Resting state functional connectivity associated with impaired proprioception post‐stroke

Kenzie, Jeffrey M.; Rajashekar, Deepthi; Goodyear, Bradley G.; Dukelow, Sean P.

doi:10.1002/hbm.26541

Cited by 5 publications

(2 citation statements)

References 61 publications

(92 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The strength of functional connections between brain regions, often referred to as functional connectivity, is a measure of the degree of synchrony. 32 In contrast to the observed differences in functional connectivity between glioma and GRE in the temporal and frontal lobes, no significant distinctions were identified in the context of insular glioma. Small‐world properties gauge the degree of integration and segregation in brain functions.…”

Section: Discussionmentioning

confidence: 84%

Epilepsy alters brain networks in patients with insular glioma

He,

Yang,

Xue

et al. 2024

CNS Neurosci Ther

View full text Add to dashboard Cite

AimsWe intend to elucidate the alterations of cerebral networks in patients with insular glioma‐related epilepsy (GRE) based on resting‐state functional magnetic resonance images.MethodsWe collected 62 insular glioma patients, who were subsequently categorized into glioma‐related epilepsy (GRE) and glioma with no epilepsy (GnE) groups, and recruited 16 healthy individuals matched to the patient's age and gender to form the healthy control (HC) group. Graph theoretical analysis was applied to reveal differences in sensorimotor, default mode, visual, and executive networks among different subgroups.ResultsNo significant alterations in functional connectivity were found in either hemisphere insular glioma. Using graph theoretical analysis, differences were found in visual, sensorimotor, and default mode networks (p < 0.05). When the glioma located in the left hemisphere, the degree centrality was reduced in the GE group compared to the GnE group. When the glioma located in the right insula, the degree centrality, nodal efficiency, nodal local efficiency, and nodal clustering coefficient of the GE group were lower than those of the GnE group.ConclusionThe impact of insular glioma itself and GRE on the brain network is widespread. The networks altered by insular GRE differ depending on the hemisphere location. GRE reduces the nodal properties of brain networks than that in insular glioma.

show abstract

Section: Discussionmentioning

confidence: 84%

Epilepsy alters brain networks in patients with insular glioma

He,

Yang,

Xue

et al. 2024

CNS Neurosci Ther

View full text Add to dashboard Cite

show abstract

“…The increased GMV in the temporal lobe was mainly located in the parahippocampal, entorhinal, and fusiform areas, which are part of the limbic circuit and associated with neuropsychiatric symptoms, cognitive abilities, and communication skills (Kolc et al ., 2019 ). Within the parietal lobe, regions showing increased GMV were mainly located in the inferior parietal, postcentral, and supramarginal areas, which play important roles in the arousal system (Jiang et al ., 2022 ), somatosensory processing and integration, coordination of upper limb movements (Kenzie et al ., 2024 ), and tactile categorization and decision-making (Lee et al ., 2023 ). GMV changes in these brain regions exhibited similarity between the two patients.…”

Section: Discussionmentioning

confidence: 99%

Is unilateral cerebellum sufficient? Insights from new cases of cerebellar agenesis and literature review

Deng,

Tao,

Yuan

et al. 2024

Psychoradiology

View full text Add to dashboard Cite

The clinical manifestations of adult-acquired cerebellar diseases often surpass those of congenital cerebellar diseases, suggesting the significant role of the cerebellum in the developing brain. Moreover, emerging evidence from structural and functional MRI indicates that the cerebellum is implicated not only in motor functions but also in non-motor domains such as cognition, emotion, and language. However, delineating the specific extent of cerebellar development required to prevent deficits in either motor or non-motor functions remains challenging. In this study, we present two new cases of unilateral cerebellar agenesis (CA). One individual leads a nearly normal life, while the other exhibits mild cognitive impairment, mild depression, and severe autism, but maintains normal motor function. Van der Heijden et al. (2023) revealed that the brain can compensate for some, but not all, perturbations to the developing cerebellum, including motor deficits and impairments in social behaviors. Therefore, we hypothesize that comparing structural images from our patients and reviewing pertinent literature may elucidate the reasons for the varied clinical manifestations observed in patients with CA.

show abstract

A pilot study for self-guided, active robotic training of proprioception of the upper limb in chronic stroke

Tulimieri,

Kim,

Hoh

et al. 2024

Preprint

View full text Add to dashboard Cite

Background Proprioceptive impairments of the upper limb are common after stroke. These impairments are not typically addressed during assessment or rehabilitation. Currently, most robotic paradigms for rehabilitative training of the upper limb have focused solely on improving motor function or have targeted proprioception in individuals with combined use of visual feedback. Our goal was to design a training paradigm that directly targets proprioception of the upper limb, while minimizing reliance on other sensory information to improve sensorimotor function after stroke. Methods In this pilot study, 5 stroke participants and 5 age-matched controls were tested on a single-day proprioceptive training paradigm. Here, participants used a joystick with their less-affected arm to send commands to a KINARM exoskeleton that would passively move their more-affected arm. To complete the passive reaching task, participants relied only on proprioceptive feedback from the more-affected arm and were only given knowledge of results information after each trial. Sensorimotor function of the upper limb was measured pre- and post-training via robotic measures of motor function (Visually Guided Reaching (VGR)) and position sense (Arm Position Matching (APM)). Sensorimotor function was quantified as a Task Score, which incorporated multiple task-relevant parameters for both VGR and APM. Changes in sensorimotor performance due to training were calculated as the pre- to post-training difference for VGR and APM within the control and stroke groups. Results We found significant improvements from pre-training to post-training for VGR in stroke participants (p < 0.001, CLES = 100) that were not observed in control participants (p = 0.87, CLES = 80). We observed significant changes from pre- to post-training in both VGR (Posture Speed, Reaction Time, Initial Direction Angle, Min-Max Speed Difference, and Movement Time) and APM (Contraction/Expansion Ratiox and Shifty) parameters. Conclusions Our novel proprioceptive training paradigm resulted in improvements in motor function and aspects of proprioceptive performance for individuals with chronic stroke. This pilot study demonstrates the feasibility of this training paradigm for targeted proprioceptive training to improve motor and sensory function in individuals with chronic stroke. Future studies aim to examine multi-day training to examine longer-term impacts on upper limb sensorimotor function.

show abstract

Resting state functional connectivity associated with impaired proprioception post‐stroke

Cited by 5 publications

References 61 publications

Epilepsy alters brain networks in patients with insular glioma

Epilepsy alters brain networks in patients with insular glioma

Is unilateral cerebellum sufficient? Insights from new cases of cerebellar agenesis and literature review

A pilot study for self-guided, active robotic training of proprioception of the upper limb in chronic stroke

Contact Info

Product

Resources

About