The human brain networks mediating the vestibular sensation of self-motion

Hadi, Zaeem; Pondeca, Yuscah; Calzolari, Elena; Chepisheva, Mariya; Smith, Rebecca; Mahmud, Mohammad; Rust, Heiko; Sharp, David J.; Seemungal, Barry M.

doi:10.1101/2021.12.03.471139

Cited by 2 publications

(1 citation statement)

References 80 publications

(172 reference statements)

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“…On the other hand, the larger gains and phase leads of the irregular afferents are required to drive robust postural responses since vestibulo-spinal pathways must account for the higher inertia of the body relative to the eye [ 27 , 42 ]. Furthermore, irregular afferents likely also make important contributions to ascending pathways that convey vestibular information to cortical brain circuits mediating self-motion perception ([ 43 ]; also reviewed in [ 14 ]). Interestingly, a recent imaging study in humans reported that these cortical circuits overlap with those mediating postural control [ 44 ].…”

Section: Discussionmentioning

confidence: 99%

A prosthesis utilizing natural vestibular encoding strategies improves sensorimotor performance in monkeys

et al. 2022

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Sensory pathways provide complex and multifaceted information to the brain. Recent advances have created new opportunities for applying our understanding of the brain to sensory prothesis development. Yet complex sensor physiology, limited numbers of electrodes, and nonspecific stimulation have proven to be a challenge for many sensory systems. In contrast, the vestibular system is uniquely suited for prosthesis development. Its peripheral anatomy allows site-specific stimulation of 3 separate sensory organs that encode distinct directions of head motion. Accordingly, here, we investigated whether implementing natural encoding strategies improves vestibular prosthesis performance. The eye movements produced by the vestibulo-ocular reflex (VOR), which plays an essential role in maintaining visual stability, were measured to quantify performance. Overall, implementing the natural tuning dynamics of vestibular afferents produced more temporally accurate VOR eye movements. Exploration of the parameter space further revealed that more dynamic tunings were not beneficial due to saturation and unnatural phase advances. Trends were comparable for stimulation encoding virtual versus physical head rotations, with gains enhanced in the latter case. Finally, using computational methods, we found that the same simple model explained the eye movements evoked by sinusoidal and transient stimulation and that a stimulation efficacy substantially less than 100% could account for our results. Taken together, our results establish that prosthesis encodings that incorporate naturalistic afferent dynamics and account for activation efficacy are well suited for restoration of gaze stability. More generally, these results emphasize the benefits of leveraging the brain’s endogenous coding strategies in prosthesis development to improve functional outcomes.

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Section: Discussionmentioning

confidence: 99%

A prosthesis utilizing natural vestibular encoding strategies improves sensorimotor performance in monkeys

et al. 2022

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The Bárány Society position on ‘Cervical Dizziness’

Seemungal

Agrawal

Bisdorff

et al. 2022

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This paper describes the Bárány Society Classification OverSight Committee (COSC) position on Cervical Dizziness sometimes referred to as Cervical Vertigo. This involved an initial review by a group of experts across a broad range of fields, and then subsequent review by the Bárány Society COSC. Based upon the so far published literature, the Bárány Society COSC takes the view that the evidence supporting a mechanistic link between an illusory sensation of self-motion (spinning or otherwise) and neck pathology and/or symptoms of neck pain - either by affecting the cervical vertebra, soft tissue structures or cervical nerve roots - is lacking. When a combined head and neck movement triggers an illusory sensation of spinning, there is either an underlying common vestibular condition such as migraine or BPPV or less commonly a central vestibular condition including, when acute in onset, dangerous conditions such as a dissection of the vertebral artery with posterior circulation stroke and, exceedingly rarely, a vertebral artery compression syndrome. The Committee notes however, that migraine, including vestibular migraine, is by far, the commonest cause for the combination of neck pain and vestibular symptoms. The committee notes that since head movement aggravates symptoms in almost any vestibular condition, the common finding of increased neck muscle tension in vestibular patients, may be linked as both cause and effect, to reduced head movements. Additionally, there are theoretical mechanisms, which have never been explored, whereby cervical pain may promote vaso-vagal, cardio-inhibitory reflexes and hence by presyncopal mechanisms, elicit transient disorientation and/or imbalance. The committee accepts that further research is required to answer the question as to whether those rare cases in which neck muscle spasm is associated with a vague sense of spatial disorientation and/or imbalance, is indeed linked to impaired neck proprioception. Future studies should ideally be placebo controlled and double-blinded where possible, with strict inclusion and exclusion criteria that aim for high specificity at the cost of sensitivity. To facilitate further studies in “cervical dizziness/vertigo”, we provide a narrative view of the important confounds investigators should consider when designing controlled mechanistic and therapeutic studies. Hence, currently, the Bárány COSC, refrains from proposing any preliminary diagnostic criteria for clinical use outside a research study. This position may change as new research evidence is provided.

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The human brain networks mediating the vestibular sensation of self-motion

Cited by 2 publications

References 80 publications

A prosthesis utilizing natural vestibular encoding strategies improves sensorimotor performance in monkeys

A prosthesis utilizing natural vestibular encoding strategies improves sensorimotor performance in monkeys

The Bárány Society position on ‘Cervical Dizziness’

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