena Kaczorowska-Frontczak, Wojciech Walas, Małgorzata J. Krause, Marta Kuryło, and Sławomir Kroczka

Subjects

Electroencephalography, portable device, wavelets, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, Childhood absence epilepsy, medicine, EEG, RC346-429, Portable EEG, 030304 developmental biology, 0303 health sciences, medicine.diagnostic_test, detector, business.industry, Brief Research Report, medicine.disease, Absence seizure, Neurology, Seizure detection, childhood absence epilepsy, False detection, Abrupt onset, Neurology. Diseases of the nervous system, Neurology (clinical), business, Algorithm, 030217 neurology & neurosurgery

Abstract

Absence seizures are generalized nonmotor epileptic seizures with abrupt onset and termination. Transient impairment of consciousness and spike-slow wave discharges (SWDs) in EEG are their characteristic manifestations. This type of seizure is severe in two common pediatric syndromes: childhood (CAE) and juvenile (JAE) absence epilepsy. The appearance of low-cost, portable EEG devices has paved the way for long-term, remote monitoring of CAE and JAE patients. The potential benefits of this kind of monitoring include facilitating diagnosis, personalized drug titration, and determining the duration of pharmacotherapy. Herein, we present a novel absence detection algorithm based on the properties of the complex Morlet continuous wavelet transform of SWDs. We used a dataset containing EEGs from 64 patients (37 h of recordings with almost 400 seizures) and 30 age and sex-matched controls (9 h of recordings) for development and testing. For seizures lasting longer than 2 s, the detector, which analyzed two bipolar EEG channels (Fp1-T3 and Fp2-T4), achieved a sensitivity of 97.6% with 0.7/h detection rate. In the patients, all false detections were associated with epileptiform discharges, which did not yield clinical manifestations. When the duration threshold was raised to 3 s, the false detection rate fell to 0.5/h. The overlap of automatically detected seizures with the actual seizures was equal to ~96%. For EEG recordings sampled at 250 Hz, the one-channel processing speed for midrange smartphones running Android 10 (about 0.2 s per 1 min of EEG) was high enough for real-time seizure detection.

Published

2021

24. Morning brain: real-world neural evidence that high school class times matter

Author

Saskia Haegens, Mingzhou Ding, Tessa V. West, Kim Chaloner, Ido Davidesco, James M. McClintock, Suzanne Dikker, David Poeppel, Lisa Kaggen, Lu Wan, and Dana Bevilacqua

Subjects

Male, Time Factors, Adolescent, Cognitive Neuroscience, AcademicSubjects/SCI01880, education, Alpha (ethology), Experimental and Cognitive Psychology, Original Manuscript, alpha oscillations, 050105 experimental psychology, Developmental psychology, 03 medical and health sciences, 0302 clinical medicine, Humans, Learning, 0501 psychology and cognitive sciences, Attention, Students, hyperscanning, Morning, real-world neuroscience, classroom learning, portable EEG, Schools, Resting state fMRI, 350 000 Brain Rhythms, 4. Education, 05 social sciences, school times, Brain, Electroencephalography, General Medicine, School class, Circadian Rhythm, Educational research, Brain state, circadian rhythms, Alpha BRAIN, Female, Psychology, chronobiology, Sleep, Alpha power, 030217 neurology & neurosurgery

Abstract

Researchers, parents and educators consistently observe a stark mismatch between biologically preferred and socially imposed sleep–wake hours in adolescents, fueling debate about high school start times. We contribute neural evidence to this debate with electroencephalogram data collected from high school students during their regular morning, mid-morning and afternoon classes. Overall, student alpha power was lower when class content was taught via videos than through lectures. Students’ resting state alpha brain activity decreased as the day progressed, consistent with adolescents being least attentive early in the morning. During the lessons, students showed consistently worse performance and higher alpha power for early morning classes than for mid-morning classes, while afternoon quiz scores and alpha levels varied. Together, our findings demonstrate that both class activity and class time are reflected in adolescents’ brain states in a real-world setting, and corroborate educational research suggesting that mid-morning may be the best time to learn.

Published

2020

25. Adaptive single-channel EEG artifact removal with applications to clinical monitoring

Author

Matteo Dora and David Holcman

Subjects

Artifact (error), Channel (digital image), medicine.diagnostic_test, Computer science, business.industry, SIGNAL (programming language), Electroencephalography, Wavelet, Temporal resolution, Benchmark (computing), medicine, Computer vision, Artificial intelligence, business, Portable EEG

Abstract

ObjectiveElectroencephalography (EEG) has become very common in clinical practice due to its relatively low cost, ease of installation, non-invasiveness, and good temporal resolution. Portable EEG devices are increasingly popular in clinical monitoring applications such as sleep scoring or anesthesia monitoring. In these situations, for reasons of speed and simplicity only few electrodes are used and contamination of the EEG signal by artifacts is inevitable. Visual inspection and manual removal of artifacts is often not possible, especially in real-time applications. Our goal is to develop a flexible technique to remove EEG artifacts in these contexts with minimal supervision.MethodsWe propose here a new wavelet-based method which allows to remove artifacts from single-channel EEGs. The method is based on a data-driven renormalization of the wavelet components and is capable of adaptively attenuate artifacts of different nature. We benchmark our method against alternative artifact removal techniques.ResultsWe assessed the performance of the proposed method on publicly available datasets comprising ocular, muscular, and movement artifacts. The proposed method shows superior performances on different kinds of artifacts and signal-to-noise levels. Finally, we present an application of our method to the monitoring of general anesthesia.ConclusionsWe show that our method can successfully attenuate various types of artifacts in single-channel EEG.SignificanceThanks to its data-driven approach and low computational cost, the proposed method provides a valuable tool to remove artifacts in real-time EEG applications with few electrodes, such as monitoring in special care units.

Published

2021

26. Stroke identification using a portable EEG device – A pilot study

Author

Isaac Srugo, Jacob Genizi, Nicola Omar, Ala Khuri, Oren Rosen, Ayed Mahagney, Boaz Weller, and Matan Gottlibe

Subjects

Male, medicine.medical_specialty, Stroke patient, Pilot Projects, Brain waves, Electroencephalography, Audiology, 050105 experimental psychology, Brain Ischemia, 03 medical and health sciences, 0302 clinical medicine, Physiology (medical), medicine, Humans, 0501 psychology and cognitive sciences, Stroke, Portable EEG, Aged, Aged, 80 and over, medicine.diagnostic_test, business.industry, 05 social sciences, Significant difference, Brain, General Medicine, Middle Aged, medicine.disease, Brain Waves, Neurology, Matched group, Female, Neurology (clinical), business, 030217 neurology & neurosurgery, Symmetry index

Abstract

Summary Objective Changes in EEG patterns during stroke are almost immediate; however, a full EEG test takes time and requires highly qualified staff. In this study, we examined whether a short recording using a portable EEG device can differentiate between a stroke and control group. Methods EEG samples were collected from patients with an acute ischemic stroke event. The control group comprised healthy volunteers. EEG recordings were recorded using a portable brain wave sensor device. The Revised Brain Symmetry Index (rsBSI) was used to quantify the symmetry of spectral power between the two hemispheres. Results The investigation group included 33 patients (ages 46–96, mean age 72 years, 66% male) who were diagnosed with ischemic stroke. The control group included 25 healthy individuals. Scores for the rsBSI of non-stroke patients (M = 0.1686, SD = 0.10) differed significantly from those of ischemic stroke patients (P Conclusions A statistically significant difference was observed between a group of stroke patients and a matched group of healthy controls with a short recording using a portable EEG device.

Published

2020

27. Two Tell-tale Perspectives of PTSD

Author

Nipi Paul, Anika Binte Islam, Mohammad Saifur Rahman, Farhana Shahid, A. B. M. Alim Al Islam, Nabila Shahnaz Khan, Wasifur Rahman, and Munirul Haque

Subjects

Computer Networks and Communications, Refugee, Bayesian probability, Refugee crisis, Humanitarian crisis, Psychological distress, Context (language use), 030227 psychiatry, Human-Computer Interaction, Formative assessment, 03 medical and health sciences, 0302 clinical medicine, Hardware and Architecture, Psychology, Portable EEG, 030217 neurology & neurosurgery, Clinical psychology

Abstract

Global refugee crisis around the world has displaced millions of people from their homes. Although some of them adjust well, many suffer from significant psychological distress, such as post-traumatic stress disorder (PTSD), owing to exposure to traumatic events and hardships. Here, diagnosis and access to psychological health care present particular challenges for various human-centered design issues. Therefore, analyzing the case of Rohingya refugees in Bangladesh, we propose a two-way diagnosis of PTSD using (i) short inexpensive questionnaire to determine its prevalence, and (ii) low-cost portable EEG headset to identify potential neurobiological markers of PTSD. To the best of our knowledge, this study is the first to use consumer-grade EEG devices in the scarce-resource settings of refugees. Moreover, we explored the underlying structure of PTSD and its symptoms via developing various hybrid models based on Bayesian inference by combining aspects from both reflective and formative models of PTSD, which is also the first of its kind. Our findings revealed several key components of PTSD and its neurobiological abnormality. Moreover, challenges faced during our study would inform design processes of screening tools and treatments of PTSD to incorporate refugee experience in a more meaningful way during contemporary and future humanitarian crisis.

Published

2019

28. Brain Controlled Lego NXT Mindstorms 2.0 Platform

Author

Rosca Sebastian Daniel, Sibisanu Remus Constantin, Leba Monica, and Panaite Arun Fabian

Subjects

medicine.diagnostic_test, business.industry, Computer science, Headset, Entertainment industry, Brain control, Electroencephalography, Signal, Smart toys, medicine, OpenBCI, business, Portable EEG, Computer hardware

Abstract

The increased need to perform a different control adapted to various areas such as: rehabilitation, entertainment, smart toys have created a new demand for small sized low-cost electroencephalogram (EEG) acquisition devices. Also, there is a need to develop portable EEG devices that can be used for long term, without the need for further operations such as the short-time replacement of signal capture electrodes or frequent rehydration in the case of semiconductor polymers-based sensors. In this paper, we propose the use of an OpenBCI neural headset whose structure has been designed and 3D printed, equipped with 16 reusable electroencephalogram electrodes that provide 16 channels of acquisition of EEG signals from the user to control a Lego NXT MindStorms 2.0 wheeled platform programmed in C# that accepts brain control signals as input.

Published

2021

29. Portable EEG Data Acquisition System for BCI Applications

Author

Jayashree M. J, Sandra Jeeva, Daniel C, Shamil Shamsudeen, Jayakumari J, and Rohit Satheesan

Subjects

medicine.diagnostic_test, Computer science, business.industry, Python (programming language), Electroencephalography, Software, Data acquisition, medicine, business, computer, Portable EEG, Computer hardware, Decoding methods, computer.programming_language, Coding (social sciences), Brain–computer interface

Abstract

Elderly people suffering from diseases like Parkinson’s disease will have difficulty in movement. For such patients, to analyse their health conditions and for diagnosis purpose, doctors may need their EEG. At present, extraction of these signals needs a short hospital visit. In this work, a simple portable brain computer interface using embedded system is developed to help such elderly people at home who may have difficulty in traveling to hospitals. The BCI system developed here utilizes EEG electrodes for signal extraction as well as high gain amplifier assembly, Raspberry Pi 4 for processing and decoding of the brain waves. The proposed system was simulated using Proteus software, fabricated on printed circuit board and interfaced with Raspberry Pi4 board. Google Colab software was used for processing the EEG dataset while integrating with Raspberry Pi4 using python coding These systems will be more practical and effective for usage outside the laboratory.

Published

2021

30. Augmented Reality Integrated Brain Computer Interface for Smart Home Control

Author

Mohammad Sahal, Sara Feldman, Mali Halac, Emma Dryden, Terry Heiman-Patterson, and Hasan Ayaz

Subjects

InformationSystems_MODELSANDPRINCIPLES, Human–computer interaction, Computer science, Home automation, business.industry, Assistive technology, Control (management), Home control, Augmented reality, Usability, business, Portable EEG, Brain–computer interface

Abstract

Brain computer interface (BCI) technology is an alternate communication option for individuals with neuromuscular impairments. There are several challenges to optimal BCI use including positioning of the screen, ease of use, independence in access, and calibration. Our study is directed at the development of a practical, accessible, at-home use BCI system that addresses these obstacles. Our design utilizes an augmented reality (AR) head-mounted display as a solution to provide BCI stimuli and output. We used a battery-operated Bluetooth-connected 8-channel portable EEG system and a custom P300 selection matrix displaying icons corresponding to various home control actions. Finally, the BCI system is integrated with a built-in smart assistant (Google Assistant) which allows the user to control their environment. In this paper, we describe the engineering of this home-use BCI system designed specifically for people with Amyotrophic Lateral Sclerosis, a neuromuscular disease causing severe motor deficits and loss of mobility.

Published

2021

31. Solving The Maze of Diagnosing Parkinson’s Disease based on Portable EEG Sensing to be Adaptable to Go In-The-Wild

Author

A. B. M. Alim Al Islam, Abdullah Aman Tutul, and Ashiqur Rahman

Subjects

medicine.medical_specialty, Focus (computing), Parkinson's disease, medicine.diagnostic_test, Computer science, Environment controlled, 02 engineering and technology, Disease, Electroencephalography, medicine.disease, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, 0202 electrical engineering, electronic engineering, information engineering, medicine, 020201 artificial intelligence & image processing, Statistical analysis, Portable EEG, 030217 neurology & neurosurgery

Abstract

Parkinson’s disease is a common and highly threatening neurodegenerative disease, which has no confirmed well-adopted diagnosis method to date. All research efforts in this regard focus on diagnosing in controlled environment such as laboratories. Going beyond this common limitation, in this paper, we exploit the Electroencephalogram (EEG) signal to effectively come up with a portable Parkinson’s disease diagnosis system that can go in-the-wild. To do so, we collect EEG signals from both Parkinson’s patients and healthy people in different emotional states. Our statistical analysis finds a substantial differences in the signals in several emotional states for Parkinson’s patients and healthy people. Accordingly, we develop a machine learning based model to diagnose Parkinson’s disease that results in 97% accuracy.

Published

2020

32. Predicting stroke severity with a 3-min recording from the Muse portable EEG system for rapid diagnosis of stroke

Author

Kyle E. Mathewson, Jonathan W. P. Kuziek, Cassandra M. Wilkinson, Jennifer I. Burrell, Sibi Thirunavukkarasu, and Brian Buck

Subjects

Adult, Male, medicine.medical_specialty, Stroke severity, lcsh:Medicine, Electroencephalography, Severity of Illness Index, Article, 050105 experimental psychology, Brain Ischemia, 03 medical and health sciences, Medical research, 0302 clinical medicine, Text mining, Internal medicine, Humans, Medicine, 0501 psychology and cognitive sciences, In patient, Prospective Studies, lcsh:Science, Portable EEG, Stroke, Aged, Aged, 80 and over, Multidisciplinary, medicine.diagnostic_test, business.industry, lcsh:R, 05 social sciences, Health care, Brain, Middle Aged, medicine.disease, Triage, Neurology, Cardiology, lcsh:Q, Female, business, 030217 neurology & neurosurgery, Symmetry index, Neuroscience

Abstract

In this study, we demonstrated the use of low-cost portable electroencephalography (EEG) as a method for prehospital stroke diagnosis. We used a portable EEG system to record data from 25 participants, 16 had acute ischemic stroke events, and compared the results to age-matched controls that included stroke mimics. Delta/alpha ratio (DAR), (delta + theta)/(alpha + beta) ratio (DBATR) and pairwise-derived Brain Symmetry Index (pdBSI) were investigated, as well as head movement using the on-board accelerometer and gyroscope. We then used machine learning to distinguish between different subgroups. DAR and DBATR increased in ischemic stroke patients with increasing stroke severity (p = 0.0021, partial η2 = 0.293; p = 0.01, partial η2 = 0.234). Also, pdBSI decreased in low frequencies and increased in high frequencies in patients who had a stroke (p = 0.036, partial η2 = 0.177). Using classification trees, we were able to distinguish moderate to severe stroke patients and from minor stroke and controls, with a 63% sensitivity, 86% specificity and accuracy of 76%. There are significant differences in DAR, DBATR, and pdBSI between patients with ischemic stroke when compared to controls, and these effects scale with severity. We have shown the utility of a low-cost portable EEG system to aid in patient triage and diagnosis as an early detection tool.

Published

2020

33. A Portable EEG Monitoring System for Neonatal Seizures

Author

Yunqing Liu, Xiaoli Qu, Ying Zhang, Peng Shen, and Aijun He

Subjects

medicine.diagnostic_test, Remote patient monitoring, business.industry, Computer science, 020208 electrical & electronic engineering, Process (computing), ComputerApplications_COMPUTERSINOTHERSYSTEMS, Pattern recognition, Monitoring system, 02 engineering and technology, Electroencephalography, 03 medical and health sciences, 0302 clinical medicine, Feature (computer vision), 0202 electrical engineering, electronic engineering, information engineering, medicine, Neonatal brain, Artificial intelligence, business, Portable EEG, 030217 neurology & neurosurgery

Abstract

This paper introduces a portable electroencephalogram (EEG) monitoring system for neonatal seizures. The hardware circuit can acquire 8 channels of EEG data or expand to 32 channels. It is characterized in high accuracy, small size, and low power consumption, which can meet the needs of long-term bedside monitoring of newborns. Users can choose different modes to view the historical data of the acquired EEG signals, or real-time data transmitted via WiFi. To further analyze and process the data, this paper introduces a machine learning-based scheme to automatically distinguish between normal and abnormal amplitude-integrated EEG (aEEG) signals. The program extracts the effective feature representation from the data and trains the model. The model can predict the class of unknown aEEG samples, which is helpful for further clinical detection of neonatal brain conditions.

Published

2020

34. The use of portable EEG devices in development of immersive virtual reality environments for converting emotional states into specific commands

Author

Catarina Sá, Paulo Veloso Gomes, António Correia, António Marques, and Repositório Científico do Instituto Politécnico do Porto

Subjects

medicine.diagnostic_test, Computer science, Oculus rift, media_common.quotation_subject, Emotions, Cognition, Empathy, lcsh:A, Electroencephalography, Neurogaming, Virtual reality, Neurofeedback, Immersive environments, Human–computer interaction, TheoryofComputation_ANALYSISOFALGORITHMSANDPROBLEMCOMPLEXITY, medicine, lcsh:General Works, Portable EEG, Mental health and wellness, media_common

Abstract

The application of electroencephalography electrodes in Virtual Reality (VR) glasses allows users to relate cognitive, emotional, and social functions with the exposure to certain stimuli. The development of non-invasive portable devices, coupled with VR, allows for the collection of electroencephalographic data. One of the devices that embraced this new trend is Looxid LinkTM, a system that adds electroencephalography to HTC VIVETM, VIVE ProTM, VIVE Pro EyeTM, or Oculus Rift STM glasses to create interactive environments using brain signals. This work analyzes the possibility of using the Looxid LinkTM device to perceive, evaluate and monitor the emotions of users exposed to VR.

Published

2020

35. 10 years of EPOC: A scoping review of Emotiv’s portable EEG device

Author

Nicholas A. Badcock, Genevieve McArthur, and Nikolas Williams

Subjects

Identification (information), Systematic review, Computer science, Interface (computing), Applied psychology, MEDLINE, Portable EEG, Experimental research

Abstract

BACKGROUNDCommercially-made low-cost electroencephalography (EEG) devices have become increasingly available over the last decade. One of these devices, Emotiv EPOC, is currently used in a wide variety of settings, including brain-computer interface (BCI) and cognitive neuroscience research.PURPOSEThe aim of this study was to chart peer-reviewed reports of Emotiv EPOC projects to provide an informed summary on the use of this device for scientific purposes.METHODSWe followed a five-stage methodological framework for a scoping review that included a systematic search using the Preferred Reporting Items for Systematic Reviews and Meta-Analyses Extension for Scoping Reviews (PRISMA-ScR) guidelines. We searched the following electronic databases: PsychINFO, MEDLINE, Embase, Web of Science, and IEEE Xplore. We charted study data according to application (BCI, clinical, signal processing, experimental research, and validation) and location of use (as indexed by the first author’s address).RESULTSWe identified 382 relevant studies. The top five publishing countries were the United States (n = 35), India (n = 25), China (n = 20), Poland (n = 17), and Pakistan (n = 17). The top five publishing cities were Islamabad (n = 11), Singapore (n = 10), Cairo, Sydney, and Bandung (n = 7 each). Most of these studies used Emotiv EPOC for BCI purposes (n = 277), followed by experimental research (n = 51). Thirty-one studies were aimed at validating EPOC as an EEG device and a handful of studies used EPOC for improving EEG signal processing (n = 12) or for clinical purposes (n = 11).CONCLUSIONSIn its first 10 years, Emotiv EPOC has been used around the world in diverse applications, from control of robotic limbs and wheelchairs to user authentication in security systems to identification of emotional states. Given the widespread use and breadth of applications, it is clear that researchers are embracing this technology.

Published

2020

36. Application of the Muse portable EEG system to aid in rapid diagnosis of stroke

Author

Jonathan W. P. Kuziek, Jennifer I. Burrell, Brian Buck, Sibi Thirunavukkarasu, Cassandra M. Wilkinson, and Kyle E. Mathewson

Subjects

medicine.medical_specialty, Diagnostic methods, medicine.diagnostic_test, business.industry, Stroke severity, Alpha (ethology), Electroencephalography, medicine.disease, Triage, Quantitative eeg, Internal medicine, medicine, Cardiology, business, Stroke, Portable EEG

Abstract

ObjectiveIn this pilot study, we investigated using portable electroencephalography (EEG) as a potential prehospital stroke diagnostic method.MethodsWe used a portable EEG system to record data from 25 participants, 16 had acute ischemic stroke events, and compared the results of age-matched controls that included stroke mimics. Delta/alpha ratio (DAR), (delta+theta)/(alpha+beta) ratio (DBATR) and pairwise-derived Brain Symmetry Index (pdBSI) were investigated, as well as accelerometer and gyroscope trends. We then made classification trees using TreeBagger to distinguish between different subgroups.ResultsDAR and DBATR showed an increase in ischemic stroke patients that correlates with stroke severity (p2 = 0.293; p2 = 0.234). pdBSI decreased in low frequencies and increased in high frequencies in patients who had a stroke (p2 = 0. 177). All quantitative EEG measures were significant between stroke patients and controls. Using classification trees, we were able to distinguish between subgroups of stroke patients and controls.ConclusionsThere are significant differences in DAR, DBATR, and pdBSI between patients with ischemic stroke when compared to controls; results relate to severity.SignificanceWith significant differences between patients with strokes and controls, we have shown the feasibility and utility for the Muse™ EEG system to aid in patient triage and diagnosis as an early detection tool.

Published

2020

37. Challenge of diagnosing non-convulsive status epilepticus presenting as delirium

Author

Patrick Mulkerrin, Shaun T. O'Keeffe, and Deepak Gopinathan

Subjects

medicine.medical_specialty, Psychosis, medicine.diagnostic_test, business.industry, Convulsive status epilepticus, Status epilepticus, Electroencephalography, medicine.disease, 03 medical and health sciences, 0302 clinical medicine, medicine, Delirium, In patient, 030212 general & internal medicine, medicine.symptom, Intensive care medicine, business, Older people, Portable EEG, 030217 neurology & neurosurgery

Abstract

Nonconvulsive status epilepticus (NCSE) is relatively common in older people. Although NCSE is a known cause of delirium, diagnosis is often delayed or missed. We report three cases where NCSE was identified as the cause of delirium in older people that illustrate the challenge of diagnosis. The cases illustrate that clinical manifestations such as slight twitching of the eyelids or periorally, eye signs, automatisms and disorders of speech and language are often very subtle. Electroencephalography (EEG), and monitoring the clinical and EEG effects of intravenous anticonvulsants, are crucial to diagnosis. Increased availability of portable EEG machines will facilitate early diagnosis. In situations where an EEG is not easily available, a trial of treatment is warranted. Hypoactive delirium is the main variant seen in NCSE but psychosis may also occur. Clinicians should maintain a high index of suspicion for NCSE in patients with delirium especially when no other obvious cause is identified.

Published

2018

38. Development of the Impression Detection System by using a Portable EEG Device for Tourist Impression Analysis

Author

Tomoyuki Ohkubo, Kohei Yamamaru, and Shigeomi Koshimizu

Subjects

050210 logistics & transportation, Government, medicine.diagnostic_test, Computer science, 05 social sciences, Advertising, Electroencephalography, Brain waves, 050105 experimental psychology, Impression, Order (business), 0502 economics and business, medicine, 0501 psychology and cognitive sciences, Portable EEG, Tourism

Abstract

International tourists in Japan are increasing year by year, and the Japanese government keeps promoting the tourism industry. To make Japan more attractive for tourists, the analysis of tourists' impressions is very important. One of the conventional approaches is to provide tourists with a questionnaire about sightseeing spots and their experiences there. However, the questionnaire has a problem, the memory of the interviewees tends to fade and detailed information cannot be retrieved. In this paper, we describe a novel approach to detect tourists' impression using information from their electroencephalogram (EEG). Since the developed system makes use of a portable EEG device, it enables impression detection even if the subject is walking. In order to confirm the validity of the proposed system, we carried out a real-world experience of the typical sightseeing spots.

Published

2018

39. Towards automated electroencephalography-based Alzheimer’s disease diagnosis using portable low-density devices

Author

Renato Anghinah, Raymundo Cassani, Tiago H. Falk, Francisco J. Fraga, Dennis Moore, and Marco Cecchi

Subjects

Computer science, Health Informatics, Electroencephalography, Machine learning, computer.software_genre, 050105 experimental psychology, 03 medical and health sciences, 0302 clinical medicine, Eeg data, Neuroimaging, Memory task, Low density, medicine, 0501 psychology and cognitive sciences, Portable EEG, Simulation, Protocol (science), medicine.diagnostic_test, business.industry, 05 social sciences, Independent component analysis, 3. Good health, Signal Processing, Artificial intelligence, business, computer, 030217 neurology & neurosurgery

Abstract

Today, Alzheimer’s disease (AD) diagnosis is carried out using subjective mental status examinations assisted in research by scarce and expensive neuroimaging scans and invasive laboratory tests; all of which render the diagnosis time-consuming, geographically confined and costly. Driven by these limitations, quantitative analysis of electroencephalography (EEG) has been proposed as a non-invasive and more convenient technique to study AD. Published works on EEG-based AD diagnosis typically share two main characteristics: EEG is manually selected by experienced clinicians to discard artefacts that affect AD diagnosis, and reliance on EEG devices with 20 or more electrodes. Recent work, however, has suggested promising results by using automated artefact removal (AAR) algorithms combined with medium-density EEG setups. Over the last couple of years, however, low-density, portable EEG devices have emerged, thus opening the doors for low-cost AD diagnosis in low-income countries and remote regions, such as the Canadian Arctic. Unfortunately, the performance of automated diagnostic solutions based on low-density portable devices is still unknown. The work presented here aims to fill this gap. We propose an automated EEG-based AD diagnosis system based on AAR and a low-density (7-channel) EEG setup. EEG data was acquired during resting-awake protocol from control and AD participants. After AAR, common EEG features, spectral power and coherence, are computed along with the recently proposed amplitude-modulation features. The obtained features are used for training and testing of the proposed diagnosis system. We report and discuss the results obtained with such system and compare the obtained performance with results published in the literature using higher-density EEG layouts.

Published

2017

40. Abstract 287: Bimodal Brain Monitoring Using Portable EEG and Cerebral Oximetry During Cardiopulmonary Resuscitation (CPR): A Pilot Study

Author

Thaddeus Tarpey, David Dupont, Sam Parnia, Emma Roellke, Rebecca Spiegel, Tori Williams, and Yingzhi Qian

Subjects

Resuscitation, business.industry, Physiology (medical), medicine.medical_treatment, Anesthesia, medicine, Cardiopulmonary resuscitation, Brain monitoring, Cardiology and Cardiovascular Medicine, business, Cerebral oximetry, Portable EEG

Abstract

Background: There is a need to monitor brain resuscitation during CPR. Furthermore, 10% of CA survivors report cognitive activity and 2-3% report consciousness during CPR. Methods: Using data from a prospective study (AWARE-II) with bimodal brain monitoring during CPR (EEG, [Massimo] and regional cerebral oxygenation [rSO2 normal 60-80%]) using cerebral oximetry [Nonin]), we sought to identify EEG rhythms, their progression over time, and underlying rSO2 thresholds. Inclusion criteria: In hospital CA, ≥ 18 years. Raw EEG data were captured as images (1/second) during CPR pauses, while rSO2 was captured continuously. Results: 38 patients were recruited; mean age 69±16 with duration of CPR (10-60 mins). We captured 362 EEG images. 91 (25%) were artifacts. Among the 271 interpretable images, there were 13 EEG rhythms placed into 6 groups based on their association with normal/near normal, seizures, coma, absence of cortical activity as follows: Group 1 (Non-epileptogenic): Theta, Delta, Alpha, Group 2 (Epileptogenic/Spike and Wave): Generalized Rhythmic Delta Activity (GRDA) + Spike (S), Delta + S, Theta + S, Burst Suppression with GRDA + S, Group 3 (Flat-line): Marked Voltage Attenuation (MVA), Group 4 (Coma State): Burst Suppression (w/ GRDA, Delta, and/or Theta), Group 5: GRDA, Group 6: Generalized Periodic Discharges (GPD). MVA/absence of activity was observed throughout CPR time and across all rSO2 ranges. Normal/near normal (non-epileptogenic) including alpha rhythms (which to our knowledge is described for the first time), and epileptogenic rhythms were observed with rSO2>30% Conclusions: While unclear whether non-epileptogenic rhythms are associated with transient periods of ROSC, however real-time bimodal brain monitoring provides insights regarding brain resuscitation and its dynamic interaction with patient factors. While ischemia may cause epileptogenic activity, there are periods of normal/near-normal cortical activity despite prolonged CPR >45-60 mins. A minimal threshold of brain oxygen delivery (rSO2>30%) may be required for cortical activity. These data raise questions regarding assumptions of irreversible brain damage with prolonged CPR, as well as the possibility of consciousness and cognitive activity during CPR.

Published

2019

41. EEG alpha rhythm detection on a portable device

Author

Alex A. Biazotti, Suzana Veiga Schönwald, Giordano B.S. Seco, Günther J.L. Gerhardt, José Luiz Rybarczyk-Filho, André L. Molan, Universidade Estadual Paulista (Unesp), Univ Caxias Do Sul, and Hosp Clin Porto Alegre

Subjects

Computer science, 0206 medical engineering, Fast Fourier transform, Health Informatics, 02 engineering and technology, Electroencephalography, Signal, 03 medical and health sciences, 0302 clinical medicine, Rhythm, medicine, EEG, BCI, Portable EEG, Emotiv EPOC, Signal processing, medicine.diagnostic_test, business.industry, Pattern recognition, Alpha rhythm, 020601 biomedical engineering, Matching pursuit, Signal Processing, Artificial intelligence, business, 030217 neurology & neurosurgery, Eeg alpha

Abstract

Made available in DSpace on 2019-10-04T12:39:11Z (GMT). No. of bitstreams: 0 Previous issue date: 2019-07-01 Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) Portable EEG devices have a great potential to become efficient computer interfaces. However, a necessary step is to accurately describe the EEG signal in order to quantify brain rhythms. This study explored two signal analysis techniques, Matching Pursuit (MP) and Fast Fourier Transform (FFT), for differentiation between two states, eyes open (EO) and eyes closed (EC), through the detection of EEG alpha activity obtained from seven scalp regions, using a portable EEG device. Subjects were ten healthy male volunteers. MP results generally reproduced the results from FFT analysis, and all methods performed well on the occipital region. However, there was better state discrimination with MP atom number, and MP atom number was the only variable that reached statistical significance on all locations under study. When employing EEG alpha rhythm for EO vs. EC state discrimination, it may be useful to compute MP atom number, especially when extra-occipital acquisition is warranted. (C) 2019 Elsevier Ltd. All rights reserved. Univ Estadual Paulista, Inst Biosci, Dept Phys & Biophys, Dist Rubido Jr S-N, BR-18618970 Botucatu, SP, Brazil Univ Caxias Do Sul, Ctr Ciencias Exatas & Tecnol, Rua Francisco Getulio Vargas 1130, BR-95001970 Caxias Do Sul, RS, Brazil Hosp Clin Porto Alegre, Neurol Div, Rua Ramiro Barcelos 2350,Sala 2040, BR-90035003 Porto Alegre, RS, Brazil Univ Estadual Paulista, Inst Biosci, Dept Phys & Biophys, Dist Rubido Jr S-N, BR-18618970 Botucatu, SP, Brazil CNPq: 458810/2013-4 CNPq: 181242/2014-1 CNPq: 182472/2015-9 CNPq: 181963/2014-0 CNPq: 185855/2014-8 CNPq: 314178/2014-7 CNPq: 310001/2015-3

Published

2019

42. Application of Portable EEG Device in Detection and Classification Drowsiness by Support Vector Machine

Author

Thi Diem Hang Nguyen, Quang Linh Huynh, Thi Tram Anh Pham, and Quoc Khai Le

Subjects

medicine.diagnostic_test, Computer science, Frequency band, business.industry, media_common.quotation_subject, Pattern recognition, Electroencephalography, Brain waves, Driving safety, Support vector machine, Measurement device, medicine, Artificial intelligence, business, Portable EEG, Vigilance (psychology), media_common

Abstract

Sleeplessness and driver’s drowsiness is one of the reasons leading to accidents. Many studies as well as applied products have been recently developed and integrated into car. However, almost research concentrated on eyes-movement and pupillary stretch. Especially, mobile Electroencephalography (EEG) measurement device becomes new trend thanks to its convenience and affordable price. This research focused on using portable EEG device—EPOC Emotiv for detecting sleep-onset by analyzing power spectrum after filtering frequency band of brain waves. The processed features become the input of Support Vector Machine (SVM) classification and the prerequisite for real-time drowsiness detection. The changes of vigilance state classified by SVM in analysis show the result with over 70% data samples, reliably used in driving safety system in the future.

Published

2019

43. Using long-wear electroencephalography to ascertain the variability of Lempel-Ziv Complexity (LZc) measures of consciousness

Author

Patel, Giana Rose and Patel, Giana Rose

Abstract

It has been recently claimed that measures of spontaneous electroencephalography (EEG) signal complexity, such as Lempel-Ziv Complexity (LZc), can provide an index of an individual’s level of consciousness. Research and clinical practice are currently limited to unreliable behavioural and physiological measures to indicate consciousness. Therefore, there is significant urgency for an objective, reliable, brain-based measure of consciousness. EEG complexity measures utilise algorithms from Information Theory to quantify the diversity in spontaneous EEG data. These are being used to measure the diverse neural activity which necessarily underlies conscious experience. LZc assesses the complexity of multi-channel EEG data using a compression algorithm. Studies of LZc typically involve comparing conditions of altered consciousness with periods of conscious wakefulness. These studies suggest that the change in complexity observed is reflective of the change in level of consciousness. However, very little is known about how LZc varies, either with or without a corresponding change in consciousness. The present study utilised portable long-wear EEG to record multi-day, continuous EEG data from two participants (a total of 8 days for Participant 1 and 4 days for Participant 2). Data from each participant was analysed independently. A LZc algorithm was used to compute a complexity value for every non-overlapping 10-second segment. Results demonstrated that, as with previous research, LZc during Wake (14-hours during the day, multiple days per participant) is, on average, higher than during sleep (Stage N1, Stage N2, Slow-Wave-Sleep, and REM sleep). However, there is considerable variation surrounding these means. Visualising LZc across Wake revealed a consistent but wide spread of variability around the mean, with a scattering of low LZc values reflected by a negative skew in the data. This also results in a wide range of possible mean LZc values made available from taking sa

Published

2019

44. Power consumption of wireless EEG device for BCI application: Portable EEG system for BCI.

Author

Park, Hoyeoul, Myung, Boram, and Yoo, Sun K.

Abstract

Size, weight, and long-lasting battery lifetime are important factors to be considered in designing wireless, portable EEG device for brain-computer applications. Associated with those factors, particularly, the power consumption should be carefully managed and measured during the designing process of EEG device and uses in real operational environment. The designed experimental EEG device is composed of pre-amplifier part, micro-process part, data storage part and data transmission part. Different types of microprocessors, storage chips, and wireless communication chips can be changeable to each designed parts to measure the power consumption in terms of different designing conditions associated with different computational power, data sampling size, and wireless network environment. Throughout the diverse measurements using diverse part components, basic designing and operational conditions associated with power consumption are offered for movable, portable EEG applications. [ABSTRACT FROM PUBLISHER]

Published

2013

45. Inter-scorer reliability of sleep assessment using EEG and EOG recording system in comparison to polysomnography

Author

Shigeru Nonoue, Atsushi Yoshida, Masako Taniike, Midori Mashita, Hirofumi Yatani, Takafumi Kato, Akira Mikami, Shingo Haraki, and Hiroyoshi Adachi

Subjects

medicine.medical_specialty, genetic structures, medicine.diagnostic_test, Physiology, Concordance, Sleep assessment, Polysomnography, Audiology, Electroencephalography, Recording system, Sleep in non-human animals, 03 medical and health sciences, 0302 clinical medicine, Neuropsychology and Physiological Psychology, 030228 respiratory system, Neurology, Physiology (medical), Anesthesia, medicine, Psychology, Portable EEG, 030217 neurology & neurosurgery, Reliability (statistics)

Abstract

There are increasing needs for self-applicable methods assessing sleep in clinical and non-clinical settings. This study aimed to investigate the inter-scorer reliability for the sleep stage scoring and for the sleep variable assessments in the portable electroencephalography (EEG) and electro-oculography (EOG) recording system. Sleep recordings were performed simultaneously with polysomnography (PSG) and portable EEG/EOG recordings in 14 healthy adults. The inter-scorer concordance of the sleep stage scoring was assessed in the two recording methods. Sleep variables were compared between the two methods using the Bland–Altman plots in each scorer. The overall inter-scorer concordance rate of sleep stage scoring for the EEG/EOG data was 85.5 %, and the Cohen’s κ was 0.80 (p

Published

2016

46. A case report of several intraoperative convulsions while using the Narcotrend monitor: Significance and predictive use

Author

Christian Thomas Vetter, Joana Berger-Estilita, Heiko Kaiser, Katharina Steck, Darren Hight, Kathleen Seidel, and Vladimir Krejci

Subjects

medicine.diagnostic_test, business.industry, Broadband noise, medicine.medical_treatment, 610 Medicine & health, General Medicine, Electroencephalography, Irritability, medicine.disease, Intraoperative EEG, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, 030220 oncology & carcinogenesis, Anesthesia, Medicine, 030212 general & internal medicine, medicine.symptom, business, Portable EEG, Depth of anesthesia, Craniotomy

Abstract

INTRODUCTION: Intraoperative seizures under general anesthesia are rare and our observation is the first to demonstrate a distinct electroencephalogram (EEG) pattern on the Narcotrend monitor. PATIENT CONCERNS: We present the case of a 30-year-old man undergoing craniotomy for glioblastoma resection under general anesthesia who suffered tonic-clonic seizures captured in a specific pattern by the intraoperative EEG. DIAGNOSES: Our depth of anesthesia monitor recorded, before the seizure, a widening of the beta-wave performance in a distinct "triangular-shaped" pattern. This pattern was repeated before the second seizure. The patient had no previous history of seizures and following surgery no further seizures were recorded. INTERVENTIONS: A spectrogram analysis showed a distinct increase in mean absolute beta power immediately prior to the first seizure. The EEG immediately prior to the second seizure was characterized by broadband noise. Both seizures were characterized by increased mean absolute delta, theta, and beta power. OUTCOMES: The increase in EEG beta activity seen before the tonic-clonic movements may represent cortical irritability secondary to surgical manipulation, induced by electrical stimulation, reflecting progressive brain over-arousal. The attentive analysis of the relative beta power may have helped forecast the occurrence of the second seizure. LESSONS: We report the use of a simple, inexpensive, and portable EEG-based monitoring device to assist seizure detection and decision making.

Published

2019

47. Validation of a Wireless and Portable EEG Acquisition System with Dry Electrodes

Author

Eric Laciar, A. Garces, C. R. Dell’Aquila, and G. E. Cañadas

Subjects

medicine.diagnostic_test, Noise (signal processing), business.industry, Computer science, Real-time computing, Process (computing), Electroencephalography, Signal, Cerebral activity, medicine, Wireless, business, Portable EEG, Brain–computer interface

Abstract

The Electroencephalogram (EEG) is the non-invasive record of electrical cerebral activity. It is used commonly in sleep studies and in the diagnosis of brain diseases and injuries. In order to reduce noise in the acquisition process and enable new EEG applications such as BCI and home polysomnography studies, we carry out the design and manufacture of a portable wireless system for acquisition of EEG signals. In this paper, we carried out the validation of the system designed by comparing signals acquired with commercial EEG equipment from the AKONIC company. Different EEG recordings were obtained in 4 healthy adult subjects using standard Ag/AgCl cup electrodes and dry electrodes TDE-200 from Florida Research Instruments. Also, we performed the analysis of the acquired signals in eyes-closed and eyes-open resting condition. We conclude that the designed system has low noise levels (0.147 μVRMS and 0.984 μVp-p) and a signal quality comparable to that of commercial equipment, which allows its use in research tasks and portable studies. On the other hand, we observe that the quality of the signal obtained with the dry electrodes is worse, due to the high skin-electrode impedance, but even so it is good enough to detect the eyes-closed and eyes-open resting condition, allowing a more comfortable use of the system.

Published

2018

48. The Effects of Cranio-Sacral Therapy on Brain Function Quotient of Elderly with Long-term Care Insurance Service

Author

Jung-Eun Lee

Subjects

030506 rehabilitation, medicine.medical_specialty, Cranio sacral therapy, medicine.disease_cause, 030205 complementary & alternative medicine, 03 medical and health sciences, 0302 clinical medicine, Measurement device, Physical therapy, medicine, Psychological stress, Long-term care insurance, 0305 other medical science, Psychology, human activities, Portable EEG, Brain function, Quotient, Balance (ability)

Abstract

This study was performed to identify the effects of the improvement of brain function by CST on the elderly with the 2nd or 3rd grade of long-term care insurance service. A quasi-experimental design using a nonequivalent control group, pre-post test was used. A total of 12 elders (6 in the experimental group and 6 in the control group) were recruited. Upledger CST(10-Step Protocol) was performed on each subject for 50 minutes per session, once a week, for a total of 8 treatments over an 8 week period from Jan to Feb 2015. The brain function quotient was measured before the 1st CST and after the last CST by portable EEG measurement device using a 2 Channel neuro-feedback system. The data was analyzed by SPSS (Ver. 18.0) program. After CST intervention, the attention quotient (AQ), level of tension, anti-stress quotient (ASQ), emotion quotient (EQ) and brain quotient (BQ) of the experimental group was significantly better than that of the control group. These results showed that the CST was effective in reducing the level of fatigue by the AQ, increasing the physical and psychological stress relief by the ASQ, emotional balance by the EQ, and improving the total brain function by the BQ. Therefore, CST can be used as an effective intervention for improving the health and brain function of the elderly in health facilities.

Published

2016

49. Human Brain Activity Measurement Using EEG

Author

Zhang, Qi

Subjects

高密度脳波計測, portable EEG, dense array EEG, 脳活動計, 携帯型脳波計測, brain activity measurement, EEG, 脳波計測, electroencephalogram

Abstract

：Brain activity measurement has become a useful tool to deepen our understanding of human beings as well as to develop new applications to improve the quality of people’s life. Though EEG (electroencephalogram) has a history of about 90 years in measuring human brain activities, it is still a popular method nowadays in both medical fronts and other research fields, such as neuroscience, psychology, physiology and engineering. The EEG devices have evolved dramatically in different directions to fit the measurement requirements with high spatial resolution or portable convenience. In this paper, the history of the non-invasive human brain activity measurement is looked back briefly. Then the mechanism of EEG and its evolvement are reviewed. Different types of EEG as well as their typical applications are introduced. Finally, the potential prospects of EEG are surveyed.脳活動計測は人間を理解するための有効なツールであり、その応用は生活の質を向上するにも役立つ。EEG は約90 年の歴史を持ちながら、現在でも医療現場や神経科学、心理学、生理学、工学などの研究分野で活用されている。EEG 装置は高い空間分解能や持ち運び便利さなどの要求に応じて、異なる方向に進化してきた。本論文は、人間の非侵襲脳活動計測の歴史を振り返し、EEG の仕組みやその進化を説明する上、異なるタイプのEEG 及び応用を紹介する。最後にEEG の将来を展望する。

Published

2015

50. Towards an Automated Portable Electroencephalography-based System for Alzheimer’s Disease Diagnosis.

Author

Cassani Gonzalez, Raymundo and Cassani Gonzalez, Raymundo

Abstract

La maladie d’Alzheimer (MA) est une maladie neurodégénérative terminale qui représente près de 70% des cas de démence. L’incidence mondiale de la démence devrait atteindre 75 millions d’individus d’ici 2030, dont la majorité des personnes atteintes viendraient de pays à revenus faibles ou moyens. Bien qu’il n’y ait pas de traitement curatif pour la MA, un diagnostic précoce peut améliorer la qualité de vie des patients atteints de la MA et de leurs soignants. Actuellement, le diagnostic de la MA est effectué à l’aide de tests d’évaluation de l’état mental, d’examens de neuroimagerie coûteux et de tests de laboratoire invasifs, ce qui rend le diagnostic long et onéreux. Toutefois, l’électroencéphalographie (EEG), en particulier l’EEG à l’état de repos (rsEEG), est apparue au cours de la dernière décennie comme une technique alternative pour le diagnostic de la MA offrant des précisions comparables à celles d’outils de neuroimagerie plus coûteux, tels la tomodensitométrie et la tomographie par émission de positrons. Cependant, l’utilisation de la rsEEG pour le diagnostic de la MA présente deux inconvénients majeurs: (i) la dépendance à des segments «sans artefacts», sélectionnés manuellement et méticuleusement par des cliniciens experts, et (ii) le besoin d’appareils EEG de qualité médicale et convenant à la recherche comportant souvent plus de 16 électrodes, ce qui les rend difficiles à transporter et coûteux, en particulier pour les pays à revenus faibles ou intermédiaires. Dans cette thèse de doctorat, nous présentons les étapes vers le développement d’un système automatisé basé sur la rsEEG portable et peu coûteux pour le diagnostic de la maladie d’Alzheimer. Pour atteindre cet objectif, trois innovations principales ont été développées. Premièrement, nous avons exploré les effets de plusieurs méthodes de manipulation automatisée des artefacts (MAA) sur les signaux rsEEG et nous avons étudié leurs avantages et désavantages pour le diagnostic automatisé de la MA. L

Published

2018