Spinal cord microstructural changes are connected with the aberrant sensorimotor cortical oscillatory activity in adults with cerebral palsy

Trevarrow, Michael P.; Reelfs, Anna; Baker, Sarah; Hoffman, Rashelle M.; Wilson, Tony W.; Kurz, Max J.

doi:10.1038/s41598-022-08741-9

Cited by 12 publications

(10 citation statements)

References 85 publications

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“…While we did not observe any motor performance differences between groups, numerous past studies have shown that the amplitude of the β‐ERD response is closely related to motor performance (Kurz et al, 2014, 2020; Spooner et al, 2021; Wiesman et al, 2020; Wilson, Fleischer, et al, 2011). Additionally, studies have shown that patients with Parkinson's disease, as well as cerebral palsy, exhibit weakened β‐ERD responses (Heinrichs‐Graham, Wilson, et al, 2014; Trevarrow et al, 2022). The strength of such beta oscillations is at least partially driven by activity in γ‐aminobutyric acid (GABA) interneurons, with MEG studies linking increased sensorimotor cortex GABA concentration with stronger β‐ERDs (Hall et al, 2011; Muthukumaraswamy et al, 2013).…”

Section: Discussionmentioning

confidence: 99%

Regular cannabis use alters the neural dynamics serving complex motor control

Ward,

Springer,

Schantell

et al. 2023

Human Brain Mapping

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Cannabis is the most widely used recreational drug in the United States and regular use has been linked to deficits in attention and memory. However, the effects of regular use on motor control are less understood, with some studies showing deficits and others indicating normal performance. Eighteen users and 23 nonusers performed a motor sequencing task during high‐density magnetoencephalography (MEG). The MEG data was transformed into the time‐frequency domain and beta responses (16–24 Hz) during motor planning and execution phases were imaged separately using a beamformer approach. Whole‐brain maps were examined for group (cannabis user/nonuser) and time window (planning/execution) effects. As expected, there were no group differences in task performance (e.g., reaction time, accuracy, etc.). Regular cannabis users exhibited stronger beta oscillations in the contralateral primary motor cortex compared to nonusers during the execution phase of the motor sequences, but not during the motor planning phase. Similar group‐by‐time window interactions were observed in the left superior parietal, right inferior frontal cortices, right posterior insular cortex, and the bilateral motor cortex. We observed differences in the neural dynamics serving motor control in regular cannabis users compared to nonusers, suggesting regular users may employ compensatory processing in both primary motor and higher‐order motor cortices to maintain adequate task performance. Future studies will need to examine more complex motor control tasks to ascertain whether this putative compensatory activity eventually becomes exhausted and behavioral differences emerge.

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Section: Discussionmentioning

confidence: 99%

Regular cannabis use alters the neural dynamics serving complex motor control

Ward,

Springer,

Schantell

et al. 2023

Human Brain Mapping

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“…The somatosensory system is not only responsible for afferent input information but also actively communicates with the motor cortex during movement [ 68 ]. Poor sensory feedback may cause major problems with sensorimotor integration and reduce the accuracy of feedforward predictions[ 69 ]. The afferent sensory feedback could be applied to evaluate movement outcome, possibly impacting the following processing speed.…”

Section: Discussionmentioning

confidence: 99%

Attenuated post-movement beta rebound reflects psychomotor alterations in major depressive disorder during a simple visuomotor task: a MEG study

Xia

Dai

et al. 2023

BMC Psychiatry

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Background Psychomotor alterations are a common symptom in patients with major depressive disorder (MDD). The primary motor cortex (M1) plays a vital role in the mechanism of psychomotor alterations. Post-movement beta rebound (PMBR) in the sensorimotor cortex is abnormal in patients with motor abnormalities. However, the changes in M1 beta rebound in patients with MDD remain unclear. This study aimed to primarily explore the relationship between psychomotor alterations and PMBR in MDD. Methods One hundred thirty-two subjects were enrolled in the study, comprising 65 healthy controls (HCs) and 67 MDD patients. All participants performed a simple right-hand visuomotor task during MEG scanning. PMBR was measured in the left M1 at the source reconstruction level with the time–frequency analysis method. Retardation factor scores and neurocognitive test performance, including the Digit Symbol Substitution Test (DSST), the Making Test Part A (TMT-A), and the Verbal Fluency Test (VFT), were used to measure psychomotor functions. Pearson correlation analyses were used to assess relationships between PMBR and psychomotor alterations in MDD. Results The MDD group showed worse neurocognitive performance than the HC group in all three neurocognitive tests. The PMBR was diminished in patients with MDD compared to HCs. In a group of MDD patients, the reduced PMBR was negatively correlated with retardation factor scores. Further, there was a positive correlation between the PMBR and DSST scores. PMBR is negatively associated with the TMT-A scores. Conclusion Our findings suggested that the attenuated PMBR in M1 could illustrate the psychomotor disturbance in MDD, possibly contributing to clinical psychomotor symptoms and deficits of cognitive functions.

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“…Alternatively, the results might convey that there are fewer motoneurons available for recruitment with contraction in adults with CP. Recent structural neuroimaging studies have shown that the cervical gray matter cross-sectional area is reduced in adults with CP and this reduction is connected to both the aberrant sensorimotor cortical activity in this population and the overall level of hand motor impairment ( 20 , 21 ). Thus, it is very plausible that the reduced FCR H-reflex excitability might reflect the changes in the size of the motor pools and/or interneurons that compose the gray matter at the cervical levels.…”

Section: Discussionmentioning

confidence: 99%

“…Evidence of possible spinal motor neuron loss has also been reported based on the decreased number of motor units found in ulnar hand muscles of adults with CP ( 19 ). More recently, a structural MR imaging study of the cervical spinal cord in adults with CP uncovered anatomical reductions in the amount of spinal cord gray and white matter ( 20 , 21 ). Furthermore, a reduction in the spinal cord cross-sectional area was found to be linked with the extent of the upper extremity impairment.…”

Section: Introductionmentioning

confidence: 99%

Reduced wrist flexor H-reflex excitability is linked with increased wrist proprioceptive error in adults with cerebral palsy

et al. 2022

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Although most neurophysiological studies of persons with cerebral palsy (CP) have been focused on supraspinal networks, recent evidence points toward the spinal cord as a central contributor to their motor impairments. However, it is unclear if alterations in the spinal pathways are also linked to deficits in the sensory processing observed clinically. This investigation aimed to begin to address this knowledge gap by evaluating the flexor carpi radialis (FCR) H-reflex in adults with CP and neurotypical (NT) controls while at rest and during an isometric wrist flexion task. The maximal H-wave (Hmax) and M-wave (Mmax) at rest were calculated and utilized to compute Hmax/Mmax ratios (H:M ratios). Secondarily, the facilitation of the H-wave was measured while producing an isometric, voluntary wrist flexion contraction (i.e., active condition). Finally, a wrist position sense test was used to quantify the level of joint position sense. These results revealed that the adults with CP had a lower H:M ratio compared with the NT controls while at rest. The adults with CP were also unable to facilitate their H-reflexes with voluntary contraction and had greater position sense errors compared with the controls. Further, these results showed that the adults with CP that had greater wrist position sense errors tended to have a lower H:M ratio at rest. Overall, these findings highlight that aberration in the spinal cord pathways of adults with CP might play a role in the sensory processing deficiencies observed in adults with CP.

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Spinal cord microstructural changes are connected with the aberrant sensorimotor cortical oscillatory activity in adults with cerebral palsy

Cited by 12 publications

References 85 publications

Regular cannabis use alters the neural dynamics serving complex motor control

Regular cannabis use alters the neural dynamics serving complex motor control

Attenuated post-movement beta rebound reflects psychomotor alterations in major depressive disorder during a simple visuomotor task: a MEG study

Reduced wrist flexor H-reflex excitability is linked with increased wrist proprioceptive error in adults with cerebral palsy

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