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- Efficacy of adaptive cognitive training through desktop virtual reality and paper-and-pencil in the treatment of mental and behavioral disordersPublication . Câmara, Joana; Ferreira, Rute; Teixeira, Liliana; Nóbrega, Joana; Romeira, Carina; Bermúdez i Badia, Sergi; Faria, Ana LúciaCognitive defcits are a core feature of mental and behavioral disorders, leading to poor treatment adherence and functional ity. Virtual reality (VR) methodologies are promising solutions for cognitive interventions in psychiatry once they provide greater ecological validity. This study assessed and compared two content-equivalent cognitive training (CT) interventions, delivered in desktop VR (Reh@City v2.0) and paper-and-pencil (Task Generator (TG)) formats, in patients with mental and behavioral disorders. 30 patients were randomly assigned to the Reh@City v2.0 group and the TG group. Both groups of patients underwent a time-matched 24-sessions intervention. Neuropsychological assessments were performed at baseline, post-intervention, and follow-up. A within-groups analysis revealed signifcant improvements in visual memory and depres sive symptomatology after the Reh@City intervention. The TG group improved in processing speed, verbal memory, and quality of life (social relationships and environmental domains). Between groups, Reh@City led to a greater reduction in depressive symptomatology, whereas the TG group showed higher improvements in social relationships aspects of quality of life. At follow-up, previous gains were maintained and new improvements found in the Reh@City (global cognitive func tion, language, visuospatial and executive functions) and the TG groups (attention). The Reh@City signifcantly reduced depressive symptomatology, and the TG led to greater improvements in processing speed, abstraction, and social relationships domain of quality of life at follow-up. Both interventions were associated with important cognitive, emotional, and quality of life benefts, which were maintained after two months. Reh@City and TG should be considered as complementary CT methods for patients with mental and behavioral disorders. Trial registration The trial is registered at ClinicalTrials.gov, number NCT04291586.
- Capturing expert knowledge for the personalization of cognitive rehabilitation: study combining computational modeling and a participatory design strategyPublication . Faria, Ana Lúcia; Pinho, Maria Salomé; Bermúdez i Badia, SergiBackground: Cognitive impairments after stroke are not always given sufficient attention despite the critical limitations they impose on activities of daily living (ADLs). Although there is substantial evidence on cognitive rehabilitation benefits, its implementation is limited because of time and human resource’s demands. Moreover, many cognitive rehabilitation interventions lack a robust theoretical framework in the selection of paper-and-pencil tasks by the clinicians. In this endeavor, it would be useful to have a tool that could generate standardized paper-and-pencil tasks, parameterized according to patients' needs. Objective: In this study, we aimed to present a framework for the creation of personalized cognitive rehabilitation tasks based on a participatory design strategy. Methods: We selected 11 paper-and-pencil tasks from standard clinical practice and parameterized them with multiple configurations. A total of 67 tasks were assessed according to their cognitive demands (attention, memory, language, and executive functions) and overall difficulty by 20 rehabilitation professionals. Results: After assessing the internal consistency of the data—that is, alpha values from .918 to .997—we identified the parameters that significantly affected cognitive functions and proposed specific models for each task. Through computational modeling, we operationalized the tasks into their intrinsic parameters and developed a Web tool that generates personalized paper-and-pencil tasks—the Task Generator (TG). Conclusions: Our framework proposes an objective and quantitative personalization strategy tailored to each patient in multiple cognitive domains (attention, memory, language, and executive functions) derived from expert knowledge and materialized in the TG app, a cognitive rehabilitation Web tool.
- RehabNet: a distributed architecture for motor and cognitive neuro-rehabilitationPublication . Vourvopoulos, Athanasios; Faria, Ana Lúcia; Cameirão, Mónica S.; Bermúdez i Badia, SergiEvery year millions of people worldwide suffer from stroke, resulting in motor and/or cognitive disability. As a result, patients experience an increased loss of independence, autonomy and low self-esteem. Evolving to a chronic condition, stroke requires of continuous rehabilitation and therapy. Current ICT approaches, with the use of robotics and Virtual Reality, show some benefits over conventional therapy. However, most of the novel approaches are suitable only for a reduced subset of patients. RehabNet proposes an inclusive approach towards an open and distributed architecture for ‘in-home’ neurorehabilitation and monitoring by means of non-invasive ICT. In this paper we present the RehabNet architecture, its design and the implementation of a combined motor-and-cognitive system for post-stroke rehabilitation.
- The impact of positive, negative and neutral stimuli in a virtual reality cognitive-motor rehabilitation task: a pilot study with stroke patientsPublication . Cameirão, Mónica S.; Faria, Ana Lúcia; Paulino, Teresa; Alves, Júlio; Bermúdez i Badia, SergiBackground: Virtual Reality (VR) based methods for stroke rehabilitation have mainly focused on motor rehabilitation, but there is increasing interest in integrating motor and cognitive training to increase similarity to real-world settings. Unfortunately, more research is needed for the definition of which type of content should be used in the design of these tools. One possibility is the use of emotional stimuli, which are known to enhance attentional processes. According to the Socioemotional Selectivity Theory, as people age, the emotional salience arises for positive and neutral, but not for negative stimuli. Methods: For this study we developed a cognitive-motor VR task involving attention and short-term memory, and we investigated the impact of using emotional images of varying valence. The task consisted of finding a target image, shown for only two seconds, among fourteen neutral distractors, and selecting it through arm movements. After performing the VR task, a recall task took place and the patients had to identify the target images among a valence-matched number of distractors. Ten stroke patients participated in a within-subjects experiment with three conditions based on the valence of the images: positive, negative and neutral. Eye movements were recorded during VR task performance with an eye tracking system. Results: Our results show decreased attention for negative stimuli in the VR task performance when compared to neutral stimuli. The recall task shows significantly more wrongly identified images (false memories) for negative stimuli than for neutral. Regression and correlation analyses with the Montreal Cognitive Assessment and the Geriatric Depression Scale revealed differential effects of cognitive function and depressive symptomatology in the encoding and recall of positive, negative and neutral images. Further, eye movement data shows reduced search patterns for wrongly selected stimuli containing emotional content. Conclusions: The results of this study suggest that it is feasible to use emotional content in a VR based cognitivemotor task for attention and memory training after stroke. Stroke survivors showed less attention towards negative information, exhibiting reduced visual search patterns and more false memories. We have also shown that the use of emotional stimuli in a VR task can provide additional information regarding patient’s mood and cognitive status.
- Feasibility, Acceptability, and Preliminary Impact of Full-Body Interaction on Computerized Cognitive Training Based on Instrumental Activities of Daily Living: A Pilot Randomized Controlled Trial with Chronic Psychiatric InpatientsPublication . Câmara, Joana; Ferreira, Luis; Faria, Ana Lúcia; Vilar, Manuela; Bermúdez i Badia, SergiObjective: To conduct a pilot randomized control trial to assess the feasibility and acceptability of full-body interaction cognitive training (FBI-CT) inspired by instrumental activities of daily living in chronic psychiatric inpatients and to explore its preliminary impact on cognitive and noncognitive outcomes. Materials and Methods: Twenty psychiatric inpatients met the inclusion criteria and were randomly allocated to the FBI-CT group (n = 10) or the tablet-based CT group (T-CT) (n = 10). Neuropsychological assessments were performed at baseline, postintervention, and 3-month follow-up. Results: Both groups presented high completion rates at postintervention and follow-up. Participants reported high satisfaction following the interventions, with the FBI-CT group exhibiting slightly higher satisfaction. A within-group analysis showed significant improvements in the FBI-CT group for processing speed and sustained attention for short periods (P = 0.012), verbal memory (P = 0.008), semantic fluency (P = 0.027), depressive symptoms (P = 0.008), and quality of life (P = 0.008) at postintervention. At 3-month follow-up, this group maintained verbal memory improvements (P = 0.047) and depressive symptoms amelioration (P = 0.026). The T-CT group revealed significant improvements in sustained attention for long periods (P = 0.020), verbal memory (P = 0.014), and executive functions (P = 0.047) postintervention. A between-group analysis demon strated that the FBI-CT group exhibited greater improvements in depressive symptoms (P = 0.042). Conclusions: Overall, we found support for the feasibility and acceptability of both training approaches. Our findings show promise regarding the preliminary impact of the FBI-CT intervention, but due to study limitations such as the small sample size, we cannot conclude that FBI-CT is a more effective approach than T-CT for enhancing cognitive and noncognitive outcomes of chronic psychiatric inpatients. Clinical trials (number: NCT05100849).
- TREINO COGNITIVO NO PÓS-AVC: UM ESTUDO-PILOTO COM A PLATAFORMA NEUROAIREH@BPublication . Câmara, Joana; Paulino, Teresa; Spínola, Mónica; Branco, Diogo; Cameirão, Mónica; Faria, Ana Lúcia; Ferreira, Luis; Moreira, André; Silva, Ana Rita; Vilar, Manuela; Simões, Mário; Bermúdez i Badia, Sergi; Fermé, EduardoO treino cognitivo (TC) através das novas tecnologias representa uma estratégia de intervenção promissora na mitigação dos défices cognitivos pós-AVC. Neste estudo-piloto, avaliamos o impacto a curto prazo de um novo sistema de TC com maior validade ecológica – a plataforma NeuroAIreh@b –, numa amostra de sobreviventes de AVC na fase crónica. Recrutámos dez sobreviventes de AVC que foram submetidos a uma avaliação neuropsicológica (ANP) pré intervenção. Posteriormente, iniciaram uma intervenção de TC implementada via tablet, com recurso à versão protótipo da plataforma NeuroAIreh@b, envolvendo oito sessões de 45 minutos. Nestas sessões, realizaram quatro tipos de tarefas de TC baseadas em atividades de vida diária (AVDs) (por ex., selecionar os ingredientes corretos para fazer uma receita, pagar as compras no supermercado). Foram efetuadas ANPs pós-intervenção para avaliar o impacto da intervenção a curto prazo. Uma análise intra-grupal com o teste de Wilcoxon revelou diferenças estatisticamente significativas no Montreal Cognitive Assessment (MoCA) e na pontuação total do Inventário de Avaliação Funcional de Adultos e Idosos (IAFAI). Globalmente, o TC através da plataforma NeuroAIreh@b parece ser benéfico na fase crónica do AVC, conduzindo a ganhos na cognição geral (MoCA) e na capacidade funcional (IAFAI). Estes resultados preliminares com a versão protótipo da plataforma NeuroAIreh@b são encorajadores e sugerem a generalização dos ganhos obtidos em contexto terapêutico para as AVDs.
- Personalizing paper-and-pencil training for cognitive rehabilitation: a feasibility study with a web-based Task GeneratorPublication . Faria, Ana Lúcia; Bermúdez i Badia, SergiCognitive impairments impose important limitations in the performance of activities of daily living. Although there is important evidence on cognitive rehabilitation benefits, its implementation is limited due to the demands in terms of time and human resources. Moreover, many cognitive rehabilitation interventions lack a solid theoretical framework in the selection of paper-and-pencil tasks by the clinicians. In this endeavor, it would be useful to have a tool that could generate standardized paper-and pencil tasks, customized according to patients’ needs. Combining the advantages of information and communication technologies (ICT’s) with a participatory design approach involving 20 health professionals, a novel web-tool for the generation of cognitive rehabilitation training was developed: the Task Generator (TG). The TG is a web-based tool that systematically addresses multiple cognitive domains, and easily generates highly personalized paper and-pencil training tasks. A clinical evaluation of the TG with twenty stroke patients showed that, by enabling the adaptation of task parameters and difficulty levels according to patient cognitive assessment, this tool provides a comprehensive cognitive training.
- Do papel-e-lápis à realidade virtual: uma nova abordagem para reabilitação cognitiva personalizadaPublication . Faria, Ana Lúcia; Pinho, Maria Salomé; Bermúdez i Badia, Sergi
- Reh@City v2.0: a comprehensive virtual reality cognitive training system based on personalized and adaptive simulations of activities of daily livingPublication . Paulino, Teresa; Faria, Ana Lúcia; Bermúdez i Badia, SergiCognitive impairments are among the most common age-related disabilities worldwide. Literature has shown that cognitive training using Virtual Reality (VR) systems can be a valid and effective solution for cognitive rehabilitation. Virtual environments can be easily customized to deliver very specific training by controlling the presentation of stimuli and keeping track of the user responses. Reh@City (RC) is a virtual reality simulation of a city where patients can train a variety of cognitive skills while performing simulated activities of daily living. An initial prototype of this city with four environments was clinically validated with a stroke sample, and the encouraging results motivated further iterations and improvements in the RC, in terms of its tasks, interaction with the content, and task adaptation. This paper presents the efforts of creating RC v2.0, a VR-based software system for cognitive rehabilitation that presents different cognitive training tasks that take place in 8 realistically modeled 3D environments, that are personalized to the patient clinical profile and also implements automatic difficulty adaptation.
- Benefits of virtual reality based cognitive rehabilitation through simulated activities of daily living: a randomized controlled trial with stroke patientsPublication . Faria, Ana Lúcia; Andrade, Andreia; Soares, Luísa; Bermúdez i Badia, SergiBackground: Stroke is one of the most common causes of acquired disability, leaving numerous adults with cognitive and motor impairments, and affecting patients’ capability to live independently. There is substancial evidence on post-stroke cognitive rehabilitation benefits, but its implementation is generally limited by the use of paper-and-pencil methods, insufficient personalization, and suboptimal intensity. Virtual reality tools have shown potential for improving cognitive rehabilitation by supporting carefully personalized, ecologically valid tasks through accessible technologies. Notwithstanding important progress in VR-based cognitive rehabilitation systems, specially with Activities of Daily Living (ADL’s) simulations, there is still a need of more clinical trials for its validation. In this work we present a one-month randomized controlled trial with 18 stroke in and outpatients from two rehabilitation units: 9 performing a VR-based intervention and 9 performing conventional rehabilitation. Methods: The VR-based intervention involved a virtual simulation of a city – Reh@City - where memory, attention, visuo-spatial abilities and executive functions tasks are integrated in the performance of several daily routines. The intervention had levels of difficulty progression through a method of fading cues. There was a pre and postintervention assessment in both groups with the Addenbrooke Cognitive Examination (primary outcome) and the Trail Making Test A and B, Picture Arrangement from WAIS III and Stroke Impact Scale 3.0 (secondary outcomes). Results: A within groups analysis revealed significant improvements in global cognitive functioning, attention, memory, visuo-spatial abilities, executive functions, emotion and overall recovery in the VR group. The control group only improved in self-reported memory and social participation. A between groups analysis, showed significantly greater improvements in global cognitive functioning, attention and executive functions when comparing VR to conventional therapy. Conclusions: Our results suggest that cognitive rehabilitation through the Reh@City, an ecologically valid VR system for the training of ADL’s, has more impact than conventional methods. Trial registration: This trial was not registered because it is a small sample study that evaluates the clinical validity of a prototype virtual reality system.