ABSTRACT
Sensorimotor impairment is a prevalent condition requiring effective rehabilitation strategies. This study introduces a novel wearable device for Mindful Sensorimotor Training (MiSMT) designed for sensory and motor rehabilitation. Our MiSMT device combines motor training using myoelectric pattern recognition along sensory training using two tactile displays. This device offers a comprehensive solution, integrating electromyography and haptic feedback, lacking in existing devices. The device features eight electromyography channels, a rechargeable battery, and wireless Bluetooth or Wi-Fi connectivity for seamless communication with a computer or mobile device. Its flexible material allows for adaptability to various body parts, ensuring ease of use in diverse patients. The two tactile displays, with 16 electromagnetic actuators each, provide touch and vibration sensations up to 250 Hz. In this proof-of-concept study, we show improved two-point discrimination after 5 training sessions in participants with intact limbs (p=0.047). We also demonstrated successful acquisition, processing, and decoding of myoelectric signals in offline and online evaluations. In conclusion, the MiSMT device presents a promising tool for sensorimotor rehabilitation by combining motor execution and sensory training benefits. Further studies are required to assess its effectiveness in individuals with sensorimotor impairments. Integrating mindful sensory and motor training with innovative technology can enhance rehabilitation outcomes and improve the quality of life for those with sensorimotor impairments.
Subject(s)
Neurological Rehabilitation , Touch Perception , Wearable Electronic Devices , Humans , Quality of Life , Touch/physiology , Touch Perception/physiologyABSTRACT
Introducción La ludificación consiste en emplear el juego en contextos no lúdicos. Su uso en la rehabilitación motora de patologías neurológicas está muy extendido, pero sobre todo en pacientes adultos. El objetivo de esta revisión fue describir el uso de la ludificación en los tratamientos de rehabilitación en niños y adolescentes con afectación neuromotora. Métodos Se realizó una revisión sistemática de ensayos clínicos en diferentes bases de datos: Medline (a través de Pubmed), Scielo, SCOPUS, Dialnet, Cinahl y PEDro de la literatura científica publicada hasta la fecha siguiendo el protocolo PRISMA. La calidad metodológica de los estudios identificados se evaluó a través de la escala PEDro. Resultados De un total de 469 estudios localizados se seleccionaron 10 ensayos clínicos que cumplieron los criterios de inclusión. Se analizaron los sistemas de ludificación utilizados como parte del tratamiento rehabilitador en distintas afecciones neuromotoras en niños y adolescentes. La parálisis cerebral fue la afección con mayor número de estudios (n = 6), seguida del trastorno del desarrollo de la coordinación (n = 3). También se estudió la alteración del equilibrio y coordinación por causa neurológica (n = 1). Conclusión El uso de la ludificación en rehabilitación aporta beneficios al tratamiento convencional de las alteraciones neuromotoras en niños y adolescentes, siendo el incremento de la motivación y de la adherencia terapéutica los que mayor consenso han alcanzado entre autores. Fuerza, equilibrio, funcionalidad y coordinación son otras variables analizadas que, si bien sugieren mejoras, necesitarían futuras investigaciones para determinar una óptima dosificación. (AU)
Introduction Gamification consists of the use of games in non-playful contexts. It is widely employed in the motor rehabilitation of neurological diseases, but mainly in adult patients. The objective of this review was to describe the use of gamification in the rehabilitation of children and adolescents with neuromotor impairment. Methods We performed a systematic review of clinical trials published to date on the MEDLINE (PubMed), Scielo, SCOPUS, Dialnet, CINAHL, and PEDro databases, following the PRISMA protocol. The methodological quality of the studies identified was assessed using the PEDro scale. Results From a total of 469 studies, 10 clinical trials met the inclusion criteria. We analysed the gamification systems used as part of the rehabilitation treatment of different neuromotor conditions in children and adolescents. Cerebral palsy was the most frequently studied condition (6 studies), followed by developmental coordination disorder (3), and neurological impairment of balance and coordination (1). Conclusion The use of gamification in rehabilitation is helpful in the conventional treatment of neuromotor disorders in children and adolescents, with increased motivation and therapeutic adherence being the benefits with the greatest consensus among authors. While strength, balance, functional status, and coordination also appear to improve, future research should aim to determine an optimal dosage. (AU)
Subject(s)
Humans , Infant, Newborn , Infant , Child, Preschool , Child , Adolescent , Neurological RehabilitationABSTRACT
BACKGROUND: Forest therapy demonstrates positive effects on mood, immune system, stress levels, and general well-being. Studies on depression, stress-related illnesses, sleep disorders, and arterial hypertension have provided evidence-based proof of this. SUMMARY: The aim of this review was to examine the possible effects of forest therapy with regard to its evidence in the treatment of chronic neurological diseases such as stroke in the rehabilitation phase, Parkinson's disease, dementia, and multiple sclerosis. Therefore, the electronic databases Medline, Scopus, and Cochrane were searched for such clinical trials for the years 1970 to mid-2023 without language restriction. The literature search revealed only few studies with positive indications but too few cases to be able to make generalizable evidence-based statements. In terms of improvement in the Hamilton Depression Scale analysis of two studies in stroke patients showed slight benefits in the forest therapy group (standard mean difference -0.43; 95% CI: -0.76 to -0.10; p < 0.01). One observational study revealed a higher rate of stroke survival in patients living in marked greenness. Few nature-based interventions in dementia patients showed certain benefits in particular details. KEY MESSAGES: There are no evidence-based results on the benefit of forest therapy for chronic neurological diseases. However, there are hints that forest therapy could have a positive benefit. Therefore, a proposal for forest therapy as a component of multimodal neurological rehabilitation is presented.
Subject(s)
Dementia , Medicine , Neurological Rehabilitation , Sleep Wake Disorders , Stroke , Humans , Stroke/therapy , Observational Studies as TopicABSTRACT
PURPOSE: Evaluation the effects of dry needling on sonographic, biomechanical and functional parameters of spastic upper extremity muscles. METHODS: Twenty-four patients (35-65 years) with spastic hand were randomly allocated into two equal groups: intervention and sham-controlled groups. The treatment protocol was 12-sessions neurorehabilitation for both groups and 4-sessions dry needling or sham-needling for the intervention group and sham-controlled group respectively on wrist and fingers flexor muscles. The outcomes were muscle thickness, spasticity, upper extremity motor function, hand dexterity and reflex torque which were assessed before, after the 12th session, and after one-month follow-up by a blinded assessor. RESULTS: The analysis showed that there was a significant reduction in muscle thickness, spasticity and reflex torque and a significant increment in motor function and dexterity in both groups after treatment (p < 0.01). However, these changes were significantly higher in the intervention group (p < 0.01) except for spasticity. Moreover, a significant improvement was seen in all outcomes measured one-month after the end of the treatment in the intervention group (p < 0.01). CONCLUSIONS: Dry needling plus neurorehabilitation could decrease muscle thickness, spasticity and reflex torque and improve upper-extremity motor performance and dexterity in chronic stroke patients. These changes were lasted one-month after treatment.Trial Registration Number: IRCT20200904048609N1IMPLICATION FOR REHABILITATIONUpper extremity spasticity is one of the stroke consequences which interfere with motor function and dexterity of patient hand in activity of daily livingApplying the dry needling accompanied with neurorehabilitation program in post-stroke patients with muscle spasticity can reduce the muscle thickness, spasticity and reflex torque and improve upper extremity functions.
Subject(s)
Ischemic Stroke , Neurological Rehabilitation , Stroke Rehabilitation , Stroke , Humans , Ischemic Stroke/complications , Muscle Spasticity , Muscle, Skeletal , Percutaneous Collagen Induction , Physical Functional Performance , Reflex , Stroke Rehabilitation/methods , Torque , Treatment Outcome , Upper Extremity , Adult , Middle Aged , AgedABSTRACT
This work reviews the growing body of interdisciplinary research on music cognition, using biomechanical, kinesiological, clinical, psychosocial, and sociological methods. The review primarily examines the relationship between temporal elements in music and motor responses under varying contexts, with considerable relevance for clinical rehabilitation. After providing an overview of the terminology and approaches pertinent to theories of rhythm and meter from the musical-theoretical and cognitive fields, this review focuses on studies on the effects of rhythmic sensory stimulation on gait, rhythmic cues' effect on the motor system, reactions to rhythmic stimuli attempting to synchronize mobility (i.e., musical embodiment), and the application of rhythm for motor rehabilitation for individuals with Parkinson's disease, stroke, mild cognitive impairment, Alzheimer's disease, and other neurodegenerative or neurotraumatic diseases. This work ultimately bridges the gap between the musical-theoretical and cognitive science fields to facilitate innovative research in which each discipline informs the other.
Subject(s)
Music , Neurological Rehabilitation , Parkinson Disease , Humans , Music/psychology , Acoustic Stimulation/methods , Parkinson Disease/rehabilitation , Cognition , Auditory Perception/physiologyABSTRACT
OBJECTIVE: This systematic review aimed to demonstrate the benefits of dance-based therapeutic interventions in rehabilitation processes in patients with neurological disorders. METHODS: Searches on the following databases and electronic search engines were conducted: MEDLINE, LILACS, Science Direct, SCOPUS, PeDro, BVS (virtual health library), and Google Scholar. Data extraction was independently performed by two authors. Twenty-five clinical trial-type studies that included dance and established outcome measures were included, and studies in which a musicalized exercise modality was used without the connotation of dance were excluded. RESULTS: From the results of multiple studies, the short-term motor benefits of rhythmic auditory stimulation on gait parameters were highlighted. Furthermore, there was scientific evidence demonstrating the benefits of the cognitive and social parameters of group dancing as significant improvements in cognitive flexibility and processing speed were highlighted. Recent studies showed that interventions based on exercise and/or rhythmic choreography can reduce the risk of falls in patients with neurological disorders, thereby improving their quality of life. CONCLUSION: These findings suggest that dance is an innovative and effective method that can be included in therapies as it allows for a promising prognosis in motor, cognitive, and social performances of patients with neurological disorders that alter mobility and quality of life.
Subject(s)
Dancing , Neurological Rehabilitation , Humans , Dancing/physiology , Quality of Life , Exercise/physiology , Exercise Therapy/methodsABSTRACT
A spinal cord injury interrupts the communication between the brain and the region of the spinal cord that produces walking, leading to paralysis1,2. Here, we restored this communication with a digital bridge between the brain and spinal cord that enabled an individual with chronic tetraplegia to stand and walk naturally in community settings. This brain-spine interface (BSI) consists of fully implanted recording and stimulation systems that establish a direct link between cortical signals3 and the analogue modulation of epidural electrical stimulation targeting the spinal cord regions involved in the production of walking4-6. A highly reliable BSI is calibrated within a few minutes. This reliability has remained stable over one year, including during independent use at home. The participant reports that the BSI enables natural control over the movements of his legs to stand, walk, climb stairs and even traverse complex terrains. Moreover, neurorehabilitation supported by the BSI improved neurological recovery. The participant regained the ability to walk with crutches overground even when the BSI was switched off. This digital bridge establishes a framework to restore natural control of movement after paralysis.
Subject(s)
Brain-Computer Interfaces , Brain , Electric Stimulation Therapy , Neurological Rehabilitation , Spinal Cord Injuries , Spinal Cord , Walking , Humans , Brain/physiology , Electric Stimulation Therapy/instrumentation , Electric Stimulation Therapy/methods , Quadriplegia/etiology , Quadriplegia/rehabilitation , Quadriplegia/therapy , Reproducibility of Results , Spinal Cord/physiology , Spinal Cord Injuries/complications , Spinal Cord Injuries/rehabilitation , Spinal Cord Injuries/therapy , Walking/physiology , Leg/physiology , Neurological Rehabilitation/instrumentation , Neurological Rehabilitation/methods , MaleABSTRACT
The effectiveness of EMG biofeedback with neurorehabilitation robotic platforms has not been previously addressed. The present work evaluates the influence of an EMG-based visual biofeedback on the user performance when performing EMG-driven bilateral exercises with a robotic hand exoskeleton. Eighteen healthy subjects were asked to perform 1-min randomly generated sequences of hand gestures (rest, open and close) in four different conditions resulting from the combination of using or not (1) EMG-based visual biofeedback and (2) kinesthetic feedback from the exoskeleton movement. The user performance in each test was measured by computing similarity between the target gestures and the recognized user gestures using the L2 distance. Statistically significant differences in the subject performance were found in the type of provided feedback (p-value 0.0124). Pairwise comparisons showed that the L2 distance was statistically significantly lower when only EMG-based visual feedback was present (2.89 ± 0.71) than with the presence of the kinesthetic feedback alone (3.43 ± 0.75, p-value = 0.0412) or the combination of both (3.39 ± 0.70, p-value = 0.0497). Hence, EMG-based visual feedback enables subjects to increase their control over the movement of the robotic platform by assessing their muscle activation in real time. This type of feedback could benefit patients in learning more quickly how to activate robot functions, increasing their motivation towards rehabilitation.
Subject(s)
Exoskeleton Device , Neurological Rehabilitation , Humans , Biofeedback, Psychology , Feedback, Sensory , Exercise TherapyABSTRACT
BACKGROUND: Elimination and Choice Translating Reality (ELECTRE) III is a commonly used multicriteria decision-making (MCDM) method when alternatives are being prioritized in health sciences. The selection of the rehabilitation approach is the key factor to improve the upper extremity functions of stroke patients. Thus, choosing a reasonably good treatment approach will directly reduce the patient's cost to the government and caregivers, while also improving quality of life. The aim of our study was to prioritize the six different methods used in the rehabilitation of stroke patients with mild or moderate upper extremity dysfunction, using one of the MCDM methods based on experts' opinions. METHODS: A three-stage face-to-face interview across Turkey, based on the ELECTRE-III method, was conducted with 18 physiotherapists specializing in the rehabilitation of mild or moderate stroke-induced upper extremity disorders. RESULTS: According to ELECTRE-III, Circuit Class Therapy (CCT) is the best choice for treating upper extremity functional loss in general. It is also the best alternative in both the ascending and descending distillation processes of ELECTRE-III. On the other hand, Bobath neurodevelopmental treatment (NDT) has a similar success level according to ascending distillation. Mirror therapy and constraint-induced movement therapy are the third-best methods in the analysis. However, robotic rehabilitation is the least preferable treatment method according to the experts' judgments. CONCLUSIONS: The results showed that rehabilitation interventions such as Bobath-NDT and proprioceptive neuromuscular facilitation, which are frequently used in developing countries, are still useful, and CCT is the most appropriate intervention for the transition from conventional methods to innovative models in these countries.
Subject(s)
Neurological Rehabilitation , Stroke Rehabilitation , Stroke , Humans , Stroke Rehabilitation/methods , Quality of Life , Stroke/therapy , Upper Extremity , Recovery of FunctionABSTRACT
BACKGROUND: Studies suggest swallow intervention programmes that incorporate visual biofeedback and motor programming principles can improve swallowing and quality of life for people with idiopathic Parkinson's disease (IPD) and dysphagia. Few studies have examined outcomes using instrumentation. AIMS: Using fibreoptic endoscopic examination of swallowing (FEES), this study examines the effectiveness of a neurorehabilitation intervention involving biofeedback via surface electromyography (sEMG) to improve swallowing in people with IPD, and to explore the feasibility of the intervention approach. METHODS & PROCEDURES: We recruited 12 participants with IPD and dysphagia. A total of 10 completed the study. Intervention was delivered for 1 h per day, 5 days per week, for 4 weeks (20 h). Swallowing tasks using sEMG biofeedback incorporated principles of motor learning and neuroplasticity. Instrumental and non-instrumental assessment, including quality-of-life measures carried out at four different time points (two pre-treatment and two post-treatment). The final assessment was at 3 months post-intervention. OUTCOME & RESULTS: Statistically significant improvement (p < 0.05) in oral intake methods (95% confidence interval (CI) = 4.70-5.50) and in pharyngeal residue from saliva (95% CI = 2.14-3.15) and solids (95% CI = 2.4-3.5) post-intervention were confirmed using FEES with improvements at 3 months. The intervention protocol was well tolerated. Participants reported positive change in saliva control and duration of mealtimes as well as unanticipated improvements in voice and cognitive attention. CONCLUSIONS & IMPLICATIONS: An intensive neurorehabilitation with biofeedback shows positive effects in improving swallow function in IPD. This protocol is feasible with amendments to inform a larger clinical trial. WHAT THIS PAPER ADDS: What is already known on the subject Biofeedback has positive effects on increasing swallowing function and quality of life in people with IPD and dysphagia. sEMG is the most common method used to deliver swallowing biofeedback in this population. The quality of the evidence on the intervention, based on findings from a recent systematic review, is low. Included studies in this review were heterogeneous in terms of type and frequency of biofeedback, study design and outcome measures. The majority of outcome measures were subjective and higher quality studies to examine the efficacy of biofeedback using sEMG are needed. What this study adds Recognizing the limitations of earlier studies, this within-subject feasibility study examined the efficacy and effectiveness of an intensive biofeedback intervention using sEMG in a sample of people with dysphagia and IPD. Valid and reliable outcome measures were used and repeated after a 3-month period. The feasibility of the methodological approach was also tested and a qualitative component was included in the study. Positive findings were evident. Qualitative information added new perspectives and provided direction for new outcomes to be included in future studies. This study helps to inform further research trials as well as clinical practice. Clinical implications of this study This intensive intervention using principles of neuroplasticity and motor programming with sEMG biofeedback led not only to positive swallowing outcomes but also to unexpected benefits such as improved voice production and general attention skills. No adverse events were reported. Improvement in function was retained at 3 months post-intervention. Despite the small sample size, participants described the benefits of the treatment, and enjoyed sEMG biofeedback tasks, especially using an sEMG game mode. This suggests that intensive biofeedback not only improved swallowing but also was acceptable to these participants. This intensive protocol has merit and is worth considering further in clinical practice.
Subject(s)
Deglutition Disorders , Neurological Rehabilitation , Parkinson Disease , Humans , Deglutition , Deglutition Disorders/etiology , Deglutition Disorders/therapy , Feasibility Studies , Parkinson Disease/complications , Electromyography , Quality of Life , Biofeedback, PsychologyABSTRACT
(1) Background: Introducing ultrasound-guided dry needling to neurorehabilitation treatments increases the beneficial effects of therapy. The aim of this study was to compare the effects of including an ultrasound-guided dry needling session in neurorehabilitation treatment on spasticity and gait-balance quality versus neurorehabilitation treatment in subjects who had suffered a stroke. (2) Methods: A single-blind, randomized clinical trial was conducted. Thirty-six patients who had suffered a stroke in the right middle cerebral artery signed the informed consent for participation in the study. Twenty patients finally participated and were randomly assigned to the control group (neurorehabilitation treatment) or experimental group (neurorehabilitation treatment plus ultrasound-guided dry needling). Pre-treatment and post-treatment data were collected on the same day. The experimental group (n = 10) first underwent an ultrasound-guided dry needling intervention on the tibialis anterior and tibialis posterior musculature, followed by neurorehabilitation treatment; the control group (n = 10) underwent their corresponding neurorehabilitation without the invasive technique. Pre-treatment and post-treatment measurements were taken on the same day, assessing the quality of balance-gait using the "Up and Go" test and the degree of spasticity using the Modified Modified Ashworth Scale. (3) Results: The patients who received neurorehabilitation treatment plus ultrasound-guided dry needling showed a greater decrease in spasticity in the tibial musculature after the neurorehabilitation treatment session (p < 0.001), improving balance and gait (p < 0.001). (4) Conclusions: An ultrasound-guided dry needling session combined with neurorehabilitation treatment reduced spasticity and improved balance and gait in stroke patients.
Subject(s)
Dry Needling , Neurological Rehabilitation , Stroke , Humans , Muscle Spasticity/etiology , Muscle Spasticity/therapy , Single-Blind Method , Stroke/therapy , Treatment OutcomeABSTRACT
Major advances in music neuroscience have fueled a growing interest in music-based neurological rehabilitation among researchers and clinicians. Musical activities are excellently suited to be adapted for clinical practice because of their multisensory nature, their demands on cognitive, language, and motor functions, and music's ability to induce emotions and regulate mood. However, the overall quality of music-based rehabilitation research remains low to moderate for most populations and outcomes. In this consensus article, expert panelists who participated in the Neuroscience and Music VII conference in June 2021 address methodological challenges relevant to music-based rehabilitation research. The article aims to provide guidance on challenges related to treatment, outcomes, research designs, and implementation in music-based rehabilitation research. The article addresses how to define music-based rehabilitation, select appropriate control interventions and outcomes, incorporate technology, and consider individual differences, among other challenges. The article highlights the value of the framework for the development and evaluation of complex interventions for music-based rehabilitation research and the need for stronger methodological rigor to allow the widespread implementation of music-based rehabilitation into regular clinical practice.
Subject(s)
Music Therapy , Music , Neurological Rehabilitation , Humans , Music/psychology , Consensus , EmotionsABSTRACT
BACKGROUND: Brain-computer interfaces (BCI), initially designed to bypass the peripheral motor system to externally control movement using brain signals, are additionally being utilized for motor rehabilitation in stroke and other neurological disorders. Also called neurofeedback training, multiple approaches have been developed to link motor-related cortical signals to assistive robotic or electrical stimulation devices during active motor training with variable, but mostly positive, functional outcomes reported. Our specific research question for this scoping review was: for persons with non-progressive neurological injuries who have the potential to improve voluntary motor control, which mobile BCI-based neurofeedback methods demonstrate or are associated with improved motor outcomes for Neurorehabilitation applications? METHODS: We searched PubMed, Web of Science, and Scopus databases with all steps from study selection to data extraction performed independently by at least 2 individuals. Search terms included: brain machine or computer interfaces, neurofeedback and motor; however, only studies requiring a motor attempt, versus motor imagery, were retained. Data extraction included participant characteristics, study design details and motor outcomes. RESULTS: From 5109 papers, 139 full texts were reviewed with 23 unique studies identified. All utilized EEG and, except for one, were on the stroke population. The most commonly reported functional outcomes were the Fugl-Meyer Assessment (FMA; n = 13) and the Action Research Arm Test (ARAT; n = 6) which were then utilized to assess effectiveness, evaluate design features, and correlate with training doses. Statistically and functionally significant pre-to post training changes were seen in FMA, but not ARAT. Results did not differ between robotic and electrical stimulation feedback paradigms. Notably, FMA outcomes were positively correlated with training dose. CONCLUSION: This review on BCI-based neurofeedback training confirms previous findings of effectiveness in improving motor outcomes with some evidence of enhanced neuroplasticity in adults with stroke. Associative learning paradigms have emerged more recently which may be particularly feasible and effective methods for Neurorehabilitation. More clinical trials in pediatric and adult neurorehabilitation to refine methods and doses and to compare to other evidence-based training strategies are warranted.
Subject(s)
Brain-Computer Interfaces , Neurofeedback , Neurological Rehabilitation , Stroke , Adult , Child , Electroencephalography/methods , HumansABSTRACT
The efficacy of trans-spinal direct current stimulation (tsDCS) as neurorehabilitation technology remains sub-optimal, partly due to the variability introduced by subject-specific neurophysiological features and stimulation conditions (e.g. electrode placement, stimulating amplitude, polarity, etc.) Hence, current therapies apply tsDCS in an open-loop fashion, resulting in a lack of standardized protocols for controlling elicited neuronal adaptations in closed-loop. Through the combination of high-density electromyogram (HD-EMG) decomposition, biophysical neuronal modelling and metaheuristic optimization, this work presents a novel neural data-driven framework for estimating subject-specific features and quantifying acute neuronal adaptations elicited by tsDCS on incomplete spinal cord injury subjects. This approach consists of calibrating the anatomical parameters (e.g. soma diameter) of in silico $\alpha-$motoneuron (MN) models for firing similarly to in vivo MNs decoded from HD-EMG. Assuming that cathodal-tsDCS elicits excitability changes in the MN pool, while preserving their anatomical parameters, optimization of an excitability gain common to the entire pool was performed to minimize discrepancies in firing rate and recruitment time between in vivo and in silico MNs after cathodal-tsDCS. This quantification of excitability changes on MN models calibrated in a person specific way enables closing the loop with neuro-modulation devices to tailor neurorehabilitation therapies. Clinical Relevance - This framework addresses a key limitation in non-invasive neuro-modulative technologies via a novel model-assisted framework that enables quantifying acute excitability changes induced on a person-specific in silico MN pool calibrated using in vivo neural data. This will enable the development of advanced controllers for modulating targeted neuronal adaptations in closed-loop.
Subject(s)
Neurological Rehabilitation , Spinal Cord Injuries , Transcutaneous Electric Nerve Stimulation , Electromyography , Evoked Potentials, Motor/physiology , Humans , Transcutaneous Electric Nerve Stimulation/methodsABSTRACT
OBJECTIVE: To observe the effect of staged acupuncture on serum irisin level, neurological deficit, balance ability and spasticity in patients with ischemic stroke. METHODS: Sixty patients with ischemic stroke were randomly divided into a staged acupuncture group and a routine acupuncture group, 30 cases in each group; another 30 healthy subjects were selected as a normal group. The patients with ischemic stroke were treated with aspirin (100 mg each time, once a day, changing to 50 mg for prophylactic dose after 4 weeks). The patients in the staged acupuncture group were treated with staged acupuncture (acupoints were selected according to the soft paralysis period, spasticity period and recovery period, sequelae period) and rehabilitation treatment, while the patients in the routine acupuncture group were treated with acupuncture of soft paralysis-period as the staged acupuncture group and rehabilitation treatment. All the treatment was given once a day, 5 times a week, 2 weeks as a course of treatment, and 4 consecutive courses of treatment were provided. Before treatment and at 2 weeks, 4 weeks, 6 weeks and 8 weeks into treatment, the serum irisin level was measured, and the scores of National Institutes of Health stroke scale (NIHSS), Fugl-Meyer assessment scale-balance (FM-B) and comprehensive spasticity scale (CSS) were compared, and the correlation between the serum irisin level and NIHSS and FM-B scores in the two groups was analyzed. RESULTS: Before treatment, the serum irisin levels in the two groups were lower than those in the normal group (P<0.01). Compared before treatment, the serum irisin levels and FM-B scores were increased (P<0.01), and the NIHSS scores were decreased at 2, 4, 6 and 8 weeks into treatment in the two groups (P<0.01). At 4, 6 and 8 weeks into treatment, in the staged acupuncture group, the serum irisin levels and FM-B scores were higher than those in the routine acupuncture group (P<0.01, P<0.05), and the NIHSS scores were lower than those in the routine acupuncture group (P<0.01). After treatment, the CSS scores in the two groups were increased first and then decreased. Compared before treatment, the CSS scores were increased at 2, 4, 6 and 8 weeks into treatment in the two groups (P<0.01). At 4, 6 and 8 weeks into treatment, the CSS scores in the staged acupuncture group were lower than those in the routine acupuncture group (P<0.01). The serum irisin level was negatively correlated with NIHSS score (r =-0.772, P =0.000), and positively correlated with FM-B score (r =0.675, P =0.000). CONCLUSION: The severity of neurological deficit and balance ability are related to serum irisin level in patients with ischemic stroke. The staged acupuncture could increase the serum irisin level, improve the neurological function, balance ability and spasticity in patients with ischemic stroke.
Subject(s)
Acupuncture Therapy , Ischemic Stroke , Neurological Rehabilitation , Stroke Rehabilitation , Stroke , Fibronectins , Humans , Muscle Spasticity , Paralysis/complications , Stroke/therapy , Treatment OutcomeABSTRACT
Traumatic brain injury (TBI) causes lifelong cognitive deficits, most often in executive function (EF). Both musical training and music-based rehabilitation have been shown to enhance EF and neuroplasticity. Thus far, however, there is little evidence for the potential rehabilitative effects of music for TBI. Here, we review the core findings from our recent cross-over randomized controlled trial in which a 10-week music-based neurological rehabilitation (MBNR) protocol was administered to 40 patients with moderate-to-severe TBI. Neuropsychological testing and structural/functional magnetic resonance imaging were collected at three time points (baseline, 3 months, and 6 months); one group received the MBNR between time points 1 and 2, while a second group received it between time points 2 and 3. We found that both general EF and set shifting improved after the intervention, and this effect was maintained long term. Morphometric analyses revealed therapy-induced gray matter volume changes most consistently in the right inferior frontal gyrus, changes that correlated with better outcomes in set shifting. Finally, we found changes in the between- and within-network functional connectivity of large-scale resting-state networks after MBNR, which also correlated with measures of EF. Taken together, the data provide evidence for concluding that MBNR improves EF in TBI; also, the data show that morphometric and resting-state functional connectivity are sensitive markers with which to monitor the neuroplasticity induced by the MBNR intervention.
Subject(s)
Brain Injuries, Traumatic , Cognition , Music Therapy , Neurological Rehabilitation , Brain Injuries, Traumatic/diagnostic imaging , Brain Injuries, Traumatic/physiopathology , Brain Injuries, Traumatic/rehabilitation , Cognition/physiology , Humans , Magnetic Resonance Imaging , Neurological Rehabilitation/methods , Randomized Controlled Trials as Topic , Treatment OutcomeABSTRACT
Because recovery from upper limb paralysis after stroke is challenging, compensatory approaches have been the main focus of upper limb rehabilitation. However, based on fundamental and clinical research indicating that the brain has a far greater potential for plastic change than previously thought, functional restorative approaches have become increasingly common. Among such interventions, constraint-induced movement therapy, task-specific training, robotic therapy, neuromuscular electrical stimulation (NMES), mental practice, mirror therapy, and bilateral arm training are recommended in recently published stroke guidelines. For severe upper limb paralysis, however, no effective therapy has yet been established. Against this background, there is growing interest in applying brain-machine interface (BMI) technologies to upper limb rehabilitation. Increasing numbers of randomized controlled trials have demonstrated the effectiveness of BMI neurorehabilitation, and several meta-analyses have shown medium to large effect sizes with BMI therapy. Subgroup analyses indicate higher intervention effects in the subacute group than the chronic group, when using movement attempts as the BMI-training trigger task rather than using motor imagery, and using NMES as the external device compared with using other devices. The Keio BMI team has developed an electroencephalography-based neurorehabilitation system and has published clinical and basic studies demonstrating its effectiveness and neurophysiological mechanisms. For its wider clinical application, the positioning of BMI therapy in upper limb rehabilitation needs to be clarified, BMI needs to be commercialized as an easy-to-use and cost-effective medical device, and training systems for rehabilitation professionals need to be developed. A technological breakthrough enabling selective modulation of neural circuits is also needed.
Subject(s)
Brain-Computer Interfaces , Neurological Rehabilitation , Stroke Rehabilitation , Stroke , Humans , Body Mass Index , Stroke/complications , Stroke/therapy , Upper Extremity , Hemiplegia , Recovery of FunctionABSTRACT
Transdiagnostic psychotherapeutic approaches are increasingly used in neurorehabilitation to address psychological distress. Animal-assistance is thought to increase efficacy. The present study evaluates a psychotherapeutic mindfulness- and self-compassion-based group intervention (MSCBI) with and without animal-assistance for patients with acquired brain injury. Patients (N = 31) were randomly assigned to the 6-week intervention with (n = 14) or without animal-assistance (n = 17). Primary outcome was psychological distress at post- and follow-up treatment, secondary outcomes were changes within-session of patients' emotional states, adherence to treatment and attrition. Psychological distress significantly decreased in both groups from pre- to follow-up treatment with no difference between groups. Patients in the animal-assisted MSCBI group reported significantly higher increases in feeling secure, accepted, comforted, grateful, motivated and at ease during the sessions compared to patients in the MSCBI group without animal-assistance. Adherence to sessions was significantly higher in the animal-assisted MSCBI group. Attrition did not significantly differ between groups. Our results show that both MSCBIs with and without animal-assistance are feasible and effective in reducing psychological distress in patients with acquired brain injury. The significant changes within-sessions mainly in relationship-based emotional states and the higher treatment adherence suggest additional effects of animal-assistance. Animal-assistance might increase acceptability and patients' commitment to psychotherapy.
Subject(s)
Brain Injuries , Mindfulness , Neurological Rehabilitation , Animals , Brain Injuries/therapy , Feasibility Studies , Humans , Self-CompassionABSTRACT
The study aims to add a new and beneficial perspective using Immunoinstant G food supplement as an adjuvant treatment. It is essential to study the bibliographic resources in the field to identify the current stage of knowledge on this topic. For this purpose, we have prepared a systematic literature review, focusing on the possibilities of improving the treatment of Clostridium difficile (Clostridioides difficile) enterocolitis in patients who need/benefit from neurorehabilitation. The systematic literature review was prepared using the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA). We obtained a number of 6 articles that were considered in the elaboration of our systematic literature review. We identified that this field is insufficiently studied and needs additional clinical trials. Our study contributes to increasing this understanding based on the thorough theoretical and practical approach of this topic.