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.

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.

[Measurement of the outcomes in acquired brain injury in a neurorehabilitation unit. A long-term study]

INTRODUCTION

Following sudden brain damage, there is a loss of capabilities that affects the person's autonomy. Recovery from the physical, psychic and cognitive sequelae requires the application of multiple therapies, the outcomes of which need to be measured objectively. Our aim is to analyse the application of standardised instruments in determining the therapeutic outcomes in acquired brain injury.

PATIENTS AND METHODS

We conducted a retrospective descriptive observational study lasting 13 months. Both epidemiological and clinical data were analysed: elapsed time since onset, degree of independence (Barthel index), presence of spasticity and treatment with botulinum toxin. Outcomes were measured using Goal Attainment Scaling and the Rehabilitation Complexity Scale, pre- and post-treatment.

RESULTS

We reviewed a total of 45 patients, 60% of them having suffered a stroke. Spasticity was present in 19 patients, and 42% were treated with botulinum toxin infiltration. All of them underwent goal-setting treatment; in 84% of the cases more than one goal was planned, and the most prevalent was gait re-education. With the use of the scales it was observed that the patients with the greatest initial complexity had more difficulty to achieve the goals that had been set, although there was a higher degree of improvement in comparison to their prior status.

CONCLUSION

The initial situation in terms of dependence and the degree of complexity of the needs of patients with brain damage correlate with the final situation after a programme of neurorehabilitation therapy. This reflects the importance of using scales like Goal Attainment Scaling and the Rehabilitation Complexity Scale, pre- and post-treatment.

Real-time functional magnetic resonance imaging neurofeedback in motor neurorehabilitation

PURPOSE OF REVIEW

Recent developments in functional magnetic resonance imaging (fMRI) have catalyzed a new field of translational neuroscience. Using fMRI to monitor the aspects of task-related changes in neural activation or brain connectivity, investigators can offer feedback of simple or complex neural signals/patterns back to the participant on a quasireal-time basis [real-time-fMRI-based neurofeedback (rt-fMRI-NF)]. Here, we introduce some background methodology of the new developments in this field and give a perspective on how they may be used in neurorehabilitation in the future.

RECENT FINDINGS

The development of rt-fMRI-NF has been used to promote self-regulation of activity in several brain regions and networks. In addition, and unlike other noninvasive techniques, rt-fMRI-NF can access specific subcortical regions and in principle any region that can be monitored using fMRI including the cerebellum, brainstem and spinal cord. In Parkinson's disease and stroke, rt-fMRI-NF has been demonstrated to alter neural activity after the self-regulation training was completed and to modify specific behaviours.

SUMMARY

Future exploitation of rt-fMRI-NF could be used to induce neuroplasticity in brain networks that are involved in certain neurological conditions. However, currently, the use of rt-fMRI-NF in randomized, controlled clinical trials is in its infancy.

Rehabilitation outcomes after brain injury: disability measures or goal achievement?

Background: The outcome of rehabilitation interventions following brain injury is commonly rated by disability scales. Goal-setting and achievement are important in inpatient rehabilitation, but seldom assessed as outcomes.

Objective: To compare the information acquired from using disability ratings and goal attainment/variances as outcome measures in brain injury rehabilitation.

Setting: An inpatient regional neurological rehabilitation unit.

Subjects: One hundred and seventy-seven patients admitted after single incident brain injury over a three-year period.

Main measures: (1) Disability outcomes by the Barthel Index and the Functional Independence Measure, (2) goal achievement and variance distribution, and (3) the influence of diagnosis and demographics on these measures.

Results: Patients improved significantly on all disability scales employed (p < 0.0001), with the baseline admission scores being inversely correlated with changes in dependency by discharge (rho∼0.4). The median attainment rate of long-term goals was 75% per patient. Nonachievement was most frequently due to cognitive problems (38%), followed by behavioural difficulties and physical limitations (18% each). Goal achievement correlated poorly with disability outcome at discharge (rho∼0.3). Patients who accomplished all their goals tended to be less disabled at admission. Diagnostic groups and demographic factors had little influence on either disability or goal achievement outcomes.

Conclusions: The use of a simple goal achievement and variance coding scheme has been relatively straight forward to incorporate into the daily practice of the unit. It provides useful information on rehabilitation process and outcome after brain injury that is complementary to the utilization of disability measures.

Does Generalization Occur Following Computer-Based Cognitive Retraining?-An Exploratory Study

Computer-based cognitive retraining (CBCR) intervention has gained great popularity in recent years. This study aimed to investigate the occurrence of skill generalization to daily living task for individuals with acquired brain injury (ABI) after completion of eight modules of a commercially available CBCR program, the Parrot Software. The study investigated changes in individuals' global cognition as measured by the Montreal Cognitive Assessment, and changes in individuals' performance during a medication-box sorting task, a novel instrumental activity of daily living. The medication-box sorting task resembled real life medication management with daily prescribed and over-the-counter medications. Twelve individuals with ABI from a community-based program completed the study. Results indicated that CBCR intervention brought about improvement in global cognition, but the improvement did not appear in any particular cognitive domain. Additionally, the gains in global cognition failed to enhance performance in the medication-box sorting task. This exploratory study demonstrated that while CBCR may be a promising intervention for improving global cognition in individuals with ABI, additional intervention might be needed for generalization to occur to a novel daily task. Future studies should look for the ultimate therapeutic outcome from CBCR interventions or include interventions that could bridge the gap between CBCR intervention and performance improvement in daily living occupations.

Maternal experiences of caring for an infant with neurological impairment after neonatal encephalopathy in Uganda: a qualitative study

PURPOSE

The study investigated maternal experiences of caring for a child affected by neurological impairment after neonatal encephalopathy (NE) ("birth asphyxia") in Uganda.

METHODS

Between September 2011 and October 2012 small group and one-on-one in-depths interviews were conducted with mothers recruited to the ABAaNA study examining outcomes from NE in Mulago hospital, Kampala. Data were analysed thematically with the aid of Nvivo 8 software.

FINDINGS

Mothers reported caring for an infant with impairment was often complicated by substantial social, emotional and financial difficulties and stigma. High levels of emotional distress, feelings of social isolation and fearfulness about the future were described. Maternal health-seeking ability was exacerbated by high transport costs, lack of paternal support and poor availability of rehabilitation and counselling services. Meeting and sharing experiences with similarly affected mothers was associated with more positive maternal caring experiences.

CONCLUSION

Mothering a child with neurological impairment after NE is emotionally, physically and financially challenging but this may be partly mitigated by good social support and opportunities to share caring experiences with similarly affected mothers. A facilitated, participatory, community-based approach to rehabilitation training may have important impacts on maximising participation and improving the quality of life of affected mothers and infants. Implications for Rehabilitation Caring for an infant with neurological impairment after NE in Uganda has substantial emotional, social and financial impacts on families and is associated with high levels of emotional stress, feelings of isolation and stigma amongst mothers. Improved social support and the opportunity to share experiences with other similarly affected mothers are associated with a more positive maternal caring experience. High transport costs, lack of paternal support and poor availability of counselling and support services were barriers to maternal healthcare seeking. Studies examining the feasibility, acceptability and impact of early intervention programmes are warranted to maximise participation and improve the quality of life for affected mothers and their infants.

[Effectiveness of music in brain rehabilitation. A systematic review]

There is no curative treatment for diseases causing brain injury. Music causes extensive activation of the brain, promoting the repair of neural systems. Addition of music listening to rehabilitation enhances the regulation or motor functions in Parkinson and stroke patients, accelerates the recovery of speech disorder and cognitive injuries after stroke, and decreases the behavioral disorders of dementia patients. Music enhances the ability to concentrate and decreases mental confusion. The effect of music can also be observed as structural and functional changes of the brain. The effect is based, among other things, on lessening of physiologic stress and depression and on activation of the dopaminergic mesolimbic system.

Korean Brain Rehabilitation Registry for rehabilitation of persons with brain disorders: annual report in 2009

This first annual report provides a description of patients discharged from rehabilitation facilities in Korea based on secondary data analysis of Korean Brain Rehabilitation Registry V1.0 subscribed in 2009. The analysis included 1,697 records of patients with brain disorders including stroke, traumatic brain injury, brain tumor and other disorders from 24 rehabilitation facilities across Korea. The data comprised 1,380 cases of stroke, 104 cases of brain injury, 55 cases of brain tumor, and 58 cases of other brain diseases. The functional status of each patient was measured using the Korean version of the Modified Barthel Index (KMBI). The average change in the KMBI score was 15.9 for all patients in the inpatient rehabilitation facility. The average length of stay for inpatient rehabilitation was 36.9 days. The transfer rates to other hospitals were high, being 62.4% when all patients were considered. Patients with brain disorders of Korea in 2009 and measurable functional improvement was observed in patients. However, relatively high percentages of patients were not discharged to the community after inpatient rehabilitation. Based on the results of this study, consecutive reports of the status of rehabilitation need to be conducted in order to provide useful information to many practitioners.

[Robotics in neuro-rehabilitation]

Currently the base of the neuro-rehabilitation is the combination of neuroplasticity and functional task-based therapies. The stimulation of the brain and changes in the effective application of joint in the therapeutic use of robots. These devices are applicable for the purpose of functional replacement assistance or treatment. We present a review of the current state of technology and clinical evidence, as well as ongoing projects and future research in the area.

[Research progress on application of brain-computer-interface in mobile peripheral control]

Brain computer interface (BCI) is an information channel independent of routine brain output ways such as peripheral nerves and muscle organization. As a special human-computer interface mode, it provides a direct communication pathway between the brain and external devices so as to exert control over those devices by ways other than primitive human communication. Controlling over mobile peripheral devices such as intelligent wheelchairs or nursing robots is a very important application of BCI technology in the future. This paper describes the newest progress of the above mentioned technology, analyzes and compares key techniques involved, and forecasts future development in this field.

Special issues in brain plasticity, repair and rehabilitation: 20 years of a publishing strategy

The journal Restorative Neurology and Neuroscience (RNN) is focused on the emerging field of brain plasticity, repair and rehabilitation, including original and review papers both in basic research (in vitro studies, animal experiments) and in the clinical domain, including brain imaging studies. The publication of special issues on vital topics, summarizing the work of leading experts in the field of restoration and plasticity has become a major strategy of RNN and has attracted worldwide attention. Special issues are typically organized by specialized guest-editors familiar with the respective science field. Special issues cover a particular sub-discipline and often contain laboratory review papers. The first special issue appeared in 1990, and until today RNN has published a total of 25 special issues on a variety of basic science and clinical matters. In this way, RNN promotes the dissemination of information in the field of neuroplasticity, repair and rehabilitation, providing the reader with up-to-date information prepared by leading experts in the field.

[Neurorehabilitation: social-professional integration in light of the Federal disability insurance (IV/AI) 5th revision]

The new measures introduced as part of the 5th revision of the Federal invalidity insurance (IV/AI) stress social-professional integration. Thus, when work ceases for a lengthy period, AI offices rapidly organize early intervention measures and professional reinsertion in collaboration with the patient and medical team. These measures are especially well adapted to accompany and support neuro-rehabilitation so as to place or maintain patients in the labour market.

[Early neurorehabilitation in an acute university hospital: from dream to reality]

The need for an early neurorehabilitation pathway was identified in an acute university hospital. A team was formed to draw up and implement it. A neuro-sensorial, interdisciplinary and coordinated therapy program was developed, focused on tracheostomised patients as soon as they were admitted to the intermediate care in neurology and neurosurgery. The impact of this care plan was evaluated by comparing the results obtained with that pertaining to patients treated previously in the same services. The comparison showed a reduction of 48% of the mean duration of tracheostomy, of 39% in the time to inscription in a neurorehabilitation centre and of 20% in the length of stay in the intermediate care. An early neurorehabilitation care program, with an interdisciplinary and coordinated team, reduces complications and lengths of stay.

[Prognosis of acute encephalopathy]

The prognosis in children with acute encephalopathy who were achieved rehabilitation in our rehabilitation center was presented. Main sequelae was motor disturbance 25%, mental deterioration 90%, higher cortical dysfunction 80% and epilepsy 70%. The patients were divided into 5 groups according to the clinical courses at the onset: cases with metabolic disorders, cases with cytokine storms, cases with status convultics, cases with severe refractory status epilepticus, and cases with the main symptom of decreased consciousness. Typical cases of each group were showed with their brain MRI and single photon emission cerebral tomography (SPECT). In cases with metabolic disorders and cytokine storms, the sequelae were generally severe. In cases with status convulticus, main sequelae was mental deterioration. In cases with severe refractory status epileptics, most contraversial problem was epilepsy. In cases with the main symptom of decreased consciousness, higher cortical dysfunction was the main problem.

Upper limb portable motion analysis system based on inertial technology for neurorehabilitation purposes

Here an inertial sensor-based monitoring system for measuring and analyzing upper limb movements is presented. The final goal is the integration of this motion-tracking device within a portable rehabilitation system for brain injury patients. A set of four inertial sensors mounted on a special garment worn by the patient provides the quaternions representing the patient upper limb’s orientation in space. A kinematic model is built to estimate 3D upper limb motion for accurate therapeutic evaluation. The human upper limb is represented as a kinematic chain of rigid bodies with three joints and six degrees of freedom. Validation of the system has been performed by co-registration of movements with a commercial optoelectronic tracking system. Successful results are shown that exhibit a high correlation among signals provided by both devices and obtained at the Institut Guttmann Neurorehabilitation Hospital.

Publishing in the field of brain plasticity, repair and rehabilitation: The 20th Anniversary issue of Restorative Neurology and Neuroscience

The journal Restorative Neurology and Neuroscience (RNN) now celebrates its 20th anniversary. Since 1989 RNN has published scientific findings in the emerging fields of brain plasticity, repair and rehabilitation via original scientific publications and review papers in basic research (animal experiments, in vitro studies) and clinical science. During the last decade RNN had a steady progress in reference value and scientific impact, reaching an ISI-impact factor of 1.978 (2008) and has published a total of 717 papers. The journal's success can be explained by different factors: (1) neuroplasticity, regeneration, recovery and rehabilitation have developed to main stream subjects with a worldwide increase in the number of publications and their citation rate, (2) RNN has published numerous special issues which summarize the work of leading experts in specialized sub-fields, (3) a dedicated, highly qualified editorial board (4) the quality of papers submitted to RNN has increased over time. RNN has now become a visible and leading source of original scientific information in the space of brain plasticity, rehabilitation and repair.

Experience, cortical remapping, and recovery in brain disease

Recovery of motor function in brain and spinal cord disorders is an area of active research that seeks to maximize improvement after an episode of neuronal death or dysfunction. Recovery likely results from changes in structure and function of undamaged neurons, and this plasticity is a target for rehabilitative strategies. Sensory and motor function are mapped onto brain regions somatotopically, and these maps have been demonstrated to change in response to experience, particularly in development, but also in adults after injury. The map concept, while appealing, is limited, as the fine structure of the motor representation is not well-ordered somatotopically. But after stroke, the spared areas of the main cortical map for movement appear to participate in representing affected body parts, expanding representation in an experience-dependent manner. This occurs in both animal models and human clinical trials, although one must be cautious in comparing the results of invasive electrophysiological techniques with non-invasive ones such as transcranial magnetic stimulation. Developmental brain disorders, such as cerebral palsy, and embryonic abnormalities, such as dysmelia, demonstrate the potential of the human brain to remap the motor system. Future therapies may be able to use that potential to maximize recovery.

Functional imaging and related techniques: an introduction for rehabilitation researchers

Functional neuroimaging and related neuroimaging techniques are becoming important tools for rehabilitation research. Functional neuroimaging techniques can be used to determine the effects of brain injury or disease on brain systems related to cognition and behavior and to determine how rehabilitation changes brain systems. These techniques include: functional magnetic resonance imaging (fMRI), positron emission tomography (PET), electroencephalography (EEG), magnetoencephalography (MEG), near infrared spectroscopy (NIRS), and transcranial magnetic stimulation (TMS). Related diffusion weighted magnetic resonance imaging techniques (DWI), including diffusion tensor imaging (DTI) and high angular resolution diffusion imaging (HARDI), can quantify white matter integrity. With the proliferation of these imaging techniques in rehabilitation research, it is critical that rehabilitation researchers, as well as consumers of rehabilitation research, become familiar with neuroimaging techniques, what they can offer, and their strengths and weaknesses The purpose to this review is to provide such an introduction to these neuroimaging techniques.

An intervention to reduce disruptive behaviours in children with brain injury

This study investigated the effectiveness of a behavioural intervention programme in reducing disruptive behaviours in children with brain injury. The behavioural package included programme rules, a token economy with response cost and mystery motivators. Participants were three male patients in an after-school programme at a rehabilitation hospital who were identified as having both a brain injury and disruptive behaviours in the classroom setting. Two control composites were formed, one with children who behaved appropriately and one with children who behaved in a disruptive manner. This study employed a multiple baseline design across individuals. The participants' disruptive behaviour decreased during the intervention phase by an average of 69%; the effect size of each participant's improvement was 'large'. The comparisons' disruptive behaviour was unchanged. This pronounced decrease in disruptive behaviours for the three participants was maintained in the follow-up phase. This short-term, easily implemented package altered important programme and social behaviours positively, were well received by children and staff and resulted in long-term improvements to behavioural deficits secondary to brain injury. These results are discussed in terms of theoretical disagreements, methodological issues and practical community-based interventions in brain-injured children.

WITHDRAWN: Orthotic devices after stroke and other non-progressive brain lesions

BACKGROUND

Post-stroke motor impairments cause difficulty controlling the joints of the affected limbs to produce useful movements. One way to manage this to use an orthosis to control the movement of the affected joints but evidence for their benefit is lacking.

OBJECTIVES

To determine the effectiveness of upper or lower limb orthoses on activity and impairment in people with stroke and other non-progressive brain lesions.

SEARCH STRATEGY

In February 2007 we searched the trials registers of the Cochrane Stroke, Movement Disorders and Injuries Groups, the Cochrane Database of Systematic Reviews and the Cochrane Central Register of Controlled Trials (The Cochrane Library Issue 1, 2007), MEDLINE (from 1966), EMBASE (from 1980), CINAHL (from 1983), AMED (from 1985), PsycINFO (from 1967) and RECAL (from 1990), and other databases and trials registers. We screened reference lists, contacted lead authors and other researchers in the field.

SELECTION CRITERIA

We included randomised controlled trials of orthoses applied to the upper or lower limb in people with stroke and other non-progressive brain lesions.

DATA COLLECTION AND ANALYSIS

Two review authors independently identified trials, extracted data, and assessed trial quality. Results for continuous outcomes were combined and analysed using mean difference or standardised mean difference, both with 95% confidence intervals and fixed-effect model.

MAIN RESULTS

We analysed 14 trials with 429 participants. The overall effect of lower limb orthoses on walking disability (speed), walking impairment (step/stride length) and balance impairment (weight distribution in standing) was significant and beneficial. There was no significant effect on postural sway (balance impairment) or mobility disability but the numbers of studies and participants were low. However, these were all cross-over trials that looked at the immediate effect while wearing the orthosis; they did not assess the effects of wearing an orthosis over the long term. Upper limb orthoses showed no effect on upper limb function, range of movement at the wrist, fingers or thumb, nor pain. However, this was based on only three trials.

AUTHORS' CONCLUSIONS

A lower limb orthosis can improve walking and balance but the included studies have only examined the immediate effects while wearing the orthosis; the effects of long-term use have not been investigated. An upper limb orthosis does not effect on upper limb function, range of movement at the wrist, fingers or thumb, nor pain, but this conclusion is based on only three trials.

A systematic review of the effectiveness of treadmill training and body weight support in pediatric rehabilitation

BACKGROUND AND PURPOSE

Given the extensive literature on body weight-supported treadmill training (BWSTT) in adult rehabilitation, a systematic review was undertaken to explore the strength, quality, and conclusiveness of evidence supporting use of treadmill training and body weight support in those with pediatric motor disabilities. A secondary goal was to ascertain whether protocol guidelines for BWSTT are available to guide pediatric physical therapy practice.

METHODS

The database search included MEDLINE, EMBASE, CINAHL Plus, PEDro, Cochrane Library databases, and ERIC from January 1, 1980 to May 31, 2008 for articles that included treadmill training and body weight support for individuals under 21 years of age, with or at risk for a motor disability. We identified 277 unique articles from which 29 met all inclusion criteria.

RESULTS

Efficacy of treadmill training in accelerating walking development in Down syndrome has been well demonstrated. Evidence supporting efficacy or effectiveness of BWSTT in pediatric practice for improving gait impairments and level of activity and participation in those with cerebral palsy, spinal cord injury, and other central nervous system disorders remains insufficient, although many studies noted positive effects.

DISCUSSION AND CONCLUSION

The original evidence demonstrates efficacy of BWSTT in children with Down syndrome, but large-scale controlled trials are needed to support the use of BWSTT in other pediatric subgroups. Increased use of randomized designs, studies with treadmill training-only groups, and dosage studies are needed before practice guidelines can be formulated. Neural changes in response to training warrant exploration, especially given the capacity for change in developing nervous systems.

Orthotic devices after stroke and other non-progressive brain lesions

BACKGROUND

Post-stroke motor impairments cause difficulty controlling the joints of the affected limbs to produce useful movements. One way to manage this to use an orthosis to control the movement of the affected joints but evidence for their benefit is lacking.

OBJECTIVES

To determine the effectiveness of upper or lower limb orthoses on activity and impairment in people with stroke and other non-progressive brain lesions.

SEARCH STRATEGY

In February 2007 we searched the trials registers of the Cochrane Stroke, Movement Disorders and Injuries Groups, the Cochrane Database of Systematic Reviews and the Cochrane Central Register of Controlled Trials (The Cochrane Library Issue 1, 2007), MEDLINE (from 1966), EMBASE (from 1980), CINAHL (from 1983), AMED (from 1985), PsycINFO (from 1967) and RECAL (from 1990), and other databases and trials registers. We screened reference lists, contacted lead authors and other researchers in the field.

SELECTION CRITERIA

We included randomised controlled trials of orthoses applied to the upper or lower limb in people with stroke and other non-progressive brain lesions.

DATA COLLECTION AND ANALYSIS

Two review authors independently identified trials, extracted data, and assessed trial quality. Results for continuous outcomes were combined and analysed using mean difference or standardised mean difference, both with 95% confidence intervals and fixed-effect model.

MAIN RESULTS

We analysed 14 trials with 429 participants. The overall effect of lower limb orthoses on walking disability (speed), walking impairment (step/stride length) and balance impairment (weight distribution in standing) was significant and beneficial. There was no significant effect on postural sway (balance impairment) or mobility disability but the numbers of studies and participants were low. However, these were all cross-over trials that looked at the immediate effect while wearing the orthosis; they did not assess the effects of wearing an orthosis over the long term. Upper limb orthoses showed no effect on upper limb function, range of movement at the wrist, fingers or thumb, nor pain. However, this was based on only three trials.

AUTHORS' CONCLUSIONS

A lower limb orthosis can improve walking and balance but the included studies have only examined the immediate effects while wearing the orthosis; the effects of long-term use have not been investigated. An upper limb orthosis does not effect on upper limb function, range of movement at the wrist, fingers or thumb, nor pain, but this conclusion is based on only three trials.

Neuropsychological factors related to returning to work in patients with higher brain dysfunction

We conducted neuropsychological tests of patients with higher brain dysfunction to examine the characteristics of barriers to employment.

SUBJECTS AND METHODS

We tested 92 patients with higher brain dysfunction (average age of 36.3 +/- 13.8 years old, ranging between 16 and 63 years old, with an average post-injury period of 35.6 +/- 67.8 months) who were hospitalized at the university hospital between February 2002 and June 2007 for further neuropsychological evaluation, conducting the Wechsler Adult Intelligence Scale-Revised (WAIS-R), Wechsler Memory Scale-Revised (WMS-R), the Rivermead Behavioral Memory Test (RBMT), Frontal Assessment Battery (FAB) and Behavioral Assessment of Dysexecutive Syndrome (BADS). The outcomes after discharge were classified between competitive employment, sheltered employment and non-employment, and the three groups were compared using one-way analysis of variance and the Scheffe test. The WAIS-R subtests were mutually compared based on the standard values of significant differences described in the WAIS-R manual. Verbal performance and full scale Intelligence Quotient (IQ) of WAIS-R were 87.7 +/- 15.6 (mean +/- standard deviation), 78.5 +/- 18.1 and 81.0 +/- 17.2, respectively, and verbal memory, visual memory, general memory, attention/concentration and delayed recall were 74.6 +/- 20.0, 76.6 +/- 21.4, 72.0 +/- 20.4, 89.0 +/- 16.5 and 65.2 +/- 20.8, respectively. The competitive employment group showed significantly higher scores in performance IQ and full IQ on the WAIS-R and verbal memory, visual memory, general memory and delayed recall on the WMS-R and RBMT than the non-employment group. The sheltered employment group showed a significantly higher score in delayed recall than the non-employment group. No difference was observed in the FAB or BADS between the three groups. In the subtests of the WAIS-R, the score for Digit Symbol-Coding was significantly lower than almost all the other subtests. For patients with higher brain dysfunction, IQ (full scale IQ > 53.2) and memory (general memory > 74.1) are important indicators in returning to work under the conditions of competitive employment.

The development of brain-machine interface neuroprosthetic devices

The development of brain-machine interface technology is a logical next step in the overall direction of neuroprosthetics. Many of the required technological advances that will be required for clinical translation of brain-machine interfaces are already under development, including a new generation of recording electrodes, the decoding and interpretation of signals underlying intention and planning, actuators for implementation of mental plans in virtual or real contexts, direct somatosensory feedback to the nervous system to refine actions, and training to encourage plasticity in neural circuits. Although pre-clinical studies in nonhuman primates demonstrate high efficacy in a realistic motor task with motor cortical recordings, there are many challenges in the clinical translation of even simple tasks and devices. Foremost among these challenges is the development of biocompatible electrodes capable of long-term, stable recording of brain activity and implantable amplifiers and signal processors that are sufficiently resistant to noise and artifact to faithfully transmit recorded signals to the external environment. Whether there is a suitable market for such new technology depends on its efficacy in restoring and enhancing neural function, its risks of implantation, and its long-term efficacy and usefulness. Now is a critical time in brain-machine interface development because most ongoing studies are science-based and noncommercial, allowing new approaches to be included in commercial schemes under development.

[The progress in researches on biocompatibility for direct brain-machine interface]

An important application of the direct brain-machine interfaces are providing an outlet for severely paralyzed individuals to communicate with the world. According to different type of microelectrodes, brain-machine interfaces are divided into indirect-BMI and direct-BMI. Direct-BMI are intracortical recording devices designed to capture the action potentials of many individual neurons, especially those that code for movement or its intent. A key problem in research of BMI is how to enhance biocompatibility for direct-BMI. This review introduces some new microelectrodes of direct brain-machine interface which all have higher biocompatibility.

Memory assessment on an interdisciplinary rehabilitation team: a theoretically based framework

PURPOSE

To describe a cognitive neuroscience model of memory that can be used to guide assessment and promote consistent terminology among members of the rehabilitation team, and to relate the model to frequently used assessment measures.

METHOD

Description of a model of memory, description of how frequently used memory measures relate to the model, and presentation of case studies to exemplify the application of the model to the clinical assessment of memory.

CONCLUSIONS

Use of a theoretical framework is important for choosing assessment instruments, interpreting the results of test performance, and communicating with patients, their family members, and other members of the interdisciplinary team. Understanding where in the memory process a breakdown occurs can guide treatment recommendations and feedback to patients and family members.

[Swimming as a factor of the physical rehabilitation of infants with perinatal central nervous system diseases]

Swimming in the water, which is the immersion surroundings, leads to positive physiological changes in organism. This makes possible to simulate in the water physical exercises of various intensity, providing individual orientation of the first year children's swimming practices.

Curiosity and cure: translational research strategies for neural repair-mediated rehabilitation

Clinicians who seek interventions for neural repair in patients with paralysis and other impairments may extrapolate the results of cell culture and rodent experiments into the framework of a preclinical study. These experiments, however, must be interpreted within the context of the model and the highly constrained hypothesis and manipulation being tested. Rodent models of repair for stroke and spinal cord injury offer examples of potential pitfalls in the interpretation of results from developmental gene activation, transgenic mice, endogeneous neurogenesis, cellular transplantation, axon regeneration and remyelination, dendritic proliferation, activity-dependent adaptations, skills learning, and behavioral testing. Preclinical experiments that inform the design of human trials ideally include a lesion of etiology, volume and location that reflects the human disease; examine changes induced by injury and by repair procedures both near and remote from the lesion; distinguish between reactive molecular and histologic changes versus changes critical to repair cascades; employ explicit training paradigms for the reacquisition of testable skills; correlate morphologic and physiologic measures of repair with behavioral measures of task reacquisition; reproduce key results in more than one laboratory, in different strains or species of rodent, and in a larger mammal; and generalize the results across several disease models, such as axonal regeneration in a stroke and spinal cord injury platform. Collaborations between basic and clinical scientists in the development of translational animal models of injury and repair can propel experiments for ethical bench-to-bedside therapies to augment the rehabilitation of disabled patients.

Trading death and disability in malignant stroke

Investigating introspective aspects of informed consent in a contemporary stroke trial

Putting the brain on the map: use of transcranial magnetic stimulation to assess and induce cortical plasticity of upper-extremity movement

The plasticity of the brain is an increasingly important topic for physical therapists interested in childhood development, learning, and repair following injury. The study of plasticity directly in the human nervous system presents numerous challenges, such as the ability to assess neuronal function in vivo because of physical impediments, such as the skull, skin, and dura. Transcranial magnetic stimulation (TMS), however, has become a suitable, noninvasive, and painless technique that can be applied to detect changes in cortical excitability as an indicator of neurological changes. Furthermore, repetitive trains of TMS themselves can induce plasticity. This article discusses the use of TMS to investigate and manipulate plasticity in the human nervous system.

Electrocorticographically controlled brain-computer interfaces using motor and sensory imagery in patients with temporary subdural electrode implants. Report of four cases

Brain-computer interface (BCI) technology can offer individuals with severe motor disabilities greater independence and a higher quality of life. The BCI systems take recorded brain signals and translate them into real-time actions, for improved communication, movement, or perception. Four patient participants with a clinical need for intracranial electrocorticography (ECoG) participated in this study. The participants were trained over multiple sessions to use motor and/or auditory imagery to modulate their brain signals in order to control the movement of a computer cursor. Participants with electrodes over motor and/or sensory areas were able to achieve cursor control over 2 to 7 days of training. These findings indicate that sensory and other brain areas not previously considered ideal for ECoG-based control can provide additional channels of control that may be useful for a motor BCI.

Neuroplasticity and Brain Imaging Research: Implications for Rehabilitation

Advanced brain imaging technologies have been used recently to investigate neuroplasticity in relation to recovery and treatment of neurologic injury and disease. The contributors to this supplement present data and synthesize the extant literature on the use of functional magnetic resonance imaging, magnetic resonance spectroscopy, optical imaging, transcranial magnetic stimulation, and transcranial direct current stimulation to study remodeling of cortical representation of motor and cognitive abilities after stroke and other etiologies of neurologic impairment. In general, the collective findings of these studies support use-dependent neuroplasticity as a mechanism of recovery and response to training. Brain imaging findings support the role of training effects on increased activation of brain regions ipsilateral to unilateral vascular lesions in facilitating recovery from stroke. The articles in this supplement also report the potential therapeutic application of stimulation techniques to enhance reorganization of function.

Patterns of Normal Human Brain Plasticity After Practice and Their Implications for Neurorehabilitation

OBJECTIVES

To illustrate how our knowledge about normal patterns of experience-induced plasticity can provide insights into the mechanisms of neurorehabilitation; to provide an overview of the practice-effects literature in order to simplify and amalgamate a large number of heterogeneous findings and identify typical patterns of practice effects and their determining factors; and to concentrate on the impact of practice on higher cognitive functions, such as working memory, and present some preliminary but promising behavioral data that show how practice on a complex cognitive task can benefit cognitive functioning more generally.

DATA SOURCES

We performed a systematic search for peer-reviewed journal articles using computerized databases (PubMed, ISI Web of Science, PsycINFO).

DATA SELECTION

Neuroimaging studies using functional magnetic resonance imaging (fMRI) or positron-emission tomography (PET) to examine functional activation changes as a result of practice on sensory, motor, or cognitive tasks in normal (healthy) populations were included in the review. Further studies were identified that examined the effects of rehabilitative training on functional activations in clinical populations using fMRI or PET.

DATA EXTRACTION

Important characteristics of the selected studies were summarized in a systematic manner so to enable the extraction of specific factors impacting on the pattern of practice effects observed.

DATA SYNTHESIS

We identified a number of factors that impact on the patterns of practice effects observed and discuss how the insights gained from the study of healthy populations can by applied to rehabilitation of cognitive deficits in clinical populations.

CONCLUSIONS

Progress in our understanding of neurorehabilitative plasticity will be enabled by neuroimaging examinations of cognitive rehabilitation training grounded in a knowledge of normal (healthy) patterns of brain activation and practice-induced plasticity.

[Progress of brain-neural function informatics]

Firstly the fundamental concept and research hotspots of Brain-Neural Function Informatics (BNFI) are described. Then the main study fields and progresses of BNFI are expounded. Finally the prospects of BNFI research are given. Studies on BNFI not only promote the "Brain Science" progress, but also boost the industry of a new kind of medical instruments - function rehabilitation equipment and artificial functional prostheses.

Brain–machine interfaces: past, present and future

Since the original demonstration that electrical activity generated by ensembles of cortical neurons can be employed directly to control a robotic manipulator, research on brain-machine interfaces (BMIs) has experienced an impressive growth. Today BMIs designed for both experimental and clinical studies can translate raw neuronal signals into motor commands that reproduce arm reaching and hand grasping movements in artificial actuators. Clearly, these developments hold promise for the restoration of limb mobility in paralyzed subjects. However, as we review here, before this goal can be reached several bottlenecks have to be passed. These include designing a fully implantable biocompatible recording device, further developing real-time computational algorithms, introducing a method for providing the brain with sensory feedback from the actuators, and designing and building artificial prostheses that can be controlled directly by brain-derived signals. By reaching these milestones, future BMIs will be able to drive and control revolutionary prostheses that feel and act like the human arm.

Cochlear implantation in superficial siderosis

Superficial siderosis (SS) of the central nervous system has been thought to be a rare condition that generates progressive hearing loss, ataxia, pyramidal signs, and dementia. The main cause of hearing loss by SS is thought to be neuronal. Because there is no histopathologic report of the human temporal bone in SS, there is a debate about the possibility of cochlear involvement. We present a 25-year-old man who was investigated for bilateral progressive sensorineural hearing loss and vestibular failure after head trauma. On brain MRI, SS of the central nervous system was detected. Distortion product otoacoustic emission (DPOAE) and auditory brainstem response (ABR) showed no response on both sides. However, integrity of the eighth nerve was proved by the electrical ABR test on the right side and the patient benefited significantly from cochlear implantation. The sensorineural hearing loss in SS seems to be related to cochlear damage as well as neuronal damage. So, cochlear implantation would be a hearing rehabilitation modality for the sensorineural hearing loss caused by SS.