Extended Reality–Based Mobile App Solutions for the Therapy of Children With Autism Spectrum Disorders: Systematic Literature Review

Toma, Marian-Vladut; Turcu, Cristina Elena; Turcu, Corneliu Octavian; Vlad, Sorin; Tiliute, Doru Eugen; Pascu, Paul

doi:10.2196/49906

Cited by 5 publications

References 98 publications

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How people with brain injury run and evaluate a SLAM‐based smartphone augmented reality application to assess object‐location memory

Mendez‐Lopez,

Juan,

Burgos

et al. 2024

PsyCh Journal

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Augmented reality (AR) technology allows virtual objects to be superimposed on the real‐world environment, offering significant potential for improving cognitive assessments and rehabilitation processes in the field of visuospatial learning. This study examines how patients with acquired brain injury (ABI) evaluate the functions and usability of a SLAM‐based smartphone AR app to assess object‐location skills. Ten ABI patients performed a task for the spatial recall of four objects using an AR app. The data collected from 10 healthy participants provided reference values for the best performance. Their perceptions of the AR app/technology and its usability were investigated. The results indicate lower effectiveness in solving the task in the patient group, as the time they needed to complete it was related to their level of impairment. The patients showed lower, yet positive, scores in factors related to app usability and acceptance (e.g., mental effort and satisfaction, respectively). There were more patients reported on entertainment as a positive aspect of the app. Patients' perceived enjoyment was related to concentration and calm, whereas usability was associated with perceived competence, expertise, and a lower level of physical effort. For patients, the sensory aspects of the objects were related to their presence, while for healthy participants, they were related to enjoyment and required effort. The results show that AR seems to be a promising tool to assess spatial orientation in the target patient population.

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How people with brain injury run and evaluate a SLAM‐based smartphone augmented reality application to assess object‐location memory

Mendez‐Lopez,

Juan,

Burgos

et al. 2024

PsyCh Journal

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A Systematic Literature Review of XR Interventions to Improve Motor Skills Development Among Autistic Children

Power,

Kennedy,

Cleary

et al. 2024

IEEE Access

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Automated Detection of Neurodevelopmental Disorders Using Face-to-Face Mobile Technology Among Typically Developing Greek Children: Randomized Controlled Trial

Toki,

Zakopoulou,

Tatsis

et al. 2024

JMIR Form Res

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Background: Neurodevelopmental disorders (NDs) are characterized by heterogeneity, complexity, and interactions among multiple domains with long-lasting effects in adulthood. Identifying and assessing children at risk for NDs is crucial. However, many children remain misdiagnosed, missing out on opportunities for effective interventions. Digital tools can help clinicians assist and identify NDs. The concept of using serious games to enhance healthcare has gained attention among a growing group of scientists, entrepreneurs, and clinicians.Objective: This study aims to define the main principles of automated mobile NDs detection. Methods:In this study, 229 children aged 4 to 12 participated after responding to an open call. Children with neurodevelopmental disorders, other conditions, or those taking medication were not included in the study. Parents provided consent for their children to participate. Children interacted face-to-face with a mobile serious game called 'Apsou'. The game was designed to measure 18 primary domains including speech, language, psychomotor, cognitive, psychoemotional, and hearing abilities. The measurements were based on the children's performance in specific tasks such as gameplay and verbal responses. The data collected was analyzed using descriptive statistics and Principal Component Analysis (PCA).Results: A sample of 229 typically developing preschoolers and early school-aged children played the Apsou mobile serious game for automated detection of NDs. Performing a PCA, the findings identified five main components accounting for about 80% of the data variability that potentially have significant prognostic implications for a safe diagnosis of neurodevelopmental disorders. Varimax rotation explained 61.44% of the total variance. The results underscore key theoretical principles crucial for the automated detection of Neurodevelopmental Disorders. These principles encompass communication skills, speech and language development, vocal processing, cognitive and sensory functions, and visual-spatial skills. The components identified in this study align with the theoretical principles of typically developmental domains described in other studies, further validating the robustness of our findings. Conclusions:The findings of this study underscore the core developmental domains, crucial for a comprehensive model leading to highly accurate predictions and classifications for automated screening, diagnosis, prognosis, or intervention planning in NDs. Importantly, these findings offer valuable insights for creating machine learning applications to support clinical decision-making. Clinical Trial: 18435-15.05.2020 approved by the

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Extended Reality–Based Mobile App Solutions for the Therapy of Children With Autism Spectrum Disorders: Systematic Literature Review

Cited by 5 publications

References 98 publications

How people with brain injury run and evaluate a SLAM‐based smartphone augmented reality application to assess object‐location memory

How people with brain injury run and evaluate a SLAM‐based smartphone augmented reality application to assess object‐location memory

A Systematic Literature Review of XR Interventions to Improve Motor Skills Development Among Autistic Children

Automated Detection of Neurodevelopmental Disorders Using Face-to-Face Mobile Technology Among Typically Developing Greek Children: Randomized Controlled Trial

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