Objective To analyze the research status,development trends and hotspots in the field of corticomuscular coherence(CMC).Methods Relevant literatures on CMC from 1999 to 2024 were retrieved from the Web of Science Core Collection.CiteSpace 6.3R1 was ued to evaluate publications across multiple dimensions,including publication volume,countries/regions,institutions,authors,cited journals,cited references and keywords.Research hotspots and fron-tier dynamics were identified through keyword co-occurrence,clustering and bursting.Results A total of 447 articles were included.The overall publication trend for CMC research showed a fluctuating up-ward trajectory,peaking in 2023.China led in publication volume but exhibited relatively low centrality and inter-national collaboration.Germany led the way in academic influence.Aalto University and the University of Lon-don served as academic hubs for CMC research.The most influential research team,led by Mathieu Bourgui-gnon,focused on the physiological mechanisms and motor control applications of CMC.The Journal of Physiolo-gy-London was identified as the most impactful journal in the CMC field.CMC research spaned from molecular mechanisms to system-level behavior,delving into the interdisciplinary nexus of neuroscience and motor science while gradually extending to foundational studies in psychology and biology.High-interest keywords included synchronization,motor cortex and precision grip task.Current research hotspots encompassed connectivity,reor-ganization and activation.Future research was predicted to focus on advancements in CMC technology,interven-tions for neurological disorders,brain-muscle interaction mechanisms and signal processing.Conclusion CMC research has rapidly progressed in recent years,becoming a pivotal direction in motor function assess-ment and neurorehabilitation.Future studies should focus on optimizing CMC analytical techniques to enhance their application in brain-computer interfaces and personalized rehabilitation.Additionally,interdisciplinary col-laboration and international exchange should be strengthened to improve research quality and global impact.

Objective To analyze the research status,development trends and hotspots in the field of corticomuscular coherence(CMC).Methods Relevant literatures on CMC from 1999 to 2024 were retrieved from the Web of Science Core Collection.CiteSpace 6.3R1 was ued to evaluate publications across multiple dimensions,including publication volume,countries/regions,institutions,authors,cited journals,cited references and keywords.Research hotspots and fron-tier dynamics were identified through keyword co-occurrence,clustering and bursting.Results A total of 447 articles were included.The overall publication trend for CMC research showed a fluctuating up-ward trajectory,peaking in 2023.China led in publication volume but exhibited relatively low centrality and inter-national collaboration.Germany led the way in academic influence.Aalto University and the University of Lon-don served as academic hubs for CMC research.The most influential research team,led by Mathieu Bourgui-gnon,focused on the physiological mechanisms and motor control applications of CMC.The Journal of Physiolo-gy-London was identified as the most impactful journal in the CMC field.CMC research spaned from molecular mechanisms to system-level behavior,delving into the interdisciplinary nexus of neuroscience and motor science while gradually extending to foundational studies in psychology and biology.High-interest keywords included synchronization,motor cortex and precision grip task.Current research hotspots encompassed connectivity,reor-ganization and activation.Future research was predicted to focus on advancements in CMC technology,interven-tions for neurological disorders,brain-muscle interaction mechanisms and signal processing.Conclusion CMC research has rapidly progressed in recent years,becoming a pivotal direction in motor function assess-ment and neurorehabilitation.Future studies should focus on optimizing CMC analytical techniques to enhance their application in brain-computer interfaces and personalized rehabilitation.Additionally,interdisciplinary col-laboration and international exchange should be strengthened to improve research quality and global impact.

Objective To investigate the balance control abilities and cortical activation characteristics of elderly individuals under different sensory strategies. Methods From January to May,2023,19 healthy young adults and 20 elderly individuals were recruited in Changzhou as control group and experimental group,respectively.Both groups wore functional near-infrared spectroscopy(fNIRS)caps and performed balance control tasks on a balance platform under three different sensory strategies.Test A was 40 seconds of standing on a stable surface with eyes closed,Test B was 40 seconds of standing on an unstable surface with eyes open,and Test C was 40 seconds of standing on an unstable surface with eyes closed.Before and after the tests,both groups performed 40 seconds of standing on a stable surface with eyes open.The overall stability index(OSI)and cortical activation β values of the regions of interest(ROI)were measured and compared between two groups.The ROIs included the left premotor cortex(LPMC),right premotor cortex(RPMC),left sensorimotor cortex(LSMC),right sensorimotor cortex(RSMC),left prefrontal cortex(LPFC)and right prefrontal cortex(RPFC). Results There was no significant difference in OSI and β values of each ROI in Tests A and B between two groups(P>0.05).In Test C,there was a lower OSI in the experimental group(Z=-2.056,P<0.05),and there were signifi-cant differences in the β values of RSMC(t=2.623,PFDR<0.05),LPMC(Z=-2.360,PFDR<0.05)and LPFC(t=3.202,PFDR<0.05)between two groups. Conclusion Elderly individuals experience a decline in balance control abilities,accompanied by increased activation in related brain regions,when both vision and proprioception are restricted.

ObjectiveTo explore the characteristics of balance and cortical activation in older adults when performing cognition-balance dual tasks. MethodsFrom January to April, 2023, 20 healthy older adults were non-targeted recruited. They completed six tasks of close eyes & fixed platform (CF), close eyes & fixed platform & cognitive task (CFc), open eyes & sway-referenced platform (OS), open eyes & sway-referenced platform & cognitive task (OSc), close eyes & sway-referenced platform (CS), and close eyes & sway-referenced platform & cognitive task (CSc) on the Balance SD, wearing functional near-infrared spectroscopy caps. The overal stability index (OSI) was measured with Balance SD. The premotor cortex (PMC), sensorimotor cortex (SMC) and prefrontal cortex (PFC) were as regions of interest (ROIs), and the β values were calculated. ResultsThe OSI was more as CFc than as CF (Z = -2.014, P < 0.05), and was less as CSc than as CS (Z = -2.063, P < 0.05). The β values of bilateral ROIs were all more as CFc than as CF (|Z| > 2.464, |t| > 3.733, P < 0.05), and as OSc than as OS (|t| > 2.308, P < 0.05); the β value of the right SMC was more as CSc than as CS (t = -2.912, P < 0.05). The number of correct counts was less as CSc than as CFc and OSc (|Z| > 3.643, P < 0.001). ConclusionBalance has been impaired under dual tasks for older adults, while activation of cerebral cortex increases. However, for more difficult balance task, older adults would preferentially maintain postural balance under dual tasks, while cognitive performance decreases, which may be the results from no more activation of cerebral cortex under dual tasks.