Vergence deficits in patients with cerebellar lesions

Sander, T.; Sprenger, Andreas; Neumann, G.; Machner, Björn; Gottschalk, Stefan; Rambold, H.; Helmchen, Christoph

doi:10.1093/brain/awn306

Cited by 62 publications

(39 citation statements)

References 55 publications

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“…They may be helped by appropriate therapeutic intervention, namely small steps of disparity stimuli, as well as smooth and continuous disparity ramp stimuli (e.g., vectograph ramp stimuli) per models of the vergence system [22,31]. Furthermore, the present abnormal static findings suggest, and are consistent with, disturbance of slow vergence control [32][33][34] (e.g., ramp stimulus for NPC testing). Thus, both fast and slow vergence control appear to be adversely affected by the brain injury.…”

Section: Discussionsupporting

confidence: 64%

“…This would have provided important information regarding the precise sites of damage to the brain, especially as related to vision and, more specifically, to vergence control, as mentioned previously. However, since all were mTBI, it would be expected to be relatively comprehensive in nature, thus having multiple sites of injury per the coupcountercoup aspect [23] frequently found in these patients, and not be as more localized damage as suggested by the cerebrovascular accident results in this area [32][33][34]. Third, because of the relatively small sample size, definitive conclusions cannot be made; thus, further related investigations are warranted.…”

Section: Study Limitationsmentioning

confidence: 99%

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Vergence in mild traumatic brain injury: A pilot study

Szymanowicz

Ciuffreda²,

Thiagarajan³

et al. 2012

JRRD

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Abstract-Vergence dysfunction in individuals with mild traumatic brain injury (mTBI) may have a negative effect on quality of life, functional abilities, and rehabilitative progress. In this study, we used a range of dynamic and static objective and subjective measures of vergence to assess 21 adult patients with mTBI and nearwork symptoms. The results were compared with 10 control adult subjects. With respect to dynamic parameters, responses in those with mTBI were slowed, variable, and delayed. With respect to static parameters, reduced near point of convergence and restricted near vergence ranges were found in those with mTBI. The present results provide evidence for the substantial adverse effect of mTBI on vergence function.

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Section: Discussionsupporting

confidence: 64%

Section: Study Limitationsmentioning

confidence: 99%

Vergence in mild traumatic brain injury: A pilot study

Szymanowicz

Ciuffreda²,

Thiagarajan³

et al. 2012

JRRD

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show abstract

“…1 Few studies examined the motor deficits in the acute stage after a cerebellar stroke. In addition to the classical descriptions of acute symptoms after cerebellar injury, 3,5,6 several recent reports have produced a more detailed account about the effects of acute lesions on oculomotor and speech-motor control, 7,8 language function, 9 and wrist motion. 10 However, to our knowledge, there are no objective biomechanical data available regarding how a cerebellar infarction affects multi-joint upper limb function in the acute stage.…”

mentioning

confidence: 99%

Recovery of Upper Limb Function After Cerebellar Stroke

Konczak

Pierscianek

Hirsiger

et al. 2010

Stroke

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Background and Purpose-Loss of movement coordination is the main postacute symptom after cerebellar infarction.Although the course of motor recovery has been described previously, detailed kinematic descriptions of acute stage ataxia are rare and no attempt has been made to link improvements in motor function to measures of neural recovery and lesion location. This study provides a comprehensive assessment of how lesion site and arm dysfunction are associated in the acute stage and outlines the course of upper limb motor recovery for the first 4 months after the infarction. Methods-Sixteen adult patients with cerebellar stroke and 11 age-matched healthy controls participated. Kinematics of goal-directed and unconstrained finger-pointing movements were measured at the acute stage and in 2-week and 3-month follow-ups. MRI data were obtained for the acute and 3-month follow-up sessions. A voxel-based lesion map subtraction analysis was performed to examine the effect of ischemic lesion sites on kinematic performance. Results-In the acute stage, nearly 70% of patients exhibited motor slowing with hand velocity and acceleration maxima below the range of the control group. MRI analysis revealed that in patients with impaired motor performance, lesions were more common in paravermal lobules IV/V and affected the deep cerebellar nuclei. Stroke affecting the superior cerebellar artery led to lower motor performance than infractions of the posterior cerebellar artery. By the 2-week-follow-up, hand kinematics had improved dramatically (gains in acceleration up to 86%). Improvements between the 2-week and the 3-month-follow-ups were less pronounced. Conclusion-In the acute stage, arm movements were mainly characterized by abnormal slowness (bradykinesia) and not dyscoordination (ataxia). The motor signs were associated with lesions in paravermal regions of lobules IV/V and the deep cerebellar nuclei. Motor recovery was fast, with the majority of gains in upper limb function occurring in the first 2 weeks after the acute phase. (Stroke. 2010;41:2191-2200.)

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“…22,27 Vergence itself may also be affected. 28 Experimental lesions in the dorsal vermis of monkeys produce an esodeviation, but no vertical deviation. 29 The cerebellar flocculus has neurons that discharge with vergence, perhaps related to adjusting vestibular responses for near viewing.…”

Section: Ocular Misalignment With Cerebellar Diseasementioning

confidence: 99%

The cerebellum in eye movement control: nystagmus, coordinate frames and disconjugacy

Patel

Zee

2014

Eye

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In this review we discuss several aspects of eye movement control in which the cerebellum is thought to have a key role, but have been relatively ignored. We will focus on the mechanisms underlying certain forms of cerebellar nystagmus, as well as the contributions of the cerebellum to binocular alignment in healthy and diseased states. A contemporary review of our understanding provides a basis for directions of further inquiry to address some of the uncertainties regarding the contributions of the cerebellum to ocular motor control.

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Vergence deficits in patients with cerebellar lesions

Cited by 62 publications

References 55 publications

Vergence in mild traumatic brain injury: A pilot study

Vergence in mild traumatic brain injury: A pilot study

Recovery of Upper Limb Function After Cerebellar Stroke

The cerebellum in eye movement control: nystagmus, coordinate frames and disconjugacy

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