Rehabilitación neuropsicológica holística: evolución cognitiva y calidad de vida de pacientes con daño cerebral adquirido / Holistic Neuropsychological Rehabilitation: Cognitive Outcome and Quality of Life in Patients with Acquired Brain Injury

El daño cerebral adquirido (DCA) puede provocar secuelas físicas, motrices, neuropsicológicas y generar una discapacidad en las personas afectadas. La rehabilitación neuropsicológica holística trata de reducir las secuelas cognitivas, conductuales, emocionales y sociales. El abordaje holístico plantea un trabajo que combine intervenciones individuales, grupales, la práctica en entornos lo más reales posible, así como la intervención familiar y vocacional. Este tipo de rehabilitación busca generalizar los resultados alcanzados a la vida cotidiana, para incrementar la funcionalidad, autonomía y calidad de vida. El objetivo del estudio fue analizar y comparar el rendimiento cognitivo y la calidad de vida percibida, antes y después de realizar un programa holístico de rehabilitación neuropsicológica con actividades en entornos reales. Se analizó una muestra de 20 personas con DCA. Se administraron pruebas de evaluación neuropsicológica de atención, memoria, funciones ejecutivas y calidad de vida. Los resultados mostraron diferencias estadísticamente significativas en el rendimiento de atención, memoria de trabajo, funciones ejecutivas y calidad de vida. Estos hallazgos sugieren que la rehabilitación neuropsicológica holística, que englobe el trabajo en entornos reales, podría contribuir a alcanzar posibles mejoras en la generalización de la evolución cognitiva a la vida cotidiana y ayudar a incrementar la calidad de vida de las personas con DCA. (AU)

Acquired brain injury (ABI) could cause physical, motor, neuropsychological, and generate a disability on affected people. The holistic neuropsychological rehabilitation attemps to reduce cognitive, behavioural, emotional and social sequels. Holistic approach propose a combined work of individual and grupal interventions, training in environments the most real as possible, as well as the family and vocational interventions. The goal of this rehabilitation is to generalise the achieved results to the patient’s daily life to increase their functional, autonomy and their quality of life. The aim of this study was to analyse and compare the cognitive performance, and quality of life, before and after to follow a holistic neuropsychological rehabilitation program that included activities on real environment. A sample of 20 persons with ABI was studied. Neuropsychological assessment tests of attention, memory, executive funcions and quality of life were apply. Results showed statistically significant differences on attention, memory and executive functions performance and in quality of life. These findings suggest that holistic neuropsychological rehabilitation, that included the work on real environments, could contribute to generalizing the cognitive outcome to daily life and help to increase quality of life of ABI persons. (AU)

Video game-based and conventional therapies in patients of neurological deficits: an experimental study.

PURPOSE: In the past few years, medicine has upgraded its therapeutic techniques and practices, with the use of various modern methods that are due to advancement in technology and sciences. It is recognized that the physical health of the patients is significantly associated to their mental state, their motivation and engagement in overcoming the illness. This paper presents experimental comparison between virtual reality (VR) technology and conventional mode of therapy for physical rehabilitation among patients of neurological deficits. The objective was to explore the effectiveness of VR during physical interactions with different game-like virtual environment and potentially leading to increased mental health (i.e., lower depression, anxiety and stress), self-esteem, social support and intrinsic motivation (task-based competence, choice and interest). METHOD: The study sample consisted of thirty-four subjects with Cerebral palsy (CP), Traumatic brain injury (TBI), Spinal cord injury, Stroke and Parkinson's disease; divided into two experimental groups virtual reality exercise group (n = 17), and conventional therapy group (n = 17); who have upper- or lower-limb impairment. RESULTS: The outcome measures revealed significant differences across pretest and post-test conditions of both the experimental groups. Findings emerged from the study showed noticeable effectiveness of virtual-reality based rehabilitation in TBI, stroke and CP patients. Relationships between study variables and demographic variables (age and gender) were also presented. CONCLUSION: This study opens the way for future researchers, psychologists, physiotherapist and other practitioners to do more extensive work in the domain of virtual reality with different sample, constructs and approaches.Implications for rehabilitationIt has become increasing important to introduce new state-to-art technologies in domain of rehabilitation.People are reluctant to use all the traditional modes of treatment. As these conventional ways of treatment are least motivating and interesting to indulge the patients without force and burden. It is evident in the present study that addition of virtual reality-based exercise increases the self-motivated balance during functional task in contrast to conventional and task-dependent training participants.This study opens the way for future researchers to do more extensive work in this domain.

Efeito imediato, agudo e crônico da Kinesio taping® associada à Terapia Neuromotora Intensiva na postura sentada de crianças com paralisia cerebral / Immediate, acute and chronic effects of Kinesio taping® associated with Intensive Neuromotor Therapy on the sitting position of children with cerebral paralysis

A fisioterapia utiliza vários recursos e métodos para intervenções no tratamento da Encefalopatia Crônica Não Progressiva da Infância (ECNPI) ou paralisia cerebral (PC), entre eles a Kinesio Taping® (KT) e a Terapia Neuromotora Intensiva (TNMI). Esses métodos podem ser considerados relativamente novos, o que leva à necessidade do desenvolvimento de pesquisas para verificar seus efeitos em crianças com PC. O presente estudo objetivou verificar os efeitos da KT® e da TNMI na postura sentada de crianças com PC do tipo quadriparesia/quadriplegia espástica. Para isso, foram avaliadas 6 crianças, com uma média de idade de 6,25±2,69 anos. As avaliações aconteceram por meio do software SAPO, no qual os dados são obtidos em centímetros e a análise consiste na avaliação da vertical (eixo Y), comparando os lados esquerdo e direito, sendo assim possível a análise das assimetrias de maneira precisa. Com relação aos resultados, não foi identificada diferença significativa (p > 0,05) da aplicação de KT® na comparação entre efeitos imediato, agudo e crônico para os momentos pré e pós aplicação imediata da KT®. No entanto, de forma descritiva, o uso de KT® associado à TNMI favoreceu o alinhamento na postura sentada, principalmente para acrômios e Espinha ilíaca ânterossuperior (EIAS). Nota-se, portanto, que as evidências do uso de KT®, como coadjuvante durante a TNMI, ainda são inconclusivas em crianças com PC do tipo quadriparesia/plegia.

Physical therapy uses various resources and methods for intervention in the Chronic Non-Progressive Childhood Encephalopathy (CNPCE) or cerebral palsy (CP) interventions, including Kinesio Taping® (KT) and Intensive Neuromotor Therapy (INMT). These methods are relatively new, which leads to the need for the development of research to verify effects in children with CP. The present study analyzed the effects of KT® and INMT on the sitting posture of children with spastic quadriplegia. In order to do this, six (6) children (mean age 6.25±2.69 years) were evaluated. The evaluations took place through SAPO software, where data are obtained in centimeters and the analysis consists of the evaluation of the vertical (Y) axis, comparing the left and right side, thus being possible to precisely analyze any asymmetries. Regarding the results, no significant difference (p > 0.05) was observed with the application of KT® in the comparison between immediate, acute and chronic effect for the moments before and immediately after KT® application. However, descriptively, the use of KT® associated with INMT favored alignment in sitting posture, mainly for acromial and anterior superior iliac spine (ASIS). The results show that evidence of the use of KT® as an adjuvant during INMT is still inconclusive in children with CP quadriparesis/plegia.

2D linear measures of ventricular enlargement may be relevant markers of brain atrophy and long-term disability progression in multiple sclerosis.

OBJECTIVES: Aim of this study was to investigate the reliability and validity of 2D linear measures of ventricular enlargement as indirect markers of brain atrophy and possible predictors of clinical disability. METHODS: In this retrospective longitudinal analysis of relapsing-remitting MS patients, brain volumes were computed at baseline and after 2 years. Frontal horn width (FHW), intercaudate distance (ICD), third ventricle width (TVW), and 4th ventricle width were obtained. Two-dimensional measures associated with brain volume at correlation analyses were entered in linear and logistic regression models testing the relationship with baseline clinical disability and 10-year confirmed disability progression (CDP), respectively. Possible cutoff values for clinically relevant atrophy were estimated via receiver operating characteristic (ROC) analyses and probed as 10-year CDP predictors using hierarchical logistic regression. RESULTS: Eighty-seven patients were available (61/26 = F/M; 34.1 ± 8.5 years). Moderate negative correlations emerged between ICD and TVW and normalized brain volume (NBV; p < 0.001) and percentage brain volume change per year (PBVC/y) and FHW, ICD, and TVW annual changes (p ≤ 0.005). Baseline disability was moderately associated with NBV, ICD, and TVW (p < 0.001), while PBVC/y predicted 10-year CDP (p = 0.01). A cutoff percentage ICD change per year (PICDC/y) value of 4.38%, corresponding to - 0.91% PBVC/y, correlated with 10-year CDP (p = 0.04). These estimated cutoff values provided extra value for predicting 10-year CDP (PBVC/y: p = 0.001; PICDC/y: p = 0.03). CONCLUSIONS: Two-dimensional measures of ventricular enlargement are reproducible and clinically relevant markers of brain atrophy, with ICD and its increase over time showing the best association with clinical disability. Specifically, a cutoff PICDC/y value of 4.38% could serve as a potential surrogate marker of long-term disability progression. KEY POINTS: • Assessment of ventricular enlargement as a rapidly accessible indirect marker of brain atrophy may prove useful in cases in which brain volume quantification is not practicable. • Two-dimensional linear measures of ventricular enlargement represent reliable, valid, and clinically relevant markers of brain atrophy. • A cutoff annualized percentage brain volume change of - 0.91% and the corresponding annualized percentage increase of 4.38% for intercaudate distance are able to discriminate patients who will develop long-term disability progression.

Nutritional situation of enterally fed patients in neurological early rehabilitation and impact of nutritional status on functional outcome.

BACKGROUND & AIMS: Studies focusing on the nutritional status of neurological and neurosurgical early rehabilitation (NNER) patients are limited. The aim of the current study was to determine the nutritional status of NNER patients upon admission, to observe weight changes and to investigate the influence of nutritional status on complications and outcome. METHODS: 109 enterally fed NNER patients were included in this prospective observational study. Weight changes, complications, neurological outcome scores (Early Rehabilitation Index [ERI], Barthel-Index [BI]) and the length of stay (LOS) were recorded. In addition, daily energy requirement was calculated and compared with daily intake to identify under-/optimally- and oversupplied patients. RESULTS: A general weight loss was observed in the study group. Weight changes during rehabilitation differed between men and women as well as between under- and oversupplied patients. Nutritional supply during rehabilitation had no influence on the LOS and the change of neurological outcome scores, but significant differences in the frequency of nosocomial infections was observed between under-/optimally- and oversupplied patients. The nutritional status (weight group on admission) had a crucial impact on neurological outcome scores, indicated by lower BI at discharge in normal-compared to underweight patients. In addition, underweight + undersupplied patients showed a significantly lower improvement of the BI than underweight + oversupplied patients. To the contrary, underweight + oversupplied patients had a higher BI improvement than underweight + optimally supplied patients. CONCLUSIONS: The nutritional status upon admission in combination with the nutritional supply during rehabilitation appears to have an impact on changes of neurological outcome scores.

Behavioural activation treatment for depression in individuals with neurological conditions: a systematic review.

OBJECTIVE: To evaluate the effectiveness of behavioural activation interventions for people with neurological conditions with comorbid depression, and explore content and adaptations. DATA SOURCES: PsycINFO, MEDLINE, CINAHL, AMED, and EMBASE databases were searched on the 19 November 2019. Reference lists of selected full-texts were screened by title. REVIEW METHODS: We included peer-reviewed studies published in English that used behavioural activation for treatment of depression in adults with a neurological condition. Single-case reports, reviews, and grey literature were excluded. Methodological quality was assessed by two authors independently, and quality was appraised using Critical Appraisal Skills Programme checklists. RESULTS: From 2714 citations, 10 articles were included comprising 590 participants. Behavioural activation was used to treat depression in people with dementia (n = 4), stroke (n = 3), epilepsy (n = 1), Parkinson's disease (n = 1), and brain injury (n = 1). Sample size ranged from 4 to 105 participants. There were seven randomized controlled studies; however, no studies compared behavioural activation to an alternative psychological therapy. The effect sizes varied between small and large in the studies where effect size could be calculated (d = 0.24-1.7). Methodological quality of the included studies was variable. Intervention components were identifying and engaging in pleasurable activities, psychoeducation, and problem-solving. Adaptations included delivering sessions via telephone, delivering interventions via primary caregivers, and giving psychoeducation to caregivers. CONCLUSION: The effectiveness of behavioural activation in randomized controlled trials varied from small to large (d = 0.24-1.7) in reducing depression. The content of behavioural activation was comparable to established treatment manuals. Adaptations appeared to support individuals to engage in therapy. REVIEW REGISTRATION: PROSPERO 2018, CRD42018102604.

Motor performance and cognitive correlates in children cooled for neonatal encephalopathy without cerebral palsy at school age.

AIM: To investigate whether motor performance in school-age children without cerebral palsy (CP), cooled for neonatal encephalopathy, is associated with perinatal factors and 18-month developmental scores and to explore relationships between school-age motor and cognitive performance. METHODS: Motor and cognitive performance was assessed in 29 previously cooled children at six to eight years using the Movement Assessment Battery for Children-2 (MABC-2) and the Wechsler Intelligence Scale for Children (WISC-IV). Associations between MABC-2 scores less than/equal (≤) 15th centile and perinatal factors, social/family background, 18-month Bayley-III scores and WISC-IV scores were explored. RESULTS: Eleven of the 29 (38%) children had MABC-2 scores ≤15th centile including 7 (24%) ≤5th centile. No significant perinatal or socio-economic risk factors were identified. Motor scores <85 at 18 months failed to identify children with MABC-2 scores ≤15th centile. MABC-2 scores ≤15th centile were associated with lower Full Scale IQ (p = 0.045), Working Memory (p = 0.03) and Perceptual Reasoning (p = 0.005) scores at six to eight years and receiving greater support in school (p = 0.01). CONCLUSION: A third of cooled children without CP had MABC-2 scores indicating motor impairment at school age that was not identified at 18 months by Bayley-III. Most children with low MABC scores needed support at school. Sub-optimal MABC-2 scores indicate need for detailed school-age cognitive evaluation.

Hypoglycemic encephalopathy mimicking acute ischemic stroke in clinical presentation and magnetic resonance imaging: a case report.

BACKGROUND: The imaging findings of hypoglycemic encephalopathy can be considerably similar to those of ischemic infarction or toxic leukoencephalopathy. We demonstrated unusual magnetic resonance (MR) imaging features of hypoglycemic encephalopathy which can be confused with other pathology both on imaging and acute clinical presentation. The diffusion-weighted imaging (DWI) and apparent diffusion coefficients (ADC) map findings in our case further supports the hypothesis of hypoglycemia-induced "excitotoxic injury" of glial cells and myelin sheath that might protect neuron axons from intracellular edema and irreversible damage. CASE PRESENTATION: A 72-year-old woman presented with poor appetite and was initially drowsy at home; the symptoms progressed to loss of consciousness accompanied by mild incontinence. The initial glucose level was 44 mg/dL, but no nausea, vomiting, fever, or cold sweating was reported. Physical examination after intravenous glucose supplementation revealed the absence of focal neurological signs, facial palsy, and tongue or eye deviations. The images obtained 24 h after symptoms onset revealed symmetrical hyperintensities on DWI (b-value: 1000) associated with hypointensities on ADC map along the corticospinal tract, from the levels of the cerebral peduncle and the posterior limbs of the internal capsule to the level of the corona radiata, which may mimic the imaging findings of acute ischemic infarction or amyotrophic lateral sclerosis. The patient received sliding-scale insulin therapy and rehabilitation, and she recovered consciousness without motor function deficits after 1 month. Moreover, repeat DWI and ADC map showed the complete disappearance of the lesions. CONCLUSIONS: In the phenomenon of excitotoxic injury, axons could be protected from intracellular edema and irreversible damage, which may explain the reversible clinical symptoms and imaging abnormality after controlling for blood glucose because of the preserved motor axon. The diagnosis of acute symptomatic hypoglycemic encephalopathy through clinical and imaging features can be challenging. It is crucial to differentiate it from ischemic encephalopathy since the management and clinical outcome are different.

Examining sensory ability, feature matching and assessment-based adaptation for a brain-computer interface using the steady-state visually evoked potential.

PURPOSE: We investigated how overt visual attention and oculomotor control influence successful use of a visual feedback brain-computer interface (BCI) for accessing augmentative and alternative communication (AAC) devices in a heterogeneous population of individuals with profound neuromotor impairments. BCIs are often tested within a single patient population limiting generalization of results. This study focuses on examining individual sensory abilities with an eye toward possible interface adaptations to improve device performance. METHODS: Five individuals with a range of neuromotor disorders participated in four-choice BCI control task involving the steady state visually evoked potential. The BCI graphical interface was designed to simulate a commercial AAC device to examine whether an integrated device could be used successfully by individuals with neuromotor impairment. RESULTS: All participants were able to interact with the BCI and highest performance was found for participants able to employ an overt visual attention strategy. For participants with visual deficits to due to impaired oculomotor control, effective performance increased after accounting for mismatches between the graphical layout and participant visual capabilities. CONCLUSION: As BCIs are translated from research environments to clinical applications, the assessment of BCI-related skills will help facilitate proper device selection and provide individuals who use BCI the greatest likelihood of immediate and long term communicative success. Overall, our results indicate that adaptations can be an effective strategy to reduce barriers and increase access to BCI technology. These efforts should be directed by comprehensive assessments for matching individuals to the most appropriate device to support their complex communication needs. Implications for Rehabilitation Brain computer interfaces using the steady state visually evoked potential can be integrated with an augmentative and alternative communication device to provide access to language and literacy for individuals with neuromotor impairment. Comprehensive assessments are needed to fully understand the sensory, motor, and cognitive abilities of individuals who may use brain-computer interfaces for proper feature matching as selection of the most appropriate device including optimization device layouts and control paradigms. Oculomotor impairments negatively impact brain-computer interfaces that use the steady state visually evoked potential, but modifications to place interface stimuli and communication items in the intact visual field can improve successful outcomes.

Using EEG-based brain computer interface and neurofeedback targeting sensorimotor rhythms to improve motor skills: Theoretical background, applications and prospects.

Many Brain Computer Interface (BCI) and neurofeedback studies have investigated the impact of sensorimotor rhythm (SMR) self-regulation training procedures on motor skills enhancement in healthy subjects and patients with motor disabilities. This critical review aims first to introduce the different definitions of SMR EEG target in BCI/Neurofeedback studies and to summarize the background from neurophysiological and neuroplasticity studies that led to SMR being considered as reliable and valid EEG targets to improve motor skills through BCI/neurofeedback procedures. The second objective of this review is to introduce the main findings regarding SMR BCI/neurofeedback in healthy subjects. Third, the main findings regarding BCI/neurofeedback efficiency in patients with hypokinetic activities (in particular, motor deficit following stroke) as well as in patients with hyperkinetic activities (in particular, Attention Deficit Hyperactivity Disorder, ADHD) will be introduced. Due to a range of limitations, a clear association between SMR BCI/neurofeedback training and enhanced motor skills has yet to be established. However, SMR BCI/neurofeedback appears promising, and highlights many important challenges for clinical neurophysiology with regards to therapeutic approaches using BCI/neurofeedback.

Bidirectionality of the dentato-rubro-thalamo-cortical tract allows concurrent hypoperfusion in ipsilateral cerebellum and contralateral cerebral hemisphere: A case report.

RATIONALE: The brain circulation of the dentato-rubro-thalamo-cortical tract (DRTT) has been reported for decade, but is rarely observed using nuclear medicine imaging tools, to analyze a patient with midbrain hemiatrophy syndrome. We present a case that revealed notable interruption in the middle of the DRTT. Finding out whether the superior cerebellar peduncle of the midbrain was injured was a decisive element for developing bidirectional effect of DRTT. PATIENT CONCERNS: A 34-year-old right-handed female presented with progressive weakness and bradykinesia in the left-sided limbs for about 6 months. She had difficulty with hand dexterity for activities of daily life and general tasks. She reported poor balance during walking and sitting. Muscle strength was 3 in the left hand and 4 in the foot due to atrophy of left limbs. The circumference of 10 cm proximally/distally from the lateral epicondyle of the humerus was 25.7/23.8 cm at right and 24.2/20.8 cm at left in the upper limbs, and 15 cm proximally/distally from the lateral joint space was 42.1/35.0 cm at right and 43/30.8 cm at left in the lower limbs. The brain magnetic resonance imaging study revealed a small-sized right midbrain. DIAGNOSIS: Based on the distinct features of limbs atrophy and the locations of the lesions on the magnetic resonance (MR) imaging, the patient was diagnosed with midbrain hemiatrophy syndrome. INTERVENTIONS: The patient was only willing to accept physical and occupational training programs at our outpatient clinic. OUTCOMES: We utilized serial anatomic and functional neuroimaging of the brain to survey the neurologic deficit. Brain perfusion single-photon emission computed tomography (SPECT) showed hypoperfusion over the left fronto-parietal regions, left anterior temporal region, and left occipital region, and also the left striatum and right cerebellum. Symptoms were gradually recovered with rehabilitation, and he was transferred to a rehabilitation facility on hospital day 40. LESSONS: This is the first report to demonstrate concurrent hypoperfusion of ipsilateral cerebellum and contralateral cerebral hemisphere observed on SPECT images in a case of midbrain hemiatrophy syndrome. In our case, with midbrain hemiatrophy syndrome could be explained as mutual direction effect of DRTT.

Long-term outcomes in motor and cognitive impairment with acute encephalopathy.

BACKGROUND: Acute encephalopathy causes various sequelae, including motor disabilities and intellectual delays. Previous studies reported that cognitive impairments can also occur after acute encephalitis. Although the incidence of acute encephalopathy is high in Japan, there have been few reports on its sequelae. OBJECTIVE: To characterize the neurological outcomes of pediatric patients who sought motor rehabilitation for motor dysfunction after acute encephalopathy. METHOD: Subjects were 26 children who were healthy before suffering from motor dysfunction following acute encephalopathy and were referred to our pediatric rehabilitation institute during a 9-year period (August 2007-April 2017). We examined subjects' neurological status and followed sequelae for at least 8 months. RESULTS: Of 26 individuals, 21 became ambulatory after several months or years during the observation period. Patients who could sit without support within 5 months after the onset of acute encephalopathy were able to walk within several months or years. Patients showing high intensity on T2-weighted sequences or "bright tree appearance" in the frontal region took an average of 7 months to develop walking, which was longer than other patients. Among ambulatory subjects, 16(76%) exhibited mild to moderate intellectual delay with a developmental quotient (DQ) under 70, and 20 (95%) exhibited cognitive impairment. There was a significant correlation between DQ scores and motor disability (p = 0.013, r = -0.481). CONCLUSIONS: Although 80% of patients who had motor dysfunction caused by acute encephalopathy and visited out motor rehabilitation outpatient clinic were eventually able to walk, the time taken to develop walking ability depended on which region exhibited magnetic resonance imaging abnormalities. DQ scores and motor disability were significantly correlated.

A computer vision-based system for monitoring Vojta therapy.

A neurological illness is t he disorder in human nervous system that can result in various diseases including the motor disabilities. Neurological disorders may affect the motor neurons, which are associated with skeletal muscles and control the body movement. Consequently, they introduce some diseases in the human e.g. cerebral palsy, spinal scoliosis, peripheral paralysis of arms/legs, hip joint dysplasia and various myopathies. Vojta therapy is considered a useful technique to treat the motor disabilities. In Vojta therapy, a specific stimulation is given to the patient's body to perform certain reflexive pattern movements which the patient is unable to perform in a normal manner. The repetition of stimulation ultimately brings forth the previously blocked connections between the spinal cord and the brain. After few therapy sessions, the patient can perform these movements without external stimulation. In this paper, we propose a computer vision-based system to monitor the correct movements of the patient during the therapy treatment using the RGBD data. The proposed framework works in three steps. In the first step, patient's body is automatically detected and segmented and two novel techniques are proposed for this purpose. In the second step, a multi-dimensional feature vector is computed to define various movements of patient's body during the therapy. In the final step, a multi-class support vector machine is used to classify these movements. The experimental evaluation carried out on the large captured dataset shows that the proposed system is highly useful in monitoring the patient's body movements during Vojta therapy.

Intensive Communicative Therapy Reduces Symptoms of Depression in Chronic Nonfluent Aphasia.

BACKGROUND: Patients with brain lesions and resultant chronic aphasia frequently suffer from depression. However, no effective interventions are available to target neuropsychiatric symptoms in patients with aphasia who have severe language and communication deficits. OBJECTIVE: The present study aimed to investigate the efficacy of 2 different methods of speech and language therapy in reducing symptoms of depression in aphasia on the Beck Depression Inventory (BDI) using secondary analysis (BILAT-1 trial). METHODS: In a crossover randomized controlled trial, 18 participants with chronic nonfluent aphasia following left-hemispheric brain lesions were assigned to 2 consecutive treatments: (1) intensive language-action therapy (ILAT), emphasizing communicative language use in social interaction, and (2) intensive naming therapy (INT), an utterance-centered standard method. Patients were randomly assigned to 2 groups, receiving both treatments in counterbalanced order. Both interventions were applied for 3.5 hours daily over a period of 6 consecutive working days. Outcome measures included depression scores on the BDI and a clinical language test (Aachen Aphasia Test). RESULTS: Patients showed a significant decrease in symptoms of depression after ILAT but not after INT, which paralleled changes on clinical language tests. Treatment-induced decreases in depression scores persisted when controlling for individual changes in language performance. CONCLUSIONS: Intensive training of behaviorally relevant verbal communication in social interaction might help reduce symptoms of depression in patients with chronic nonfluent aphasia.

Ethical aspects of brain computer interfaces: a scoping review.

BACKGROUND: Brain-Computer Interface (BCI) is a set of technologies that are of increasing interest to researchers. BCI has been proposed as assistive technology for individuals who are non-communicative or paralyzed, such as those with amyotrophic lateral sclerosis or spinal cord injury. The technology has also been suggested for enhancement and entertainment uses, and there are companies currently marketing BCI devices for those purposes (e.g., gaming) as well as health-related purposes (e.g., communication). The unprecedented direct connection created by BCI between human brains and computer hardware raises various ethical, social, and legal challenges that merit further examination and discussion. METHODS: To identify and characterize the key issues associated with BCI use, we performed a scoping review of biomedical ethics literature, analyzing the ethics concerns cited across multiple disciplines, including philosophy and medicine. RESULTS: Based on this investigation, we report that BCI research and its potential translation to therapeutic intervention generate significant ethical, legal, and social concerns, notably with regards to personhood, stigma, autonomy, privacy, research ethics, safety, responsibility, and justice. Our review of the literature determined, furthermore, that while these issues have been enumerated extensively, few concrete recommendations have been expressed. CONCLUSIONS: We conclude that future research should focus on remedying a lack of practical solutions to the ethical challenges of BCI, alongside the collection of empirical data on the perspectives of the public, BCI users, and BCI researchers.

Advances in neurocognitive rehabilitation research from 1992 to 2017: The ascension of neural plasticity.

OBJECTIVE: The last 25 years have seen profound changes in neurocognitive rehabilitation that continue to motivate its evolution. Although the concept of nervous system plasticity was discussed by William James (1890), the foundation for experience-based plasticity had not reached the critical empirical mass to seriously impact rehabilitation research until after 1992. The objective of this review is to describe how the emergence of neural plasticity has changed neurocognitive rehabilitation research. METHOD: The important developments included (a) introduction of a widely available tool that could measure brain plasticity (i.e., functional MRI); (b) development of new structural imaging techniques that could define limits of and opportunities for neural plasticity; (c) deployment of noninvasive brain stimulation to leverage neural plasticity for rehabilitation; (d) growth of a literature indicating that exercise has positively impacts neural plasticity, especially for older persons; and (e) enhancement of neural plasticity by creating interventions that generalize beyond the boundaries of treatment activities. Given the massive literature, each of these areas is developed by example. RESULTS: The expanding influence of neural plasticity has provided new models and tools for neurocognitive rehabilitation in neural injuries and disorders, as well as methods for measuring neural plasticity and predicting its limits and opportunities. Early clinical trials have provided very encouraging results. CONCLUSION: Now that neural plasticity has gained a firm foothold, it will continue to influence the evolution of neurocognitive rehabilitation research for the next 25 years and advance rehabilitation for neural injuries and disease. (PsycINFO Database Record