Cortical activity in patients with high-functioning ischemic stroke during the Purdue Pegboard Test:insights into bimanual coordinated fine motor skills with functional near-infrared spectroscopy

After stroke,even high-functioning individuals may experience compromised bimanual coordination and fine motor dexterity,leading to reduced functional independence.Bilateral arm training has been proposed as a promising intervention to address these deficits.However,the neural basis of the impairment of functional fine motor skills and their relationship to bimanual coordination performance in stroke patients remains unclear,limiting the development of more targeted interventions.To address this gap,our study employed functional near-infrared spectroscopy to investigate cortical responses in patients after stroke as they perform functional tasks that engage fine motor control and coordination.Twenty-four high-functioning patients with ischemic stroke(7 women,17 men;mean age 64.75±10.84 years)participated in this cross-sectional observational study and completed four subtasks from the Purdue Pegboard Test,which measures unimanual and bimanual finger and hand dexterity.We found significant bilateral activation of the sensorimotor cortices during all Purdue Pegboard Test subtasks,with bimanual tasks inducing higher cortical activation than the assembly subtask.Importantly,patients with better bimanual coordination exhibited lower cortical activation during the other three Purdue Pegboard Test subtasks.Notably,the observed neural response patterns varied depending on the specific subtask.In the unaffected hand task,the differences were primarily observed in the ipsilesional hemisphere.In contrast,the bilateral sensorimotor cortices and the contralesional hemisphere played a more prominent role in the bimanual task and assembly task,respectively.While significant correlations were found between cortical activation and unimanual tasks,no significant correlations were observed with bimanual tasks.This study provides insights into the neural basis of bimanual coordination and fine motor skills in high-functioning patients after stroke,highlighting task-dependent neural responses.The findings also suggest that patients who exhibit better bimanual performance demonstrate more efficient cortical activation.Therefore,incorporating bilateral arm training in post-stroke rehabilitation is important for better outcomes.The combination of functional near-infrared spectroscopy with functional motor paradigms is valuable for assessing skills and developing targeted interventions in stroke rehabilitation.

Deep learning-based activity recognition and fine motor identification using 2D skeletons of cynomolgus monkeys

Video-based action recognition is becoming a vital tool in clinical research and neuroscientific study for disorder detection and prediction.However,action recognition currently used in non-human primate(NHP)research relies heavily on intense manual labor and lacks standardized assessment.In this work,we established two standard benchmark datasets of NHPs in the laboratory:Monkeyin Lab(Mi L),which includes 13 categories of actions and postures,and MiL2D,which includes sequences of two-dimensional(2D)skeleton features.Furthermore,based on recent methodological advances in deep learning and skeleton visualization,we introduced the Monkey Monitor Kit(Mon Kit)toolbox for automatic action recognition,posture estimation,and identification of fine motor activity in monkeys.Using the datasets and Mon Kit,we evaluated the daily behaviors of wild-type cynomolgus monkeys within their home cages and experimental environments and compared these observations with the behaviors exhibited by cynomolgus monkeys possessing mutations in the MECP2 gene as a disease model of Rett syndrome(RTT).Mon Kit was used to assess motor function,stereotyped behaviors,and depressive phenotypes,with the outcomes compared with human manual detection.Mon Kit established consistent criteria for identifying behavior in NHPs with high accuracy and efficiency,thus providing a novel and comprehensive tool for assessing phenotypic behavior in monkeys.

Correlating fine motor function to cognitive competence in children with mental retardation An analysis of 42 cases

BACKGROUND： In clinical practice, the degree of cognitive competence damage correlates to fine motor function deficits in children with psychomotor development retardation. Clear correlations between the two can help to develop and perform corresponding functional training for children with mental retardation （MR）. OBJECTIVE： This study was designed to evaluate and analyze the correlation of fine motor function to cognitive competence in MR children using the Peabody Developmental Motor Scale-Fine Motor （PDMS-FM） and Symbolic Play Test. DESIGN： Scale evaluation and correlation analysis. SETTING： Children＇s Rehabilitation Center ＆ Huajing District Hospital, Children＇s Hospital Affiliated to Fudan University. PARTICIPANTS： A total of 42 MR children, 28 males and 14 females, aged 14-69 months, were admitted to the Rehabilitation Center, Children＇s Hospital, Fudan University between June 2003 and April 2006, and were recruited for this study. All children corresponded to MR diagnosis criteria determined by Chinese Neurology and Psychiatry Society in 1989. Written informed consent for participating in the evaluation and for evaluated content was obtained from each child＇s guardian. METHODS： Subsequent to admission and prior to treatment, fine motor function of each MR child was evaluated using PDMS-FM （Chinese version）. The scale captured 98 items that formed the grasping （Gr） and visual-motor integration （Vi） subtests. Cognitive competence was evaluated using the Symbolic Play Test （Chinese version）, which captured four 6-item specific contents. The original score of each subtest was used to evaluate results for statistical analysis. Higher scores from the two evaluations indicated stronger abilities. Pearson correlation analysis was applied for analyzing data correlation. MAIN OUTCOME MEASURES： Fine motor function was evaluated using PDMS-FM. Cognitive competence was measured using the Symbolic Play Test. Correlations between results from the two evaluations were analyzed. RESULTS： All 42 MR children were included in the final analysis. Correlation analysis results demonstrated significant positive correlations of original scores existed between Gr and Vi subtests in the PDMS-FM （r = 0.761, P 〈 0.01）, and between Vi and Gr subtests in PDMS-FM and Symbolic Play Test （r = 0.663, 0.450, P 〈 0.01）. CONCLUSION： Fine motor function closely correlates to cognitive competence in MR children. This indicates fine motor function training should be developed in combination with cognitive competence training.

健脾益肾推拿法治疗全面性发育迟缓的有效性研析

目的 将健脾益肾推拿法用于全面性发育迟缓患儿,并分析其疗效。方法 选取2019年8月至2021年12月就诊于枣庄市立医院理疗科全面性发育迟缓的患儿60例为研究对象,根据单双号方式分为两组,每组各30例。对照组采取常规治疗,观察组联合健脾益肾推拿法,对两组的全面发育情况、满意度等进行评估。结果 治疗后,两组大运动、精细动作、语言评分高于治疗前,且观察组高于对照组,差异有统计学意义(P <0.05)。治疗后,两组适应性、个人-社交、格赛尔发育量表(Gesell)总分高于治疗前,且观察组高于对照组,差异有统计学意义(P <0.05)。治疗后,两组粗大运动发育量表(GMFM-88)及婴儿到初中生社会能力量表(S-M)评分高于治疗前,且观察组高于对照组,差异有统计学意义(P <0.05)。观察组治疗总满意度为93.33%,高于对照组的73.33%,差异有统计学意义(P <0.05)。结论 健脾益肾推拿法可促进全面性发育迟缓患儿的全面发育,提升患儿的生活能力、运动能力等综合能力,有利于患儿的成长,并取得较高的满意度,值得临床推广。

社交技能在12月龄儿童运动和理解性语言之间的中介作用

目的探究12月龄儿童运动与理解性语言之间的关系,并考察社交技能在二者之间的中介作用。方法选择出生队列中2022年1月—2023年5月在我院儿童保健门诊进行定期随访的12月龄儿童作为研究对象,采用调查问卷收集一般人口学信息,使用年龄发育进程问卷-第三版(ASQ-3)评估儿童的运动和社交技能,采用汉语沟通发展量表-普通话版(PCDI)评估儿童的理解性语言。结果在12月龄儿童中,大运动、精细运动、社交与理解性语言均呈正相关;调整协变量后,社交技能在12月龄儿童的大运动[β=0.27,95%CI(0.17~0.39)]、精细运动[β=0.45,95%CI(0.30~0.62)]和理解性语言之间起完全中介作用。结论在12月龄儿童中,运动可以通过社交技能间接促进理解性语言的发展。

热身活动对电子竞技选手模拟FPS游戏时精细动作技能及神经效率的影响

目的:电子竞技选手与传统体育项目运动员一样,需要具有精细动作技能以及神经效率。研究旨在探究热身活动对电子竞技选手精细动作技能和神经效率的影响。方法:招募电子竞技选手33人,分别在无热身和热身两种状态下对第一人称射击游戏时的准确率、反应时间、环数得分,以及前额叶皮层氧合血红蛋白浓度变化进行了测量。结果:在热身状态下,电子竞技选手的准确率(无热身=52.40%±10.36%,热身后=66.38%±8.75%)及环数得分(无热身=31±6分,热身后=46±5分)均高于无热身状态;反应时间(无热身=453.34±38.29ms,热身后=424.60±34.15ms)短于无热身状态。与此同时,额极区中通道6(无热身=2.31±2.88 mmol×10^(-7),热身后=1.12±2.90 mmol×10^(-7))、通道11(无热身=-1.84±2.85 mmol×10^(-7)-,热身后=0.59±2.19 mmol×10^(-7))和通道12(无热身=1.73±1.88 mmol×10^(-7),热身后=0.20±2.20 mmol×10^(-7))的氧合血红蛋白浓度变化较无热身时显著下降。此外,无热身时环数得分与额极区(通道6)的氧合血红蛋白浓度变化显著相关(r=0.372,P=0.033);热身后准确率与额极区(通道6)的氧合血红蛋白浓度变化显著相关(r=-0.393,P=0.024),环数得分与额极区(通道12)的氧合血红蛋白浓度变化呈显著相关(r=-0.485,P=0.004)。结论:热身活动可提高电子竞技选手的精细动作技能,增强前额叶皮层额极区的神经效率;精细动作技能的提高可能与神经效率的改善有关。

治疗性聆听联合作业治疗对孤独症谱系障碍儿童的影响

目的 观察治疗性聆听联合作业治疗对孤独症谱系障碍(ASD)儿童精细动作和日常生活能力方面的疗效。方法选择2022年4月~2023年4月北京博爱医院儿童康复科2.6~6岁ASD儿童38例,随机分为试验组(n=19)和对照组(n=19),两组均接受基础康复治疗和作业治疗,试验组在常规治疗基础上进行治疗性聆听,治疗周期10周。治疗前后两组均采用儿童障碍评估量表(pediatric evaluation of disability inventory,PEDI)、Peabody运动发育量表(peabody developmental motor scales 2,PDMS-2)、孤独症行为量表(autism behavior checklist,ABC)进行评价。结果 治疗后,两组PEDI得分、PDMS-2抓握分测试、PDMS-2视觉-运动整合分测试评估分显著提高,ABC评分显著降低,且试验组与对照组在量表后测分数上具有显著差异(P<0.05),试验组的治疗效果优于对照组。结论 治疗性聆听联合作业治疗可更好促进ASD儿童双手精细运动发育和日常生活能力的提高。

全身垂直律动疗法联合肌电生物反馈对痉挛型脑性瘫痪患儿精细运动功能及步行功能的影响

目的:分析全身垂直律动疗法联合肌电生物反馈对痉挛型脑性瘫痪患儿精细运动功能及步行功能的影响。方法:选取2022年3月至2023年7月我院收治的106例痉挛型脑性瘫痪患儿作为研究对象,随机为对照组、观察组,每组各53例。对照组采用肌电生物反馈治疗,观察组采用全身垂直律动疗法+肌电生物反馈治疗。比较两组患者治疗前后下肢关节活动度、平衡能力[Berg平衡量表(BBS)]、痉挛程度[改良Ashworth痉挛量表(MAS)]、精细运动功能[精细运动功能量表(FMFM)]、步行功能[功能性步行分级(FAC)、6 min步行距离(6MWD)]。结果:治疗1、3个月后,两组患儿足背屈角较治疗前均减小,且观察组足背屈角小于对照组(P<0.05);两组患儿腘窝角、大腿内收肌角较治疗前均增大,且观察组腘窝角、大腿内收肌角大于对照组(P<0.05);两组患儿BBS评分较治疗均升高,且观察组BBS评分高于对照组(P<0.05);两组患儿MAS评分均降低,且观察组MAS评分低于对照组(P<0.05)。与治疗前比较,两组患儿治疗1、3个月后FMFM评分均升高,且观察组FMFM评分高于对照组(P<0.05)。治疗1、3个月后,两组患儿FAC评分、6MWD与治疗前相比均升高,且观察组FAC评分、6MWD均高于对照组(P<0.05)。结论:全身垂直律动疗法联合肌电生物反馈治疗痉挛型脑性瘫痪患儿可减轻肌肉痉挛程度,改善平衡能力,还可调节下肢关节活动度,促进患儿精细运动功能、步行功能、平衡能力恢复。

注射用鼠神经生长因子联合康复训练治疗脑性瘫痪患儿的临床疗效分析

目的探究注射用鼠神经生长因子与康复训练联合应用治疗脑性瘫痪的疗效。方法选取300例脑性瘫痪患儿,经信封法分为对照组(150例,康复训练)、观察组(150例,注射用鼠神经生长因子+康复训练)。对比两组粗大运动功能、精细运动功能、语言功能、治疗效果。结果治疗3个月后,两组卧位、坐位、爬跪、站立、走跑跳评分均较治疗前升高,且观察组卧位、坐位、爬跪、站立、走跑跳评分分别为(40.23±5.46)、(50.63±4.78)、(34.23±3.98)、(31.25±4.35)、(58.64±5.78)分,较对照组的(32.18±5.35)、(41.27±4.62)、(29.01±3.86)、(26.54±4.21)、(51.05±5.63)分高(P<0.05)。治疗3个月后,两组上肢关节活动、视觉追踪、手眼协调能力、抓握能力、操作能力评分均较治疗前升高,且观察组上肢关节活动、视觉追踪、手眼协调能力、抓握能力、操作能力评分分别为(28.76±2.45)、(19.92±1.67)、(45.76±2.99)、(30.25±2.54)、(33.54±2.56)分,较对照组的(25.43±2.40)、(16.87±1.62)、(39.02±2.84)、(27.11±2.43)、(28.46±2.45)分高(P<0.05)。治疗3个月后,两组语言理解、语言表达评分均较治疗前升高,且观察组语言理解评分(64.76±3.45)分、语言表达评分(62.89±3.25)分较对照组的(59.62±3.37)、(57.04±3.17)分高(P<0.05)。观察组治疗总有效率95.33%高于对照组的76.67%(P<0.05)。结论脑性瘫痪患儿联用注射用鼠神经生长因子、康复训练,可提高粗大运动功能、精细运动功能、治疗效果,值得临床推广。

手-臂双侧强化训练联合重复经颅磁刺激对痉挛偏瘫型脑瘫患儿精细运动功能的影响

目的:探讨痉挛偏瘫型脑瘫患儿应用手-臂双侧强化训练(HABIT)联合重复经颅磁刺激(rTMS)对其上肢精细运动功能的影响。方法:回顾性分析2022年1月—2023年3月泉州市妇幼保健院·儿童医院康复科收治的84例痉挛偏瘫型脑瘫患儿的临床资料,按照不同治疗方案分为两组,各42例。两组均予常规康复训练,对照组采用rTMS治疗,观察组在对照组治疗基础上联合HABIT。比较两组治疗前后精细运动功能评估量表(FMFM)评分百分数及Peabody运动发育量表评分。结果:治疗前,两组FMFM评分及Peabody运动发育量表评分比较,差异无统计学意义(P>0.05);治疗后,两组FMFM中A区、B区评分及总分百分数比较,差异无统计学意义(P>0.05);治疗后,观察组FMFM量表中C区、D区、E区评分百分数高于对照组,差异有统计学意义(P<0.05)。治疗后,两组抓握、视觉-运动整合、精细运动商评分均高于治疗前,且观察组明显高于对照组,差异有统计学意义(P<0.05)。结论:痉挛偏瘫型脑瘫患儿应用HABIT联合rTMS治疗能够改善其上肢精细运动功能。

Perceptual Visuo-Motor Skills and Handwriting Production of Children With Learning Disabilities

This study aimed to explore the performance of the perceptual-visuomotor skills and the production of handwriting in children with Learning Disabilities.A total of 56 children participated,being a convenience sample,of both sexes,average age of eight years old,from 3rd to 5th grade level of Elementary School.The children were divided into the following groups:GI(28 children diagnosed with Learning Disabilities);GII(28 children with good academic performance,paired with GI in relation to chronological age and sex).They were evaluated individually in dysgraphic scale,visual perception development test,and fine motor evaluation.Data analysis was performed.There was a significant difference between GI and GII for the subtests of eye-hand coordination,copying,visual closure,fine motor precision,and fine manual control tests.They had difference between the groups for handwriting performance in descending and/or ascending subtests,irregularity of dimension,poor forms,and total score of Dysgraphia Scale.The results presented in this study indicate that children with Learning Disabilities can manifest significant visomotor impairment and deficit in legibility and handwriting quality,causing failures in the elaboration of sensorimotor plans that,added to the intrinsic deficit of long-term memory,result in persistent academic difficulties.

精粗双层绕组磁浮平面电机线圈厚度影响分析

新型精粗双层绕组磁浮平面电机(FCDLWMPM)利用靠近磁体的下层线圈产生加速推力、离磁体较远的上层线圈保证匀速运动精度,可兼顾光刻运动不断提升的加速度与精度要求。FCDLWMPM高加速度运动生成的铜耗和谐波力会影响系统精度,而线圈厚度是影响铜耗和谐波力的关键设计参数。对FCDLWMPM进行了电磁力及铜耗建模,介绍了FCDLWMPM的电磁结构及工作模式。基于永磁阵列磁场谐波模型、洛伦兹定律,进行了单线圈电磁力解析求解,推导了DQ解耦控制下的上下层线圈阵列电磁力方程,进而得出了光刻运动下的电机铜耗方程和谐波力占比函数。求解上下层线圈厚度参数值,得到双层绕组厚度对铜耗和谐波力占比的影响规律,讨论双层绕组厚度参数的选择以有效减小铜耗和谐波力占比。

儿童精细动作技能与数学能力的关系:一项元分析

儿童精细动作技能与数学能力的关系在既有研究中存在分歧,为明确两者间的整体关联强度及其影响因素,运用元分析方法对国内外相关研究进行整合分析。通过文献检索和筛选,共计纳入34篇文献,42个效应量,总样本量为78527人。出版偏倚检验显示,本研究所纳入元分析的文献不存在出版偏倚;异质性检验发现,选取随机效应模型较为合适。结果表明,精细动作技能与数学能力呈中等程度的正相关(r=0.27,95%CI为[0.23,0.32]);两者的关系受到文化背景和精细动作技能测量工具的调节,但不受儿童年龄和性别的调节。该结果提示教育者需要对早期儿童基础动作技能的发展予以重视,采取有效的精细动作技能的训练方式,提高儿童的精细动作水平,以推动其数学能力的发展。

A Preliminary Study on Strategies to Improve Writing Skills in Lower Grades of Primary School

Teaching writing is an essential component of Chinese education in primary schools and an important foundation for students’reading,writing,and core literacy development.However,due to various reasons,children in the lower grades always face multiple difficulties in the learning task of writing.Based on this educational status quo,this article puts forward strategic suggestions for improving writing skills in the lower grades of primary school.Teachers should analyze students and attend to each student individually,optimize teaching methods,and implement hierarchical teaching.They should also strengthen the training of students’fine motor skills to solidify the physiological foundation for writing.Emphasis should be placed on cultivating the core quality of aesthetic creation.Employing multiple process evaluations can inspire children’s long-term interest in learning.

基于计算机视觉的儿童精细动作评估研究

目的 提出一种基于计算机视觉的方法来评估儿童精细动作,以促进对儿童发育性协调障碍的准确诊断和进一步研究。方法 利用计算机视觉技术从视频中提取人体关键点,并对其进行时间序列特征提取,然后使用深度学习神经网络对儿童精细动作进行分类和预测。结果 实验结果显示,本研究方法的准确率达到81%,相较于传统的基于手工特征的评价方法,在准确率上有所提高。结论 基于计算机视觉的儿童精细动作自动评估方法,为儿童发育性协调障碍疾病的辅助诊断提供了一个有效的判别工具,为促进幼儿早期综合发展提供了有力的技术支持。

3~5岁幼儿动作发展与认知能力发展的特征及相关性

目的:探讨3~5岁幼儿动作发展和认知能力发展的特征及其相关性。方法:随机选取幼儿园大、中、小班的90名幼儿分为3岁组、4岁组、5岁组三个年龄组,每个年龄组各30人,其中男、女生各15人。采用动作发展测试量表(M-ABC)和韦氏幼儿智力调查量表(WISC)对各组幼儿的动作发展水平和认知发展水平进行测量,比较各年龄组动作发展水平,分析各年龄组间以及性别组间的动作发展多个维度(手部精细动作、定位与抓取和平衡能力)与认知发展多个维度(言语理解、视觉空间、流体推理、加工速度和工作记忆)之间的相关性。结果:(1)5岁组、4岁组幼儿惯用手投币用时均少于3岁组(P<0.01,P<0.05);5岁组、4岁组幼儿非惯用手投币、穿珠子的用时均少于3岁组(P<0.01,P<0.05),5岁组用时少于4岁组(P<0.05);5岁组、4岁组幼儿描画轨迹的错误次数均低于3岁组(P<0.01);5岁组幼儿双手接袋时接中的次数多于3岁组(P<0.05),5岁组幼儿单手投袋时投中次数均多于3岁组、4岁组(P<0.01);在惯用腿单腿站立和非惯用腿站立平衡时,5岁组、4岁组幼儿平衡持续时间均长于3岁组(P<0.01),5岁组幼儿平衡持续时间长于4岁组幼儿(P<0.01)。踮脚走路测试时,5岁组幼儿成功完成的步数多于3岁组(P<0.01)。(2)高龄组(4~5岁)和低龄组(3岁)幼儿的动作发展总分与认知发展总分均有正相关性(P<0.01)。高龄组(4~5岁)幼儿动作发展总分与认知发展中的视觉空间、流体推理、加工速度三个维度的得分均有正相关性(P<0.01)。低龄组(3岁组)幼儿动作发展总分与认知发展中的言语理解、视觉空间、工作记忆三个维度得分均有正相关性(P<0.01,P<0.05,P<0.05)。(3)高龄组(4~5岁)幼儿的手部精细动作得分与认知发展总分、视觉空间、流体推理、加工速度得分均有正相关性(P<0.01)。低龄组(3岁)幼儿的手部精细动作得分与认知发展总分、言语理解、视觉空间得分均有正相关性(P<0.05,P<0.01,P<0.05)。(4)低龄组(3岁)的平衡能力与认知发展总分、言语理解和工作记忆得分均有正相关性(P<0.01,P<0.01,P<0.05);高龄组(4~5岁)的平衡能力与流体推理得分有正相关性(P<0.01)。结论:3~5岁幼儿的动作发展水平随着年龄的增加而显著提高,幼儿的动作发展水平总体上与认知能力发展及其多个维度间存在着显著的正相关性。幼儿动作发展中的手部精细动作发展水平与认知能力发展及其多个维度的正相关性表现得更加密切,低龄组(3岁)幼儿平衡能力与认知能力及其多个维度间的正相关性表现得更加密切。

注意缺陷多动障碍学龄儿童精细动作技能的性别差异

目的 探究不同性别注意缺陷多动障碍(ADHD)学龄儿童精细动作技能的特点。方法 2021年4月至2023年4月,从医院和患者微信群募集确诊ADHD儿童69例,在北京市海淀区万泉小学1~4年级学生中,由专业精神科医生筛查ADHD儿童66例,共纳入ADHD儿童135例;在同一小学按性别匹配、年龄差<0.5岁招募135例健康儿童为对照。采用儿童动作协调能力标准评估工具(MABC-2)中的手部精细操作4项测试和手部精细动作总分进行评估。结果 控制年龄后,ADHD男童各项目分和总分均低于健康男童和健康女童(P <0.05),ADHD女童仅总分低于健康男童和健康女童(P <0.05)。性别对ADHD儿童各项目分和总分主效应均显著(F> 5.133,P <0.05),男童低于女童(P <0.05)。结论 ADHD儿童精细动作技能发展落后,男童尤为显著。

6~10岁注意缺陷多动障碍男童动作发展特点

目的:探究注意缺陷多动障碍(attention deficit and hyperactivity disorder,ADHD)男童的动作发展特点,为开拓ADHD儿童的非药物治疗手段提供理论依据。方法:从北京市某三甲医院招募19名ADHD男童,从北京市某公立小学1~4年级学生中筛查出ADHD男童61名,排除因主、客观因素不能完成全部测试者,最终入组65名ADHD男童,其中6~8岁41人,9~10岁24人,注意缺陷型ADHD(ADHDPI)48人,混合型ADHD(ADHD-C)17人,募集年龄相差不超过半岁的正常发育男童65名为正常对照。采用儿童粗大动作发展测试量表第三版(TGMD-3)、儿童动作协调能力标准评估工具第二版(MABC-2)分别评估儿童的粗大动作和精细动作发展水平,采用独立样本t检验比较ADHD男童与正常男童各项指标的组间差异,使用单因素方差分析比较各亚型之间及与正常对照的组间差异,显著性水平为P<0.05。结果:(1)整体分析显示:ADHD组TGMD-3总分和手部精细动作得分均显著低于正常组(P<0.01);(2)不同年龄段分析显示:6~8岁ADHD组的TGMD-3和手部精细动作得分均低于6~8岁正常组(P<0.001),9~10岁ADHD组仅手部精细动作得分低于同年龄正常组(P<0.05);(3)不同亚型分析显示:ADHD-C组的TGMD-3总分和手部精细动作得分均低于正常组(P<0.05),ADHD-PI组仅手部精细动作得分低于正常组(P<0.05),ADHD-PI组和ADHD-C组无显著差异。结论:6~10岁ADHD男童的粗大和精细动作发展均显著落后于同龄儿童,精细动作发展落后在低年龄和高年龄段ADHD男童中持续存在,混合型较注意缺陷型ADHD男童动作发展落后的范围更广。

气动式手康复设备对痉挛型偏瘫脑性瘫痪儿童手功能的效果

目的将气动式手康复设备应用于痉挛型偏瘫脑瘫患儿手功能综合康复训练并观察疗效。方法2020年1月至2021年9月,南通大学附属妇幼保健院儿童康复医学中心就诊的痉挛型偏瘫脑瘫患儿58例随机分为对照组和试验组各29例。两组均行常规综合康复训练,试验组增加气动式手康复设备训练,共6个月。训练前后,采用Peabody精细运动发育量表(PDMS-FM)、精细运动评定量表(FMFM)和儿童功能独立性评定量表(Wee-FIM)进行评定。结果训练后,两组PDMS-FM、FMFM和Wee-FIM评分均显著改善(|t|>16.310,P<0.001);试验组各项评分均明显高于对照组(t>2.795,P<0.01)。结论气动式手康复设备能有效提高综合康复训练对痉挛型偏瘫脑瘫患儿手功能的训练效果。

运动意图的头皮脑电编解码及其脑-机接口研究进展

基于运动意图的脑-机接口(BCI)对人体运动功能增强、替代和康复具有重要研究意义与应用价值。其中,运动想象(MI)是最常用的表征运动意图的BCI范式。然而,传统MI-BCI通常仅实现不同肢体部位运动意图解码,且识别正确率较低,制约着精细运动控制与康复效果。针对上述问题,近年来研究者在单一肢体特定部位、运动学与动力学意图诱发头皮脑电编解码以及运动意图错误相关电位检测3个方面开展了一系列有意义的探索,并在高自由度的运动指令控制和面向卒中患者的临床康复应用方面取得了较大的研究成果。该文从运动意图的头皮脑电(EEG)编解码相关范式及其BCI应用两个方面综述了本领域研究进展,并探讨当前研究存在的问题和可能的解决方案,以期促进运动意图BCI技术的深入研究及开发应用。