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SUMMARY: Spinal cord injury (SCI) usually arises from compression due to traffic accidents and falls, resulting in varying degrees of movement, sensory loss, and possible paralysis. Glabridin (Gla) is a natural compound derived from licorice. It significantly affects drug development and medicine because of its anti-inflammatory, anti-oxidative, anti-tumoral, antibacterial, bone protective, cardiovascular protective, neuroprotective, liver protective, anti-obesity, and anti-diabetic properties. Various methods were employed to administer Gla to SCI mice in order to investigate its impact on the recovery of motor function. The mice were allocated into four cohorts using a randomization procedure. In the sham cohort, solely the lamina of vertebral arch was surgically exposed without causing any harm to the spinal cord tissue. Conversely, the injury cohort was subjected to spinal cord tissue damage and received no treatment thereafter. The mice in the remaining two cohorts received a dosage of 40 mg/kg Gla every two days via either intraperitoneal or intrathecal injection for a duration of 42 d following spinal cord injury. We conducted behavioral tests utilizing the Basso Mouse Scale score and gait analysis techniques. Magnetic resonance imaging and hematoxylin and eosin were employed to evaluate scar tissue formation. Systemic inflammation in mice was evaluated by employing an enzyme-linked immunosorbent assay. Gla promoted motor function recovery in mice following SCI and improved the pathological environment in the damaged area. These alterations were more evident in mice subjected to the intrathecal injection method. Intraperitoneal injections appear to be more beneficial for controlling systemic inflammatory responses. Although more intensive studies are required, Gla exhibits promising clinical potential as a cost-effective dietary phytochemical.
La lesión de la médula espinal (LME) generalmente surge de la compresión producto de caídas y accidentes de tránsito, lo que resulta en alteraciones del movimiento, pérdida sensorial y posible parálisis. La Glabridina (Gla) es un compuesto natural derivado del regaliz, constituyéndose en un aporte significativo para el desarrollo de fármacos y la medicina debido a sus propiedades antiinflamatorias, antioxidantes, antitumorales, antibacterianas, osteoprotectoras, cardioprotectoras, neuroprotectoras, hepatoprotectoras, antidiabéticas y contra la obesidad. En el presente trabajo se emplearon varios métodos para administrar Gla a ratones con lesión medular con el fin de investigar su impacto en la recuperación de la función motora. Los ratones fueron distribuidos en cuatro grupos mediante un procedimiento de aleatorización. En el grupo simulado, únicamente se expuso quirúrgicamente la lámina del arco vertebral sin causar ningún daño al tejido de la médula espinal. Por el contrario, el grupo lesionado fue sometido a daño del tejido de la médula espinal, sin recibir tratamiento posterior. Los ratones de los dos grupos restantes recibieron una dosis de 40 mg/kg de Gla cada dos días mediante inyección intraperitoneal o intratecal durante 42 días después de la lesión de la médula espinal. Fueron realizadas pruebas de comportamiento utilizando la puntuación de la escala Basso Mouse y técnicas de análisis de la marcha. Se emplearon imágenes por resonancia magnética y se aplicaron tinciones histológicas (Hematoxilina & Eosina) en muestras para evaluar la formación de tejido cicatricial. La inflamación sistémica en ratones se evaluó mediante el empleo de un ensayo inmunoabsorbente ligado a enzimas. Gla promovió la recuperación de la función motora en ratones después de una lesión medular y mejoró el entorno patológico en el área dañada. Estas alteraciones fueron más evidentes en ratones sometidos al método de inyección intratecal. Las inyecciones intraperitoneales parecen ser más beneficiosas para controlar las respuestas inflamatorias sistémicas. Aunque se requieren estudios más intensivos, Gla exhibe un potencial clínico prometedor como fitoquímico dietético rentable.
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Animales , Femenino , Ratones , Fenoles/administración & dosificación , Traumatismos de la Médula Espinal/tratamiento farmacológico , Isoflavonas/administración & dosificación , Ensayo de Inmunoadsorción Enzimática , Supervivencia Celular , Técnica del Anticuerpo Fluorescente , Fármacos Neuroprotectores , Recuperación de la Función , Ratones Endogámicos C57BL , Actividad Motora/efectos de los fármacosRESUMEN
Introducción. La parálisis cerebral (PC) es una de las principales causas de discapacidad en la población infantil, afectando diversas áreas del desarrollo como la función motora gruesa; equilibrio y marcha. Hay evidencia de los beneficios de la terapia acuática y de cómo puede complementar la rehabilitación. Objetivo. Describir la efectividad de las intervenciones acuáticas en personas con PC, determinar mejoras en la función motora gruesa uso de métodos, protocolos y dosificación. Métodos. Se analizaron 9 estudios aleatorizados controlados desde el 2012 a la fecha, seleccionados por un experto y cuyos sujetos tenían PC espástica, Gross Motor Function Classification System (GMFCS) I a IV, entre los 2 y 20 años. Post intervención acuática se reportan mejoras significativas en el promedio de los ítems medidos por Gross motor function measure (GMFM). De los métodos que contribuyeron a mejoras se encuentra Halliwick y ejercicios acuáticos sin un programa específico. Resultados. Se obtuvieron mejoras de 35 a 100 minutos, y de 12 a 30 sesiones en total. No se logra concluir el tipo de terapia más efectiva, ya que las medidas de resultado y las características de los sujetos eran diversas. Conclusión. Una dosificación mínima de 2 veces por semana, 35 minutos de intervención en un total de 16 sesiones (9,3 horas en total) pareciera mejorar la función motora gruesa, cuyos resultados son transferibles a las actividades en tierra inmediatamente, sin embargo, no se obtiene información si se mantienen a mediano o largo plazo.
Background. Cerebral palsy (CP) is one of the main causes of disability in the child population, affecting various areas of development such as gross motor function; balance and gait. There is evidence of the benefits of aquatic therapy and how it can complement rehabilitation. Objective. to describe the effectiveness of aquatic interventions in people with CP, to determine improvements in gross motor function using methods, protocols, and dosage. Methods. Nine randomized controlled studies were analyzed from 2012 to date, selected by an expert and whose subjects had spastic CP, Gross Motor Function Classification System (GMFCS) I to IV, between 2 and 20 years of age. Results. After the aquatic intervention, significant improvements were reported in the average of the Gross motor function measure (GMFM) items measured. Of the methods that contributed to improvements, there is Halliwick and aquatic exercises without a specific program. Results. Improvements were obtained from 35 to 100 minutes, and from 12 to 30 sessions in total. It is not possible to conclude the most effective type of therapy, since the outcome measures and the characteristics of the subjects were diverse. Conclusion. A minimum dosage of 2 times per week, 35 minutes of intervention in a total of 16 sessions (9.3 hours in total) seems to improve gross motor function, the results of which are immediately transferable to activities on land, however, it is not obtains information if they are maintained in the medium or long term.
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Objective To analyze the morphological alterations of corpus callosum in children with spastic cerebral palsy(SCP)using three-dimensional magnetization prepared rapid acquisition gradient echo(3D-MPRAGE)technology and to investigate the correlation between morphological indexes and gross motor function.Methods Sagittal T1WI 3D-MPRAGE data was collected from 136 children with SCP(SCP group)and 132 age-and gender-matched healthy controls(HC)(HC group),and the gross motor function measure-88(GMFM-88)was applied to assess the gross motor function.Independent sample t-test was used to compare the corpus callosum surface area,volume,maximum anterior-posterior diameter,median sagittal area(total area and area of Ⅰ-Ⅴ zone)between the two groups.Partial correlation analysis was performed to calculate the correlation between morphological indexes of the corpus callosum and GMFM-88 with age as a covariate.Results Children under 3 years old,the corpus callosum surface area of the SCP group(3 914.51 mm2±1 207.97 mm2)was lower than that of the HC group(5 725.51 mm2±1 412.66 mm2).The volume of the corpus callosum(6 108.46 mm3±2 803.97 mm3)in the SCP group was lower than that of the HC group(11 297.96 mm3±4 109.02 mm3).Also,the maximum anterior-posterior diameter of the corpus callosum in the SCP group(53.40 mm±6.31 mm)was lower than that of the HC group(57.74 mm±6.04 mm)(all P<0.05).Children over 3 years old,the corpus callosum surface area of the SCP group(4 970.06 mm2±1 191.31 mm2)was lower than that of the HC group(6 372.55 mm2±1 445.59 mm2).The volume of the corpus callosum(8 330.20 mm3±2 888.20 mm3)in the SCP group was lower than that of the HC group(13 599.82 mm3±3 429.81 mm3)(all P<0.05).Partial correlation analysis showed significant correlation between corpus callosum volume,median sagittal area and gross motor score(P<0.01)with age as a covari-ate.Conclusion The 3D-MPRAGE technology can be useful for the comprehensive assessment of morphological alterations of the corpus callosum in SCP.The corpus callosum volume,and median sagittal area may become neuroimaging references for the assess-ment of motor development in cerebral palsy(CP).
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Objective To provide reference for the subsequent clinical application of WBV,based on the impacts of whole body vibration(WBV)with different frequencies on gross motor function and walking function in children with dyskinetic cerebral palsy.Methods 60 children aged 6~12 with dyskinetic cerebral palsy,who had been treated at the department of rehabilitation medicine in the Affiliated Southwest Medical University from October 2021 to November 2022,were selected.They were randomly divided into a control group(n = 20),(25±5)Hz group(n = 20),and(35±5)Hz group(n = 20).All the three groups received conventional rehabilitation,while the(25±5)Hz group received additional WBV with(25±5)Hz and the(35±5)Hz group received WBV with(35±5)Hz.They were treated for eight weeks.The scores on D and E domains of GMFM-88,TUGT,the score on Berg Balance Scale,and footprint analysis were used for assessment of the efficacy after treatment.Results As compared with the baselines,the scores were improved in the three groups after treatment(P<0.001).BBS(F = 12.502),TUGT(F = 8.211),scores on D and E domains of GMFM-88(F = 12.802 and 8.505),stride length(F = 12.279),1MWT distance(F = 12.619),and step width(F = 13.582)were better in the(35±5)Hz group than in the(25±5)Hz group and the control group(P<0.05 and P<0.01);and the efficacy was better in the(25±5)Hz group than in the control group,the difference was statistically significant(P<0.05 and P<0.01).Conclusion WBV can improve trunk control,lower limb gross motor function,and walking function in children with involuntary motor type cerebral palsy.(35±5)Hz is better than(25±5)Hz for the efficacy of WBV.
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OBJECTIVE:To systematically evaluate the efficacy of rehabilitation exoskeleton robots on the lower limb motor function of stroke patients using Meta-analysis and to compare the efficacy of different lower limb exoskeleton robots,so as to provide a theoretical basis for the scientific selection of suitable exoskeleton robots for patients with post-stroke lower limb motor dysfunction. METHODS:Computer searches of the Cochrane Library,PubMed,Web of Science,Embase,CNKI,VIP,and WanFang Data were conducted to collect randomized controlled clinical studies on exploring lower extremity rehabilitation exoskeleton robots to improve lower limb motor function in stroke patients published from database inception to November 2022.Two researchers conducted the literature search and screening.The quality of the included literature was evaluated using the Cochrane 5.1.0 risk of bias assessment tool and the Jadad scale.Meta-analysis was performed using RevMan 5.4 and Stata 17.0 software. RESULTS:(1)Finally 22 publications were included,involving 865 patients(n=436 in the test group and n=429 in the control group),and the Jadad score showed that all the included articles were of high quality.(2)Meta-analysis results showed that the exoskeleton robot significantly improved the Fugl-Meyer Assessment of Lower Extremity score(mean difference[MD]=2.63,95%confidence interval[CI]:1.87-3.38,P<0.05),Berg Balance Scale score(MD=3.62,95%CI:1.21-6.03,P<0.05),Timed Up and Go score(MD=-2.77,95%CI:-4.48 to-1.05,P<0.05)and step frequency score(MD=3.15,95%CI:1.57-4.72,P<0.05)in stroke patients compared with the control group.However,there was no significant improvement in the Functional Ambulation Category Scale score(MD=0.30,95%CI:-0.01 to 0.61,P>0.05)and 6-minute walk test score(MD=3.77,95%CI:-6.60 to 14.14,P>0.05).(3)Network Meta-analysis results showed that compared with the conventional rehabilitation therapy,both the level-walking exoskeleton(MD=10.23,95%CI:3.81-27.49,P<0.05)and the body-weight support exoskeleton(MD=33.66,95%CI:11.49-98.54,P<0.05)improved the Fugl-Meyer Assessment of Lower Extremity score.Compared with the conventional rehabilitation therapy,body-weight support exoskeleton significantly improved the Berg Balance Scale scores(MD=79.86,95%CI:2.34-2 725.99,P<0.05).In terms of Fugl-Meyer Assessment of Lower Extremity and Berg Balance Scale scores,the ranking results were body-weight support exoskeleton>level-walking exoskeleton>conventional rehabilitation therapy.Compared with the conventional rehabilitation therapy,level-walking exoskeleton significantly improved the Functional Ambulation Category Scale score(MD=1.38,95%CI:1.00-1.90,P<0.05)and body-weight support exoskeleton significantly improved the Timed Up and Go score(MD=0.07,95%CI:0.01-0.51,P<0.05).In terms of Functional Ambulation Category Scale and Timed Up and Go scores,the ranking results were level-walking exoskeleton>body-weight support exoskeleton>conventional rehabilitation therapy. CONCLUSION:Rehabilitation exoskeleton robots can improve balance,walking and activities of daily living in stroke patients,with body-weight support exoskeleton being more effective in improving lower limb motor function and balance and level walking exoskeleton being more effective in improving functional walking and transfer.
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BACKGROUND:Current rehabilitation programs are effective in treating post-stroke sequelae,but the treatment cycle is long and the labor cost is high.Brain-computer interface technology can be used for the treatment of post-stroke patients by extracting signals from the brain's neural activity through special equipment and converting this signal into commands that can be recognized by a computer. OBJECTIVE:To analyze and summarize the application of brain-computer interface technology in the upper limb motor function rehabilitation of stroke patients in recent years and to explore the clinical value of brain-computer interface technology in the upper limb function rehabilitation of stroke patients. METHODS:CNKI and PubMed were retrieved for relevant literature published from 2000 to 2022.The keywords were"stroke,electroencephalogram,brain-computer interface,upper limb,virtual reality technology,functional electrical stimulation,exoskeleton"in Chinese and"stroke,brain-computer interface,computer assistance,upper limb,virtual reality technology,functional electrical stimulation,exoskeleton"in English. RESULTS AND CONCLUSION:The brain-computer interface has shown promise for the restoration of upper limb motor function in stroke patients and has been shown to produce results that are unattainable with conventional treatments,and is well worth further research and promotion,but the mechanisms have not been fully elucidated.Also the ability to accurately decode all degrees of freedom of upper limb movements to provide flexible and natural control remains a challenge from the perspective of brain-computer interface systems that capture electroencephalogram signals from patients.Future research should focus on clarifying the specific neural mechanisms by which brain-computer interface technology facilitates upper limb motor recovery after stroke and identifying rehabilitation options such as brain-computer interfaces combined with external devices to facilitate upper limb motor function recovery in stroke patients.
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BACKGROUND:Spinal cord injury involves mechanisms such as oxidative stress,inflammation,apoptosis and autophagy.Activation of autophagy can improve neuromotor function after spinal cord injury and play a protective role in the spinal cord. OBJECTIVE:To investigate the effects of Periplaneta americana powder on hindlimb motor function and the autophagy protein Beclin-1 in the injured site of rats after spinal cord hemisection. METHODS:Thirty Sprague-Dawley rats,6-8 weeks of age,were randomly divided into three groups(n=10 per group).In the sham-operated group,the lamina was just opened to exposure the spinal cord followed by suturing.Normal saline group and Periplaneta americana powder group both underwent left hemisection of the spinal cord to prepare animal models of spinal cord hemisection.The normal saline group was continuously gavaged with normal saline for 14 days,and the Periplaneta americana powder group was continuously gavaged with Periplaneta americana powder for 14 days.The Basso Beattie Bresnahan scale score was performed at the 6th hour,1st day,3rd day,7th day and 14th day after operation to observe the hindlimb motor function.After 14 days of administration,the rats were sacrificed and sampled.Immunohistochemistry,western blot and immunofluorescence were used to detect the expression of Beclin-1 in the injured site of the spinal cord after hemisection. RESULTS AND CONCLUSION:After operation,the Basso Beattie Bresnahan scale scores were gradually increased in the normal saline group and Periplaneta americana powder group.Compared with the sham-operated group,the Basso Beattie Bresnahan scale scores were significantly reduced in the normal saline group and Periplaneta americana powder group at the 6th hour,1st day,3rd day,7th day and 14th day after operation(P<0.05).The Basso Beattie Bresnahan scale scores in the Periplaneta americana powder group were significantly higher than those in the normal saline group at the 7th and 14th days after operation(P<0.05).Immunohistochemical staining showed that Beclin-1 was weakly positive in the sham-operated group,mainly expressed in the cytoplasm;in the normal saline group,Beclin-1 was mainly expressed in the cytoplasm and partially expressed in the nuclear membrane;in the Periplaneta americana powder group,Beclin-1 was mainly expressed in the cytoplasm and partially expressed in the nuclear membrane.The proportion of Beclin-1 positive cells was higher in the normal saline and Periplaneta americana powder groups than in the sham-operated group(P<0.05),while the proportion of Beclin-1 positive cells was higher in the Periplaneta americana powder group than in the normal saline group(P<0.05).Western blot assay and immunofluorescence staining showed that the Beclin-1 protein expression was higher in the normal saline and Periplaneta americana powder groups than in the sham-operated group(P<0.05),and moreover,the Beclin-1 protein expression was higher in the Periplaneta americana powder group than in the normal saline group(P<0.05).To conclude,Periplaneta americana powder could improve the hindlimb motor function of rats with spinal cord hemisection injury,and the mechanism may be that polysaccharides in the Periplaneta americana powder increase the expression of Beclin-1.
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OBJECTIVE:To systematically evaluate the efficacy of transcranial direct current stimulation on the motor function of patients with Parkinson's disease,and to compare the efficacy of transcranial direct current stimulation at different targets on the motor function of patients with Parkinson's disease,so as to provide a theoretical basis for the target selection of transcranial direct current stimulation in clinical practice. METHODS:Cochrane Library,PubMed,Web of Science,CNKI,VIP,WanFang Data were retrieved for randomized controlled trials on the improvement of motor function in patients with Parkinson's disease by transcranial direct current stimulation published from the database inception to January 2023.The keywords were"Parkinson,transcranial direct current stimulation"in English and Chinese.The quality of the included studies was evaluated using the Cochrane 5.1.0 risk of bias assessment tool and the PEDro scale.Meta-analysis of outcome indicators was performed using RevMan 5.4 and Stata 17.0 software. RESULTS:Fifteen randomized controlled trials were finally included,and the PEDro scale showed that all were high-quality or very high-quality studies.Meta-analysis showed that transcranial direct current stimulation significantly improved Unified-Parkinson Disease Rating Scale part III score[mean difference(MD)=-2.49,95%confidence interval(CI):-4.42 to-0.55,P<0.05),step frequency score(MD=0.07,95%CI:0.03-0.11,P<0.05)and step speed score(MD=0.02,95%CI:0.00-0.05,P<0.05),but not for Berg Balance Scale scores(MD=2.57,95%CI:-0.74 to 5.87,P>0.05).Network Meta-analysis probability ranking:In terms of Unified-Parkinson Disease Rating Scale part III scores,the probability ranking results of target stimulation efficacy were dorsal lateral prefrontal cortex(52.4%)>primary motor cortex(45.8%)>central point of the brain(1.8%)>conventional rehabilitation(0%);in terms of gait frequency scores,the probability probability ranking results of target stimulation efficacy were cerebellum(50.1%)>central point of the brain(45.8%)>dorsal lateral prefrontal cortex(3.9%)>primary motor cortex(0.2%)>conventional rehabilitation(0%);in terms of gait speed scores,the probability ranking results of target stimulation efficacy were cerebellum(64.8%)>dorsal lateral prefrontal cortex(23.8%)>central point of the brain(9.4%)>primary motor cortex(1.7%)>conventional rehabilitation(0.4%);in terms of Berg Balance Scale scores,the probability ranking results of target stimulation efficacy were cerebellum(77.4%)>dorsal lateral prefrontal cortex(20.7%)>central point of the brain(0.7%)>conventional rehabilitation(0.2%). CONCLUSION:Transcranial direct current stimulation significantly improves motor function of patients with Parkinson's disease,with better motor coordination in the dorsolateral prefrontal cortex and better walking and balance in the cerebellum.
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Objective To study the value of DSI Studio combined with diffusion tensor imaging(DTI)in evaluating the prognosis of postoperative motor function in patients with brain functional area tumors.Methods From January 2018 to August 2022,41 patients with brain functional area tumors who underwent surgical treatment and were pathologically diagnosed in our hospital were included in the study.All patients completed 3.0 T MRI routine sequence and DTI examination.DTI parameters of the corticospinal tract(CST)projection area of posterior limb of the internal capsule on the affected side and the healthy side were measured respectively,and the correlation with MRC muscle strength score and the CST grade was analyzed.Results The FA value of the affected side was significantly lower than that of the healthy side(P<0.001),and the ADC value of the affected side was significantly higher than that of the healthy side(P<0.001).The FA value of the affected side and the lateral rFA value were negatively correlated with the CST grade(P<0.01).ADC value and rADC value were positively correlated with CST grade(P<0.01).The FA value of the affected side and the partial rFA value were positively correlated with the degree of muscle strength score before and after surgery(P<0.01).ADC value and rADC value were negatively corre-lated with CST grade(P<0.01).Preoperative CST grading was negatively correlated with contralateral muscle strength.The area under the ROC curve of FA value,rFA value,ADC value,rADC value,and CST grade were 0.820(P<0.01),0.796(P<0.01),0.698(P<0.05),0.638(P>0.05)and 0.708(P<0.05),respectively.Conclusion DTI parameters,muscle strength score and CST grade have certain value in the evaluation of postoperative motor function prognosis in patients with brain functional tumors.
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Objective:To observe any effect of using the KidGo exoskeleton rehabilitation robot on the lower limb motor function of children with spastic cerebral palsy.Methods:Thirty children with spastic cerebral palsy were sorted at random into a control group and a robotics group, each of 15. Both groups received conventional rehabilitation 5 days a week for 12 weeks, but the robotics group also spent 30 minutes daily training with the KidGo exoskeleton robot. Before and after the intervention, the lower limb muscle tone and strength, gross motor function, balance, and functional independence of both groups were assessed using surface electromyography, a handheld muscle strength tester, the gross motor function measure, the Berg Balance Scale, and the Wee-functional independence measure.Results:After the intervention great improvements in average lower limb muscle tone and strength, gross motor function, balance, and functional independence were observed in both groups, but the improvements in the robotics group were significantly greater, on average.Conclusion:Supplementing conventional rehabilitation with training using the KidGo exoskeleton rehabilitation robot can better improve muscle tone, strength, gross motor functioning, balance, and the functional independence of children with spastic cerebral palsy.
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Objective:To explore the utility of applying low frequency transcranial magnetic stimulation (rTMS) in the acute stage of ischemic stroke in terms of improving upper limb motor function.Methods:Eighty ischemic stroke survivors in the acute stage were randomly divided into a control group and an experimental group, with 40 in each. In addition to routine rehabilitation, the experimental group was given low frequency rTMS, while the control group was provided with sham rTMS. Before and after 4-weeks of treatment, upper limb motor function was evaluated using the Fugl-Meyer rating scale (FMA), Wolf motor function tests (WMFTs), the modified Barthel index (MBI) and in terms of motor evoked potential (MEP) latency and amplitude.Results:There were no significant differences between the two groups before the treatment. Afterward, however, the average FMA, WMFT, MBI scores had improved significantly more in the experimental group, on average, as had the average MEP amplitude.Conclusion:Low frequency rTMS in the acute phase of ischemic stroke can improve upper limb motor function and ability in the activities of daily living.
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Objective:To explore any effect of intermittent theta burst stimulation (iTBS) and of different sequencing of rehabilitation training on upper limb dysfunction after a stroke.Methods:Thirty-six patients with upper limb motor dysfunction after subacute subcortical cerebral infarction were divided at random into a control group, an experimental group 1, and an experimental group 2, each of 12. The control group was given prosthetic stimulation and upper limb function rehabilitation training. Experimental group l received focal iTBS stimulation on M1 immediately followed by upper limb rehabilitation training. Experimental group 2 received the same treatment but in reverse order. The experiment lasted four weeks. Upper limb functioning and ability in the activities of daily living (ADL) were quantified before and after the interventions using the Fugl-Meyer upper extremity assessment (FMA-UE) and the modified Barthel index (MBI). Cortical latency (CL) was also recorded.Results:Before the treatment there were no significant differences among the three groups, but afterward a significant increase was observed in the average FMA-UE and MBI scores of both experimental groups accompanied by a significant decrease in CL. There was no significant difference between the two experimental groups′ results, on average.Conclusion:Supplementing upper limb rehabilitation training with iTBS can significantly improve the upper limb functioning of ischemic stroke survivors, and the sequencing of the training has no effect on the therapeutic results.
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【Objective】 To investigate the development of the foot arch and develop a rehabilitation treatment plan for children with spastic diplegia of cerebral palsy gross motor function classification(GMFCS) system grade Ⅰ-Ⅱ. 【Methods】 Fifty children with spastic diplegia and flat exostosis with GMFCS grade Ⅰ-Ⅱ were selected into this study, and were divided into observation group (n=25) and control group (n=25) using the random number table method. The control group received conventional exercise therapy, while the observation group received arch correction exercises additionally. Both groups underwent treatment once a day for 5 days a week. Children in both groups were evaluated before and 6 months after the intervention. The arch index F, electronic plantar pressure measurement index, and the D and E scores of the Gross Motor Function Measure (GMFM-88) were used to assess the severity of clubfoot and the level of motor development. 【Results】 Bofore intervention, there were no significant differences in the arch index F, electronic plantar pressure measurement index, and GMFM-88 score between the observation group and the control group (P>0.05). After 6 months of intervention, the scores of arch index F(t=9.89, 5.35), and GMFM-88 (t=6.59, 3.46) in both groups increased significantly(P<0.05). The scores of foot arch index F (26.08±0.73) and GMFM-88 (30.24±7.94) in the observation group and control group were significantly higher than those in the control group (25.34±0.64, 25.20±7.06) (t=3.81, 2.37, P<0.05). Plantar pressure pictures showed a gradual increase in lateral foot pressure compared to medial pressure, and a decrease in pressure in the midfoot arch area, indicating a decrease in foot valgus and progressive development of the arch. 【Conclusion】 The comprehensive rehabilitation therapy technique incorporating arch correction and gymnastics treatment can promote the arch development in children with GMFCS grade Ⅰ-Ⅱ spastic diplegia, which is important for improving their foot and ankle function and motor development level.
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【Objective】 To observe the effects of mirror neuron system theory(MNST) on hand dexterity and fine motor function in preschool children with developmental coordination disorder(DCD), so as to provide reference for the rehabilitation of children with DCD. 【Methods】 A total of 51 children with DCD treated at Nantong Maternal and Child Health Care Hospital from June 2021 to April 2023 were enrolled in this study, and were randomly assigned to treatment group (n=26) and control group (n=25) except for 5 cases who missed in the follow-up. Both groups received conventional rehabilitation training, while the treatment group received MNST additionally. The hand dexterity and fine motor function of both groups were assessed using the hand dexterity subscale of the Movement Assessment Battery for Children-Second Edition (MABC-2), Peabody Developmental Motor Scale-Fine Motor (PDMS-FM), and Function Independence Measure for Children (WeeFIM) before and after 12 weeks of treatment. 【Results】 Before treatment, there were no significant differences in hand dexterity subscale of MABC-2, PDMS-FM, and WeeFIM scores between the two groups (P>0.05). After treatment, both groups showed improvements in hand dexterity subscale of MABC-2, PDMS-FM, and WeeFIM scores (treatment group: t=35.620, 42.084, 40.072; control group: t=14.000, 12.017, 14.054, P<0.001), with the treatment group showing significantly greater improvements compared to the control group (t=2.611, 3.120, 2.331, P<0.05). 【Conclusion】 MNST combined with conventional rehabilitation training can enhance hand dexterity and fine motor function in children with DCD, thereby improving children′s activities of daily living.
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【Objective】 To systematically evaluate the effects of various rehabilitation therapies, including hydrotherapy, rehabilitation robot, core stability training (CST), whole-body vibration training (WBV), repetitive transcranial magnetic stimulation (rTMS), sling exercise training (SET), task-oriented training (TOT) and virtual reality (VR), on motor dysfunction in children with spastic cerebral palsy, so as to provide a reference for the scientific selection of rehabilitation programs for children. 【Methods】 Randomized controlled trials (RCTs) of the 8 rehabilitation therapies in the treatment of motor dysfunction in children with spastic cerebral palsy were searched from various databases, including PubMed, The Cochrane Library, Web of Science, EmBase, CNKI, CBM, VIP, and WanFang Database, from database inception to December 2022. Two researchers independently conducted literature screening, data extraction, and literature quality evaluation. Network Meta-analysis was performed using ADDIS 1.16.6 software, and Stata 16.0 software was used for graphic representation. 【Results】 A total of 43 RCTs involving 2 722 children with spastic cerebral palsy were included in the analysis. The results of the network Meta-analysis indicated that WBV had the most significant effect in improving the GMFM-88 score (MD=18.56, 95%CI: 34.91 - 2.45, P<0.05). Rehabilitation robot had the most significant effect in improving dimensions D (MD=6.30, 95%CI: 8.44 - 4.41, P<0.05) and E (MD=10.03, 95%CI: 15.03 - 4.84, P<0.05) of the GMFM-88 score. Additionally, hydrotherapy showed the most significant effect in improving the BBS score (MD=11.24, 95%CI: 22.26 - 0.20, P<0.05). 【Conclusions】 For children with spastic cerebral palsy, WBV is the most effective rehabilitation therapy to improve gross motor function, rehabilitation robot is the most effective therapy for improving standing and walking function, and hydrotherapy is the most effective therapy for improving balance.
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OBJECTIVE To explore the neuroprotective effect of sodium aescinate on rats with Parkinson’s disease by regulating the silent information regulator 1 (SIRT1)/nuclear factor-κB (NF-κB) signaling pathway. METHODS The Parkinson’s disease rat model was constructed by using 6-hydroxydopamine injection method. Forty-eight rats successfully modeled were randomly divided into model group, sodium aescinate low-dose group (1.8 mg/kg), sodium aescinate high-dose group (3.6 mg/kg), sodium aescinate+EX527 (sodium aescinate 3.6 mg/kg+SIRT1 inhibitor EX527 5 mg/kg) group, with 12 rats in each group. Another 12 healthy rats were selected as the sham operation group. Each group was injected with the corresponding drug solution intraperitoneally, once a day, for 21 consecutive days. Twenty-four hours after the end of the last administration, the motor and cognitive functions of rats were detected, and the morphology of neurons in the substantia nigra and CA1 region of hippocampal tissue were observed. The content of dopamine (DA) in the nigrostriatal and the expression levels of tyrosine hydroxylase (TH) and α-synuclein (α-Syn) in the substantia nigra were detected. The serum levels of pro-inflammatory factor [interleukin-6 (IL-6), IL-18], anti-inflammatory factor (IL-10), and the expression levels of SIRT1, phosphorylated NF-κB p65 (p-NF-κB p65) and NF- κB p65 protein in nigrostriatal were detected. RESULTS Compared with sham operation group, the neurons in the substantia nigra and CA1 region of hippocampal tissue were seriously damaged in model group; the number of rotations, escape latency, the expression levels of α-Syn in substantia nigra, the levels of serum pro-inflammatory factors, the relative expression ratio of p-NF- κB p65 and NF-κB p65 protein in nigrostriatal were increased or prolonged significantly (P<0.05); the target quadrant residence time, the content of DA in nigrostriatal, the expression level of TH in substantia nigra, the serum level of anti-inflammatory factor, and the expression level of SIRT1 protein in substantia nigra striatum were significantly decreased or shortened (P<0.05). Compared with model group, the damage degrees of neuron in sodium aescinate groups were alleviated, and the quantitative indicators were significantly improved, which were more significant in the high-dose group (P<0.05); EX527 could reverse the improvement effect of high-dose sodium aescinate (P<0.05). CONCLUSIONS Sodium aescinate can inhibit the activation of NF-κB signal by up-regulating the protein expression of SIRT1, thereby reducing the neuroinflammation of rats with Parkinson’s disease, improving the motor and cognitive dysfunctions, and finally playing a neuroprotective role.
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ObjectiveTo investigate the effect of modified Baduanjin exercise, as an rehabilitation exercise, on cardiopulmonary function, motor function and activities of daily living in patients with stroke. MethodsFrom January to September, 2023, 42 stroke patients in the Nanjing Qixia District Hospital were randomly divided into control group (n = 21) and experimental group (n = 21). The control group received routine rehabilitation, and the experimental group received modified Baduanjin exercise in addition, for four weeks. They were assessed with peak oxygen uptake (VO2peak), anaerobic threshold (AT), peak oxygen pulse (VO2peak/HR), forced vital capacity (FVC), forced expiratory volume in the first second (FEV1), peak expiratory flow (PEF), Fugl-Meyer Assessment-upper extremities (FMA-UE), Berg Balance Scale (BBS) and modified Barthel Index (MBI) before and after intervention. ResultsVO2peak, AT, and the scores of FMA-UE, BBS and MBI improved in the control group after intervention (|t| > 2.256, |Z| > 2.936, P < 0.05); while VO2peak, AT, VO2peak/HR, FVC, FEV1, PEF, and the scores of FMA-UE, BBS and MBI improved in the experimental group (|t| > 4.390, |Z| > 3.451, P < 0.001); and all the indexes were better in the experimental group than in the control group (|t| > 4.136,|Z| > 2.751,P < 0.01), except the scores of BBS and MBI. ConclusionModified Baduanjin exercise can improve the cardiopulmonary function and upper limb motor function for stroke patients.
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ObjectiveTo systematically review the evidences of impact of exercise rehabilitation and adapted physical activity on psychomotor skills, motor abilities, and motor development in children with spastic cerebral palsy (CP). MethodsRelevant literature was retrieved from PubMed, Embase, Web of Science and CNKI, from January, 2010 to June, 2023. The contents were coded using International Classification of Diseases, Eleventh Revision, and International Classification of Functioning, Disability and Health; and evidences were analyzed with theoretical framework and code of ICD-11 and ICF. ResultsA total of nine articles were included, from Denmark, South Korea, Australia, Saudi Arabia, Ghana, India and Japan, published from 2015 to 2022. The intervention programs primarily involved exercise rehabilitation (including physical therapy) and adapted physical activity. Exercise rehabilitation included upper limb strength training, lower limb strength training, balance and coordination training, gait training, functional aerobic exercise, stretching and flexibility exercises, flexibility training, muscle relaxation techniques; ten to 50 minutes a time, two to six times a week,with the intensity of low to high, for six to 20 weeks. Adapted physical activities mainly involved adapted running training, virtual games; 60 minutes a time, two to four times a week, with the intensity of medium to high, for six to twelve weeks. Interventions primarily took place in medical and rehabilitation institutions, schools, and home-based communities, with professionals including occupational physical therapists, university researchers, community health personnel and teachers. The outcomes were mainly reflected in four aspects: psychomotor skills, motor abilities, motor development, and quality of life and well-being. In terms of psychomotor skills, adolescents with CP mastered running techniques and knowledge, and enhanced their response to balance threats. In terms of motor abilities, adolescents with CP showed an increase in muscle strength, enhanced muscle endurance, and an expansion of muscle tone; improvements in gait functionality, walking ability, and gait symmetry; increases in walking endurance; improvements in standing function; and improvements in dynamic balance; as well as enhanced control over balance posture. In terms of motor development, there was a significant improvement in activities of daily living, participation levels in school and leisure activities during free time, and an expanded range of motion. In terms of quality of life and well-being, adolescents with CP showed significant enhancements in self-confidence and self-esteem, significant relief from (spastic) pain, and improvements in social well-being and acceptance. ConclusionThis systematic review has synthesized the evidences of benefits of exercise rehabilitation and adapted physical activity on the psychomotor skills, motor abilities and motor development of children and adolescents with spastic CP. In terms of psychomotor skills, exercise rehabilitation and adapted physical activity help to improve the cognitive and motor skills of adolescents with spastic CP. In terms of motor abilities, exercise rehabilitation and adapted physical activity can improve muscle-related functions, gait and walking abilities, as well as balance and coordination. In terms of motor development, exercise rehabilitation and adapted physical activity significantly enhance activities of daily living and the level of participation in leisure physical activities. Finally, exercise rehabilitation and adapted physical activity can increase energy and motivation, alleviate pain, and enhance social well-being and acceptance.
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Objective To systematically review whether mirror therapy(MT)intervention can effectively improve upper extremity motor function and activities of daily living(ADL)in stroke patients;whether its improvement is affected by pa-tients'age and disease course;and whether MT's influencing factors,such as intervention period,time,and fre-quency,have a dosage effect on upper extremity motor function and ADL. Methods Seven databases were searched,including Embase,Web of Science,PubMed,Cochrane Library,Wanfang data,VIP and CNKI from establishment to April,2023,and randomized controlled trials of MT for upper extremity motor function and ADL in stroke patients were screened.Quality assessment was performed using Physiothera-py Evidence Database(PEDro).Meta-analysis was performed using RevMan 5.4.1,and network meta-analysis was performed using R software,reticulated meta-analysis tables and cumulative probability tables were drawn for ranked comparisons,and funnel plots were drawn to test for publication bias of the outcome indicators using Stata 17.0 software.GRADE was used to evaluate the quality of evidence for the outcome indicators. Results A total of 13 papers(532 patients)were included.The PEDro score ranged from 6 to 8.Most of the literature did not report the blinding completely or did not implement allocation concealment,which might have some limita-tions.MT could improve the scores of Fugl-Meyer Assessment-Upper Extremities(n = 466,MD = 6.05,95%CI 3.44~8.66,P<0.001),Barthel index(n = 230,MD = 9.95,95%CI 6.23~13.68,P<0.001)and Functional Inde-pendence Measure(n = 147,MD = 4.17,95%CI 2.61~5.72,P<0.001)in stroke patients.Network meta-analysis showed that MT was more effective in upper limb motor function intervention for stroke patients aged 40 to 59 years with a disease course less than three months;and an intervention period less than four weeks,single inter-vention time less than 30 minutes,intervention duration daily more than 30 minutes and intervention twice daily might optimize the effects on upper limb motor function. Conclusion MT is effective on upper limb motor function and ADL in stroke patients,and the effect on upper limb mo-tor function is affected by the age and disease course of the patients,as well as the period,time and frequency of intervention.
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Objective:To explore the effect of goal directed training(GDT)on motor function of children with severe ce-rebral palsy and to provide evidence for clinical application. Method:A prospective case-control study was conducted with 80 children with severe cerebral palsy,random-ly divided into the study group(n=40)and the control group(n=40).The study group received GDT,while the control group received Neurodevelopment therapy(NDT).The children of the two groups were evaluated by supine and prone position(area A)and sitting position(area B)of 88 items of the gross motor function measure(GMFM-88),visual tracking(area A)and upper limb joint activity(area B)of fine motor function measure(FMFM),level of sitting scale(LSS)and activity daily living scale(ADL)before and at 6-month,12-month after the treatment. Result:After 6 months of treatment,there was no significant difference in GMFM-88 area A and B score,LSS score,FMFM area A and B score and ADL score between the study group and the control group(P>0.05),whereas after 12 months of treatment,the scores of the research group were significantly higher than those of the control group(P<0.05).As treatment duration increased,the scores of both groups increased.Group classification,time and the interaction between time and group had significant effects on GMFM-A,GMFM-B,LSS and FMFM-B scores.Time and interaction between time and group had significant effects on FMFM-A and ADL scores. Conclusion:GDT can improve gross motor function,sitting ability,fine motor function,and the activities of daily living in children with severe cerebral palsy.