Effects of Ordered Grasping Movement on Brain Function in the Performance Virtual Reality Task: A Near-Infrared Spectroscopy Study

Li, Xiangyang; Yin, Jiahui; Li, Huiyuan; Xu, Gelin; Huo, Congcong; Xie, Hua; Li, Wenhao; Liu, Jizhong; Li, Zengyong

doi:10.3389/fnhum.2022.798416

Cited by 5 publications

(3 citation statements)

References 41 publications

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“…In this study, we considered β values as a measure of cortical activation, with higher β values indicating higher activation in the brain regions corresponding to this channel. The activation of ipsilateral M1 and PMC brain regions was significantly higher in the control group during dominant hand movements than during non-dominant hand ones, which may be due to the degree of brain activation related to the redistribution of brain resources ( 39 ). In order to achieve more precise force control, the brain regions controlling unilateral movements will be more active during sharp hand movements, whereas skillful reallocation of brain resources is difficult to achieve with non-sharp hand movements.…”

Section: Discussionmentioning

confidence: 96%

Upper limb motor assessment for stroke with force, muscle activation and interhemispheric balance indices based on sEMG and fNIRS

Ye,

Tao,

Gong

et al. 2024

Front. Neurol.

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IntroductionUpper limb rehabilitation assessment plays a pivotal role in the recovery process of stroke patients. The current clinical assessment tools often rely on subjective judgments of healthcare professionals. Some existing research studies have utilized physiological signals for quantitative assessments. However, most studies used single index to assess the motor functions of upper limb. The fusion of surface electromyography (sEMG) and functional near-infrared spectroscopy (fNIRS) presents an innovative approach, offering simultaneous insights into the central and peripheral nervous systems.MethodsWe concurrently collected sEMG signals and brain hemodynamic signals during bilateral elbow flexion in 15 stroke patients with subacute and chronic stages and 15 healthy control subjects. The sEMG signals were analyzed to obtain muscle synergy based indexes including synergy stability index (SSI), closeness of individual vector (CV) and closeness of time profile (CT). The fNIRS signals were calculated to extract laterality index (LI).ResultsThe primary findings were that CV, SSI and LI in posterior motor cortex (PMC) and primary motor cortex (M1) on the affected hemisphere of stroke patients were significantly lower than those in the control group (p < 0.05). Moreover, CV, SSI and LI in PMC were also significantly different between affected and unaffected upper limb movements (p < 0.05). Furthermore, a linear regression model was used to predict the value of the Fugl-Meyer score of upper limb (FMul) (R2 = 0.860, p < 0.001).DiscussionThis study established a linear regression model using force, CV, and LI features to predict FMul scale values, which suggests that the combination of force, sEMG and fNIRS hold promise as a novel method for assessing stroke rehabilitation.

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Section: Discussionmentioning

confidence: 96%

Upper limb motor assessment for stroke with force, muscle activation and interhemispheric balance indices based on sEMG and fNIRS

Ye,

Tao,

Gong

et al. 2024

Front. Neurol.

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“…Recently, fNIRS has been widely used in the field of stroke rehabilitation [15][16][17][18]. Huo et al [19] applied fNIRS techniques to measure the cortical response induced by specific motor training paradigms in stroke patients.…”

Section: Introductionmentioning

confidence: 99%

Stroke-Related Alterations in the Brain’s Functional Connectivity Response Associated with Upper Limb Multi-Joint Linkage Movement

et al. 2023

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Stroke is one of the primary causes of motor disorders, which can seriously affect the patient’s quality of life. However, the assessment of the upper limb affected by stroke is commonly based on scales, and the characteristics of brain reorganization induced by limb movement are not clear. Thus, this study aimed to investigate stroke-related cortical reorganization based on functional near infrared spectroscopy (fNIRS) during upper limb multi-joint linkage movement with reference to the Fugl–Meyer Assessment of the upper extremities (FMA-UE). In total, 15 stroke patients and 15 healthy subjects participated in this study. The functional connectivity (FC) between channels and the regions of interest (ROI) was calculated by Pearson’s correlation coefficient. The results showed that compared with the control group, the FC between the prefrontal cortex and the motor cortex was significantly increased in the resting state and the affected upper limb’s multi-joint linkage movements, while the FC between the motor cortex was significantly decreased during the unaffected upper limb’s multi-joint linkage movements. Moreover, the significantly increased ROI FC in the resting state showed a significantly positive correlation with FMA-UE in stroke patients (p < 0.05). This study highlights a new biomarker for evaluating the function of movement in stroke patients and provides guidance for rehabilitation training.

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“…Compared with EEG and fMRI, the portability and easy arrangement of fNIRS equipment make it suitable for bedside scanning of MCS patients, and free from electromagnetic interference in complex monitoring environments while guaranteeing appropriate spatiotemporal resolution. It has proven to be an effective method for studying the changes in normal brain function and brain diseases [18,19], and has been applied in many research areas, including the study of exercise [20][21][22], rehabilitation [23], vision [24], hearing [25], speech [26], and emotion [27]. The measurement of fNIRS relies on the neurovascular coupling effect, that is, substances such as glucose and oxygen need to be sent to metabolically active neurons via capillary blood, resulting in an increase in local cerebral blood flow and local cerebral blood oxygenation.…”

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confidence: 99%

Effects of different frequencies music on cortical responses and functional connectivity in patients with minimal conscious state

Yin,

Xu,

Xie

et al. 2024

Journal of Biophotonics

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The objective of this study was to investigate brain activation and functional network patterns during musical interventions in different frequency bands using functional near‐infrared spectroscopy, and to provide a basis for more effective music therapy strategy selection for patients in minimally conscious state (MCS). Twenty six MCS patients and 20 healthy people were given music intervention with low frequency (31–180 Hz), medium frequency (180–4k Hz), and high frequency (4k–22k Hz) audio. In MCS patients, low frequency music intervention induced activation of left prefrontal cortex and left primary sensory cortex (S1), also a left‐hemisphere lateralization effect of dorsolateral prefrontal cortex (DLPFC). And the functional connectivity of right DLPFC‐right S1 was significantly improved by high frequency music intervention. The low frequency and high frequency music may contribute more than medium frequency music to the recovery of consciousness. This study also validated the effectiveness of fNIRS in studies of brain function in MCS patients.

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Effects of Ordered Grasping Movement on Brain Function in the Performance Virtual Reality Task: A Near-Infrared Spectroscopy Study

Cited by 5 publications

References 41 publications

Upper limb motor assessment for stroke with force, muscle activation and interhemispheric balance indices based on sEMG and fNIRS

Upper limb motor assessment for stroke with force, muscle activation and interhemispheric balance indices based on sEMG and fNIRS

Stroke-Related Alterations in the Brain’s Functional Connectivity Response Associated with Upper Limb Multi-Joint Linkage Movement

Effects of different frequencies music on cortical responses and functional connectivity in patients with minimal conscious state

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