2024
Antle, Alissa N., McLaren, Elgin-Skye
Are mobile neurofeedback games a feasible way to improve self-regulation of attention for young marginalized children? Journal Article
In: International Journal of Child-Computer Interaction, vol. 42, pp. 100690, 2024.
Abstract | Links | BibTeX | Tags: mindfull
@article{ANTLE2024100690,
title = {Are mobile neurofeedback games a feasible way to improve self-regulation of attention for young marginalized children?},
author = {Alissa N. Antle and Elgin-Skye McLaren},
url = {https://www.sciencedirect.com/science/article/pii/S221286892400059X},
doi = {doi.org/10.1016/j.ijcci.2024.100690},
year = {2024},
date = {2024-09-13},
urldate = {2024-09-13},
journal = {International Journal of Child-Computer Interaction},
volume = {42},
pages = {100690},
abstract = {Interactive technology-mediated behavioral interventions are increasingly being studied with children at risk for attentional challenges. Few technology-mediated interventions have been designed for, or studied in the field with, marginalized children, who are at an elevated risk for attentional challenges. We adapted three existing neurofeedback games to create a proof-of-concept intervention to address this research gap. To investigate preliminary feasibility and efficacy we conducted a controlled field experiment with 28 children (aged 5 to 8, 22 male) from a disadvantaged community. Findings showed that with support all children were able to complete the intervention, and most were able to transfer newly attained attention regulation skills into everyday situations and maintain those skills over time. Our work serves as a proof-of-concept for this type of technology-mediated mental health intervention research, provides an exemplar of digital health research with hard-to-reach populations, and provides preliminary evidence that this research space warrants future attention.
},
keywords = {mindfull},
pubstate = {published},
tppubtype = {article}
}
Interactive technology-mediated behavioral interventions are increasingly being studied with children at risk for attentional challenges. Few technology-mediated interventions have been designed for, or studied in the field with, marginalized children, who are at an elevated risk for attentional challenges. We adapted three existing neurofeedback games to create a proof-of-concept intervention to address this research gap. To investigate preliminary feasibility and efficacy we conducted a controlled field experiment with 28 children (aged 5 to 8, 22 male) from a disadvantaged community. Findings showed that with support all children were able to complete the intervention, and most were able to transfer newly attained attention regulation skills into everyday situations and maintain those skills over time. Our work serves as a proof-of-concept for this type of technology-mediated mental health intervention research, provides an exemplar of digital health research with hard-to-reach populations, and provides preliminary evidence that this research space warrants future attention.
2019
Antle, Alissa N., McLaren, Elgin-Skye, Fiedler, Holly, Johnson, Naomi
Evaluating the Impact of a Mobile Neurofeedback App for Young Children at School and Home Proceedings Article
In: Proceedings of the 2019 CHI Conference on Human Factors in Computing Systems, pp. 1–13, Association for Computing Machinery, Glasgow, Scotland Uk, 2019, ISBN: 9781450359702.
Abstract | Links | BibTeX | Tags: brain computer interfaces, children, field studies, hci for mental health, mindfull, positive computing, self-regulation
@inproceedings{10.1145/3290605.3300266,
title = {Evaluating the Impact of a Mobile Neurofeedback App for Young Children at School and Home},
author = {Alissa N. Antle and Elgin-Skye McLaren and Holly Fiedler and Naomi Johnson},
url = {https://doi.org/10.1145/3290605.3300266},
doi = {10.1145/3290605.3300266},
isbn = {9781450359702},
year = {2019},
date = {2019-01-01},
urldate = {2019-01-01},
booktitle = {Proceedings of the 2019 CHI Conference on Human Factors in Computing Systems},
pages = {1–13},
publisher = {Association for Computing Machinery},
address = {Glasgow, Scotland Uk},
series = {CHI '19},
abstract = {About 18% of children in industrialized countries suffer from anxiety. We designed a mobile neurofeedback app, called Mind-Full, based on existing design guidelines. Our goal was for young children in lower socio-economic status schools to improve their ability to self-regulate anxiety by using Mind-Full. In this paper we report on quantitative outcomes from a sixteen-week field evaluation with 20 young children (aged 5 to 8). Our methodological contribution includes using a control group, validated measures of anxiety and stress, and assessing transfer and maintenance. Results from teacher and parent behavioral surveys indicated gains in children's ability to self-regulate anxiety at school and home; a decrease in anxious behaviors at home; and cortisol tests showed variable improvement in physiological stress levels. We contribute to HCI for mental health with evidence that it is viable to use a mobile app in lower socio-economic status schools to improve children's mental health.},
keywords = {brain computer interfaces, children, field studies, hci for mental health, mindfull, positive computing, self-regulation},
pubstate = {published},
tppubtype = {inproceedings}
}
About 18% of children in industrialized countries suffer from anxiety. We designed a mobile neurofeedback app, called Mind-Full, based on existing design guidelines. Our goal was for young children in lower socio-economic status schools to improve their ability to self-regulate anxiety by using Mind-Full. In this paper we report on quantitative outcomes from a sixteen-week field evaluation with 20 young children (aged 5 to 8). Our methodological contribution includes using a control group, validated measures of anxiety and stress, and assessing transfer and maintenance. Results from teacher and parent behavioral surveys indicated gains in children's ability to self-regulate anxiety at school and home; a decrease in anxious behaviors at home; and cortisol tests showed variable improvement in physiological stress levels. We contribute to HCI for mental health with evidence that it is viable to use a mobile app in lower socio-economic status schools to improve children's mental health.
2018
Antle, Alissa N., Chesick, Leslie, Mclaren, Elgin-Skye
Opening up the Design Space of Neurofeedback Brain--Computer Interfaces for Children Journal Article
In: ACM Trans. Comput.-Hum. Interact., vol. 24, no. 6, 2018, ISSN: 1073-0516.
Abstract | Links | BibTeX | Tags: Brain-computer interfaces, children, conceptual framework, design, mental health, mindfull, self-regulation, strong concepts
@article{10.1145/3131607,
title = {Opening up the Design Space of Neurofeedback Brain--Computer Interfaces for Children},
author = {Alissa N. Antle and Leslie Chesick and Elgin-Skye Mclaren},
url = {https://doi.org/10.1145/3131607},
doi = {10.1145/3131607},
issn = {1073-0516},
year = {2018},
date = {2018-01-01},
urldate = {2018-01-01},
journal = {ACM Trans. Comput.-Hum. Interact.},
volume = {24},
number = {6},
publisher = {Association for Computing Machinery},
address = {New York, NY, USA},
abstract = {Brain--computer interface applications (BCIs) utilizing neurofeedback (NF) can make invisible brain states visible in real time. Learning to recognize, modify, and regulate brain states is critical to all children's development and can improve learning, and emotional and mental health outcomes. How can we design usable and effective NF BCIs that help children learn and practice brain state self-regulation? Our contribution is a list of challenges for this emerging design space and a conceptual framework that addresses those challenges. The framework is composed of five interrelated strong concepts that we adapted from other design spaces. We derived the concepts reflectively, theoretically, and empirically through a design research process in which we created and evaluated a NF BCI, called Mind-Full, designed to help children living in Nepal who had suffered from complex trauma learn to self-regulate anxiety and attention. We add rigor to our derivation methodology by horizontally and vertically grounding our concepts, that is, relating them to similar concepts in the literature and instantiations in other artifacts. We illustrate the generative power of the concepts and the inter-relationships between them through the description of two new NF BCIs we created using the framework for urban and indigenous children with anxiety and attentional challenges. We then show the versatility of our framework by describing how it inspired and informed the conceptual design of three NF BCIs for different types of self-regulation: selective attention and working memory, pain management, and depression. Last, we discuss the contestability, defensibility, and substantiveness of our conceptual framework in order to ensure rigor in our research design process. Our contribution is a rigorously derived design framework that opens up this new and emerging design space of NF BCI's for children for other researchers and designers.},
keywords = {Brain-computer interfaces, children, conceptual framework, design, mental health, mindfull, self-regulation, strong concepts},
pubstate = {published},
tppubtype = {article}
}
Brain--computer interface applications (BCIs) utilizing neurofeedback (NF) can make invisible brain states visible in real time. Learning to recognize, modify, and regulate brain states is critical to all children's development and can improve learning, and emotional and mental health outcomes. How can we design usable and effective NF BCIs that help children learn and practice brain state self-regulation? Our contribution is a list of challenges for this emerging design space and a conceptual framework that addresses those challenges. The framework is composed of five interrelated strong concepts that we adapted from other design spaces. We derived the concepts reflectively, theoretically, and empirically through a design research process in which we created and evaluated a NF BCI, called Mind-Full, designed to help children living in Nepal who had suffered from complex trauma learn to self-regulate anxiety and attention. We add rigor to our derivation methodology by horizontally and vertically grounding our concepts, that is, relating them to similar concepts in the literature and instantiations in other artifacts. We illustrate the generative power of the concepts and the inter-relationships between them through the description of two new NF BCIs we created using the framework for urban and indigenous children with anxiety and attentional challenges. We then show the versatility of our framework by describing how it inspired and informed the conceptual design of three NF BCIs for different types of self-regulation: selective attention and working memory, pain management, and depression. Last, we discuss the contestability, defensibility, and substantiveness of our conceptual framework in order to ensure rigor in our research design process. Our contribution is a rigorously derived design framework that opens up this new and emerging design space of NF BCI's for children for other researchers and designers.