Your search keyword '"*VESTIBULO-ocular reflex"' showing total 130 results

1. More than meets the eye: A conserved sensorimotor reflex helps unravel the circuit mechanisms of ASD.

Author

Hyde, Romana J. and Rudolph, Stephanie

Subjects

*AUTISM spectrum disorders, *REFLEXES, *HUMAN phenotype, *VESTIBULO-ocular reflex, *ANIMAL models in research

Abstract

Animal models are instrumental to understanding the mechanisms underlying autism spectrum disorder, yet translating human behavioral phenotypes remains challenging. Wang et al. leverage a conserved sensorimotor reflex to elucidate synaptic deficits in S cn2a haploinsufficiency and pilot novel rescue strategies. [ABSTRACT FROM AUTHOR]

Published

2024

2. Vestibular reflexes in essential tremor: abnormalities of ocular and cervical vestibular-evoked myogenic potentials are associated with the cerebellum and brainstem involvement.

Author

Bal, Nilüfer, Şengül, Yıldızhan, Behmen, Meliha Başöz, Powell, Allison, and Louis, Elan D.

Subjects

*ESSENTIAL tremor, *VESTIBULO-ocular reflex, *NEUROLOGIC examination, *BRAIN stem, *REFLEXES

Abstract

This study utilized cervical vestibular-evoked myogenic potentials tests (cVEMP) and ocular vestibular-evoked myogenic potentials tests (oVEMP) to investigate the vestibulocollic and vestibuloocular reflex arcs and to evaluate cerebellar and brainstem involvement) in essential tremor (ET). Eighteen cases with ET and 16 age- and gender-matched healthy control subjects (HCS) were included in the present study. Otoscopic and neurologic examinations were performed on all participants, and both cervical and ocular VEMP tests were performed. Pathological cVEMP results were increased in the ET group (64.7%) compared to the HCS (41,2%; p > 0.05). The latencies of P1 and N1 waves were shorter in the ET group than in HCS (p = 0.01 and p = 0.001). Pathological oVEMP responses were significantly higher in the ET group (72.2%) compared to the HCS (37.5%; p = 0.01). There was no statistically significant difference in oVEMP N1-P1 latencies between groups (p > 0.05). Because the ET group had high pathological responses to the oVEMP, but not the cVEMP, the upper brainstem pathways may be more affected by ET. [ABSTRACT FROM AUTHOR]

Published

2023

3. Multisensory gaze stabilization in response to subchronic alteration of vestibular type I hair cells.

Author

Schenberg, Louise, Palou, Aïda, Simon, François, Bonnard, Tess, Barton, Charles-Elliot, Fricker, Desdemona, Tagliabue, Michele, Llorens, Jordi, and Beraneck, Mathieu

Subjects

*HAIR cells, *GAZE, *VESTIBULO-ocular reflex, *VESTIBULAR apparatus, *SENSORIMOTOR integration, *EPITHELIUM, *REFLEXES

Abstract

The functional complementarity of the vestibulo-ocular reflex (VOR) and optokinetic reflex (OKR) allows for optimal combined gaze stabilization responses (CGR) in light. While sensory substitution has been reported following complete vestibular loss, the capacity of the central vestibular system to compensate for partial peripheral vestibular loss remains to be determined. Here, we first demonstrate the efficacy of a 6-week subchronic ototoxic protocol in inducing transient and partial vestibular loss which equally affects the canal- and otolith-dependent VORs. Immunostaining of hair cells in the vestibular sensory epithelia revealed that organ-specific alteration of type I, but not type II, hair cells correlates with functional impairments. The decrease in VOR performance is paralleled with an increase in the gain of the OKR occurring in a specific range of frequencies where VOR normally dominates gaze stabilization, compatible with a sensory substitution process. Comparison of unimodal OKR or VOR versus bimodal CGR revealed that visuo-vestibular interactions remain reduced despite a significant recovery in the VOR. Modeling and sweep-based analysis revealed that the differential capacity to optimally combine OKR and VOR correlates with the reproducibility of the VOR responses. Overall, these results shed light on the multisensory reweighting occurring in pathologies with fluctuating peripheral vestibular malfunction. [ABSTRACT FROM AUTHOR]

Published

2023

4. Reduced Vestibulo-Ocular Reflex During Fast Head Rotation in Complete Darkness.

Author

Sjögren, Julia, Fransson, Per-Anders, Patel, Mitesh, Blom, Christoffer Lundén, Johansson, Rolf, Magnusson, Måns, and Tjernström, Fredrik

Subjects

*HEAD physiology, *COGNITION disorders, *LIGHTING, *REFLEXES, *PSYCHOLOGY of movement, *VESTIBULAR function tests, *RISK assessment, *PHYSIOLOGICAL effects of acceleration, *ACCIDENTAL falls, *DESCRIPTIVE statistics

Abstract

The human vestibulo-ocular reflex (VOR) leads to maintenance of the acuity of an image on the retina and contributes to the perception of orientation during high acceleration head movements. Our objective was to determine whether vision affects the horizontal VOR by assessing and comparing the performance at the boundaries of contribution of: (a) unrestricted visual information and (b) no visual information. Understanding how the VOR performs under both lighted and unlighted conditions is of paramount importance to avoiding falls, perhaps particularly among the elderly. We tested 23 participants (M age = 35.3 years, standard error of mean (SEM) = 2.0 years). The participants were tested with the video Head Impulse Test (vHIT), EyeSeeCam from Interacoustics™, which assesses whether VOR is of the expected angular velocity compared to head movement angular velocity. The vHIT tests were performed under two conditions: (a) in a well-lit room and (b) in complete darkness. The VOR was analyzed by evaluating the gain (quotient between eye and head angular velocity) at 40, 60 and 80 ms time stamps after the start of head movement. Additionally, we calculated the approximate linear gain between 0-100 ms through regression. The gain decreased significantly faster across time stamps in complete darkness (p <.001), by 10% in darkness compared with a 2% decrease in light. In complete darkness, the VOR gain gradually declined, reaching a marked reduction at 80 ms by 10% (p <.001), at which the head velocities were 150°/second or faster. The approximate linear gain value was not significantly different in complete darkness and in light. These findings suggest that information from the visual system can modulate the high velocity VOR. Subsequently, fast head turns might cause postural imbalance and momentary disorientation in poor light in people with reduced sensory discrimination or motor control, like the elderly. [ABSTRACT FROM AUTHOR]

Published

2023

5. Static cervico-ocular reflex in healthy humans.

Author

Ooka, Tomoki, Honda, Keiji, and Tsutsumi, Takeshi

Subjects

*EYE movements, *RETINA, *RANGE of motion of joints, *REFLEXES, *VESTIBULAR apparatus diseases, *NECK

Abstract

Dynamic cervico- (COR) and vestibulo-ocular reflex (VOR) contribute to stabilise visual images in the retina. The gain in dynamic COR is small in healthy individuals but increases in patients with vestibular dysfunction. Conversely, static COR has not been directly observed in healthy individuals. To elucidate the presence of static COR and quantify it in normal individuals in the roll plane. Eleven healthy participants were included in the study. Eye torsions were measured using video oculography to evaluate the static COR induced by lateral neck flexion during a head-upright-with-body-tilt position at 15°, 30°, and 45°. The ocular counterroll (OCR) was compared during whole-body and head tilts to assess the influence of static COR on OCR. Static COR was significantly observed as eye torsion in the direction opposite to the body tilt. The head tilt OCR was significantly smaller than the whole-body tilt OCR to the right side but not to the left side. Static COR exists in healthy individuals and tends to show higher amplitude as neck flexion stimulation increases. [ABSTRACT FROM AUTHOR]

Published

2023

6. Effects of Visual Input Changes on Canal and Otolith-Dependent Vestibulo-Ocular Reflexes: A Review Study.

Author

Shandiz, Javad Heravian, Mazloom, Mahdi, and Jafarzadeh, Sadegh

Subjects

*VESTIBULAR apparatus diseases, *REFLEXES, *VESTIBULAR function tests, *PHYSIOLOGICAL adaptation, *VISUAL perception, *VISUAL acuity, *DISEASE duration, *VISION disorders, *REFRACTIVE errors, *DISEASE complications

Abstract

Background and Aim: There is an integration between visual and vestibular systems. Changes in visual inputs can result in different changes in the Vestibulo-Ocular Reflex (VOR). This review study investigate the changes in VOR due to changes in visual inputs. In this regard, the effects of different conditions such as visual deprivation, changes in visual acuity, visual-vestibular conflict, and binocular vision dysfunction on VOR were assessed. Recent Findings: Changes in visual inputs and visual-vestibular conflicts can lead to different changes in VOR. Conclusion: The changes in VOR effects vary from slight to severe transformation dependent on the time course, severity and duration of changes in visual inputs. [ABSTRACT FROM AUTHOR]

Published

2023

7. The Orienting Reflex Reveals Behavioral States Set by Demanding Contexts: Role of the Superior Colliculus.

Author

Ji Zhou, Sebastian Hormigo, Busel, Natan, and Castro-Alamancos, Manuel A.

Subjects

*SUPERIOR colliculus, *NEURAL circuitry, *CONDITIONED response, *ANIMAL mechanics, *VESTIBULO-ocular reflex, *REFLEXES, *AUDITORY perception

Abstract

Sensory stimuli can trigger an orienting reflex (response) by which animals move the head to position their sensors (e.g., eyes, pinna, whiskers). Orienting responses may be important to evaluate stimuli that call for action (e.g., approach, escape, ignore), but little is known about the dynamics of orienting responses in the context of goal-directed actions. Using mice of either sex, we found that, during a signaled avoidance action, the orienting response evoked by the conditioned stimulus (CS) consisted of a fast head movement containing rotational and translational components that varied substantially as a function of the behavioral and underlying brain states of the animal set by different task contingencies. Larger CS-evoked orienting responses were associated with high-intensity auditory stimuli, failures to produce the appropriate signaled action, and behavioral states resulting from uncertain or demanding situations and the animal's ability to cope with them. As a prototypical orienting neural circuit, we confirmed that the superior colliculus controls and codes the direction of spontaneous exploratory orienting movements. In addition, superior colliculus activity correlated with CS-evoked orienting responses, and either its optogenetic inhibition or excitation potentiated CS-evoked orienting responses, which are likely generated downstream in the medulla. CS-evoked orienting responses may be a useful probe to assess behavioral and related brain states, and state-dependent modulation of orienting responses may involve the superior colliculus. [ABSTRACT FROM AUTHOR]

Published

2023

8. Report of oscillopsia in ataxia patients correlates with activity, not vestibular ocular reflex gain.

Author

Millar, Jennifer L. and Schubert, Michael C.

Subjects

*CEREBELLAR ataxia, *ATAXIA, *VESTIBULO-ocular reflex, *SEMICIRCULAR canals, *REFLEXES, *PASSIVITY (Psychology), *GAIT in humans

Abstract

BACKGROUND: Patients with cerebellar ataxia report oscillopsia, "bouncy vision" during activity, yet little is known how this impacts daily function. The purpose of this study was to quantify the magnitude of oscillopsia and investigate its relation to vestibulo-ocular reflex (VOR) function and daily activity in cerebellar ataxia. METHODS: 19 patients diagnosed with cerebellar ataxia and reports of oscillopsia with activity were examined using the video head impulse test (vHIT), Oscillopsia Functional Index (OFI), and clinical gait measures. Video head impulse data was compared against 40 healthy controls. RESULTS: OFI scores in ataxia patients were severe and inversely correlated with gait velocity (r = –0.55, p < 0.05), but did not correlate with VOR gains. The mean VOR gain in the ataxic patients was significantly reduced and more varied compared with healthy controls. All patients had abnormal VOR gains and eye/head movement patterns in at least one semicircular canal during VHIT with passive head rotation. CONCLUSIONS: Patients with cerebellar ataxia and oscillopsia have impaired VOR gains, yet severity of oscillopsia and VOR gains are not correlated. Patients with cerebellar ataxia have abnormal oculomotor behavior during passive head rotation that is correlated with gait velocity, but not magnitude of oscillopsia. [ABSTRACT FROM AUTHOR]

Published

2022

9. Impaired cerebellar plasticity hypersensitizes sensory reflexes in SCN2A-associated ASD.

Author

Wang, Chenyu, Derderian, Kimberly D., Hamada, Elizabeth, Zhou, Xujia, Nelson, Andrew D., Kyoung, Henry, Ahituv, Nadav, Bouvier, Guy, and Bender, Kevin J.

Subjects

*CHILDREN with autism spectrum disorders, *VESTIBULO-ocular reflex, *REFLEXES, *SODIUM channels, *AUTISM spectrum disorders

Abstract

Children diagnosed with autism spectrum disorder (ASD) commonly present with sensory hypersensitivity or abnormally strong reactions to sensory stimuli. Such hypersensitivity can be overwhelming, causing high levels of distress that contribute markedly to the negative aspects of the disorder. Here, we identify a mechanism that underlies hypersensitivity in a sensorimotor reflex found to be altered in humans and in mice with loss of function in the ASD risk-factor gene SCN2A. The cerebellum-dependent vestibulo-ocular reflex (VOR), which helps maintain one's gaze during movement, was hypersensitized due to deficits in cerebellar synaptic plasticity. Heterozygous loss of SCN2A -encoded Na V 1.2 sodium channels in granule cells impaired high-frequency transmission to Purkinje cells and long-term potentiation, a form of synaptic plasticity important for modulating VOR gain. VOR plasticity could be rescued in mice via a CRISPR-activator approach that increases Scn2a expression, demonstrating that evaluation of a simple reflex can be used to assess and quantify successful therapeutic intervention. [Display omitted] • Vestibulo-ocular reflex (VOR) is hypersensitized by SCN2A loss of function (LoF) • Hypersensitivity is present in children with SCN2A LoF and Scn2a + / − mouse models • VOR gain cannot be reduced in Scn2a +/− mice due to cerebellar plasticity deficits • VOR gain plasticity can be rescued with a CRISPR-activator-based therapeutic Impaired function in the sodium channel gene SCN2A is a major risk factor for autism spectrum disorder. Here, Wang and colleagues show that heterozygous loss of SCN2A in the cerebellum alters reflexive eye movements in both mouse and man and that a translatable gene therapy rescues such movements in mouse. [ABSTRACT FROM AUTHOR]

Published

2024

10. Update on the medial longitudinal fasciculus syndrome.

Author

Lee, Seung-Han, Kim, Jae-Myung, and Kim, Ji-Soo

Subjects

*VESTIBULO-ocular reflex, *EYE paralysis, *SYNDROMES, *EYE movements, *BENIGN paroxysmal positional vertigo, *NYSTAGMUS, *SACCADIC eye movements, *EYE movement disorders, *REFLEXES

Abstract

The medial longitudinal fasciculus is a key structure for conjugate horizontal eye movements by relaying signals from the abducens internuclear neurons to the medial rectus subdivision of the contralateral oculomotor nucleus. Thus, lesions involving the medial longitudinal fasciculus give rise to a typical neuro-ophthalmological sign, the internuclear ophthalmoplegia, which is characterized by impaired adduction of the ipsilesional eye and dissociated abducting nystagmus of the contralateral eye during attempted contralesional horizontal gaze. In addition, medial longitudinal fasciculus lesions may produce various other ocular motor abnormalities since the medial longitudinal fasciculus also conveys the signals for the control of the vestibulo-ocular reflex and smooth pursuit. Other possible ocular motor abnormalities include spontaneous vertical-torsional nystagmus, contraversive ocular tilt reaction, and impaired vestibulo-ocular reflex, especially for the contralesional posterior canal. Recognition of the ocular motor findings observed in the medial longitudinal fasciculus syndrome would aid in detection and localization of potentially grave lesions involving the brainstem. [ABSTRACT FROM AUTHOR]

Published

2022

11. Vestibular Function Predicts Balance and Fall Risk in Patients with Alzheimer's Disease.

Author

Biju, Kevin, Oh, Esther, Rosenberg, Paul, Xue, Qian-Li, Dash, Paul, Burhanullah, M. Haroon, and Agrawal, Yuri

Subjects

*DISEASE risk factors, *ALZHEIMER'S patients, *VESTIBULAR apparatus diseases, *SEMICIRCULAR canals, *VESTIBULAR apparatus, *VESTIBULO-ocular reflex, *ALZHEIMER'S disease, *POSTURAL balance, *REFLEXES, *RESEARCH funding, *LONGITUDINAL method, *DISEASE complications

Abstract

Background: Patients with Alzheimer's disease (AD) are at high risk for falls. Vestibular dysfunction predicts balance impairment in healthy adults; however, its contribution to falls in patients with AD is not well known.Objective: The objective of this study was to assess whether vestibular function contributes to balance and fall risk in patients with AD.Methods: In this prospective observational study, we assessed vestibular function using measures of semicircular canal (vestibulo-ocular reflex (VOR) gain) and saccular function (cervical vestibular-evoked myogenic (cVEMP) response), and we assessed balance function using the Berg Balance Scale and quantitative posturography. We evaluated falls incidence for a mean 1-year follow-up period (range 3-21 months) in 48 patients with mild-moderate AD.Results: Relative to matched controls, AD patients exhibited increased medio-lateral (ML) sway in eyes-open (0.89 cm versus 0.69 cm; p = 0.033) and eyes-closed (0.86 cm versus 0.65 cm; p = 0.042) conditions. Among AD patients, better semicircular canal function was associated with lower ML sway and antero-posterior (AP) sway in the eyes-closed condition (β= -2.42, 95% CI (-3.89, -0.95), p = 0.002; β= -2.38, 95% CI (-4.43, -0.32), p = 0.025, respectively). Additionally, better saccular function was associated with lower sway velocity (β= -0.18, 95% CI (-0.28, -0.08); p = 0.001). Finally, we observed that better semicircular canal function was significantly associated with lower likelihood of falls when adjusted for age, sex, and MMSE score (HR = 0.65; p = 0.009).Conclusion: These results support the vestibular system as an important contributor to balance and fall risk in AD patients and suggest a role for vestibular therapy. [ABSTRACT FROM AUTHOR]

Published

2022

12. Disruption of self-motion perception without vestibular reflex alteration in ménière's disease.

Author

Faralli, Mario, Ori, Michele, Ricci, Giampietro, Roscini, Mauro, Panichi, Roberto, and Pettorossi, Vito Enrico

Subjects

*MENIERE'S disease, *VECTION, *VESTIBULO-ocular reflex, *REFLEXES, *PATIENTS' attitudes

Abstract

BACKGROUND: Self-motion misperception has been observed in vestibular patients during asymmetric body oscillations. This misperception is correlated with the patient's vestibular discomfort. OBJECTIVE: To investigate whether or not self-motion misperception persists in post-ictal patients with Ménière's disease (MD). METHODS: Twenty-eight MD patients were investigated while in the post-ictal interval. Self-motion perception was studied by examining the displacement of a memorized visual target after sequences of opposite directed fast-slow asymmetric whole body rotations in the dark. The difference in target representation was analyzed and correlated with the Dizziness Handicap Inventory (DHI) score. The vestibulo-ocular reflex (VOR) and clinical tests for ocular reflex were also evaluated. RESULTS: All MD patients showed a noticeable difference in target representation after asymmetric rotation depending on the direction of the fast/slow rotations. This side difference suggests disruption of motion perception. The DHI score was correlated with the amount of motion misperception. In contrast, VOR and clinical trials were altered in only half of these patients. CONCLUSIONS: Asymmetric rotation reveals disruption of self-motion perception in MD patients during the post-ictal interval, even in the absence of ocular reflex impairment. Motion misperception may cause persistent vestibular discomfort in these patients. [ABSTRACT FROM AUTHOR]

Published

2022

13. Correlation between subjective and objective measures in bilateral vestibulopathy.

Author

Bønløkke, Signe, Owen, Hanne, Ovesen, Therese, and Devantier, Louise

Subjects

*VESTIBULAR apparatus physiology, *RESEARCH, *SACCADIC eye movements, *REFLEXES, *HEALTH outcome assessment, *REGRESSION analysis, *QUALITY of life, *QUESTIONNAIRES, *STATISTICAL correlation, INNER ear injuries

Abstract

Bilateral vestibulopathy (BVP) is a chronic and potentially very disabling condition. The impact of the vestibular loss on quality of life (QoL) is variable and still up for discussion. However, previous studies have reported that BVP has a negative impact of QoL. The aim of the study was to evaluate the association between vestibulo-ocular reflex (VOR) gain and saccade pattern and patient reported QoL. Ten patients fulfilling the Bárány criteria of BVP were included in the study. All patients underwent vestibular evaluation using Head Impulse Paradigm (HIMP) and Suppression Head Impulse Paradigm (SHIMP) and responded to Dizziness Handicap Inventory (DHI). DHI was used as a measurement for QoL. Linear regression revealed a tendency to a correlation between lateral VOR-gain measured by HIMP or SHIMP and total DHI score. Covert saccades were related to low total DHI scores. No association was found between type of SHIMP saccade and QoL. No significant correlations were found. A tendency was found towards a relationship between lateral VOR-gain by HIMP or SHIMP and total DHI score. The study also indicates that covert saccades are related to low impact on QoL. [ABSTRACT FROM AUTHOR]

Published

2022

14. Assessing the cervico-ocular reflex system via modifying the ocular vestibular-evoked myogenic potential test.

Author

Hsu, Shuo-Yen and Young, Yi-Ho

Subjects

*VESTIBULO-ocular reflex, *REFLEXES

Abstract

The aim of this study was to devise a novel test for assessing the cervico-ocular reflex (COR) system via head vibration (termed h-COR) or neck vibration (termed n-COR) method. Thirteen patients with complete loss of bilateral vestibulo-ocular reflex (VOR) showing oscillopsia were assigned to Group A, while 13 patients with bilateral VOR loss but no oscillopsia were Group B. Another 13 healthy elderly served as a control. The COR test was performed via modifying the ocular vestibular-evoked myogenic potential (oVEMP) test by tapping at the forehead with head rotation (h-COR) or at mid-dorsal neck with head straight (n-COR). Both h-COR and n-COR tests displayed similar cI–cII waveforms. None of the Group A or healthy elderly showed present h-COR, while 8% of Group A and 31% of the healthy elderly revealed present n-COR. In contrast, present h-COR and n-COR were elicited in 85 and 77% of Group B, respectively. Restated, significantly higher response rate of COR in Group B (without oscillopsia) than Group A (with oscillopsia) indicates that present COR is related to the alleviation of oscillopsia. Head vibration method (h-COR test) is superior to neck vibration method (n-COR test) for assessing the COR system. [ABSTRACT FROM AUTHOR]

Published

2022

15. Comparison of the Efficacy of Video Head Impulse and Bi-Thermal Caloric Tests in Vertigo.

Author

Altunay, Zeynep Onerci and Ozkarakas, Haluk

Subjects

*SEMICIRCULAR canal physiology, *VERTIGO diagnosis, *STATISTICAL significance, *REFLEXES, *VESTIBULAR function tests, *COMPARATIVE studies, *NYSTAGMUS, *HEARING disorders, *CHI-squared test, *DESCRIPTIVE statistics, *STATISTICAL correlation

Abstract

Objective: To compare video head impulse test (vHIT) and caloric test efficacy in decompensated and compensated vertigo patients and to further investigate whether vHIT alone can be used as a diagnostic tool in vertigo. Methods: This study included 25 patients diagnosed with vertigo and without any previous history of vertigo or hearing loss before their admission to our clinic. The control group consisted of 16 healthy adult volunteers. Patients were classified into 2 groups, compensated and decompensated. Video head impulse test and caloric tests were performed and the results were compared between the groups. Results: The difference of caloric test values between control-compensated groups and compensated-decompensated groups was statistically significant (P <.001, Pearson χ2). However, there was no statistically significant difference between the compensated and control groups according to vHIT gain asymmetry values (P =.087). In the very early stages of the disease with spontaneous nystagmus, the diagnostic significance of vHIT was similar to that of the caloric test. When both sides were compared, vHIT gain asymmetry values were close to the caloric test asymmetry values. In the compensated stage, caloric test was superior to vHIT in differentiating compensated vestibular pathologies. When vHIT sensitivity was evaluated according to the bi-thermal caloric test results, the sensitivity of the vHIT gain asymmetry value was 85.71% and 23.08% for decompensated and compensated patients respectively. Conclusion: In the early decompensated stages of the disease with spontaneous nystagmus, vHIT shows similar diagnostic accuracy to that of the caloric test. Since patients can tolerate vHIT more easily, our results suggest that vHIT can be considered as a primary evaluation method in the early (decompensated) period of the disease and should be preferred over the caloric test during the acute phase. Caloric test is more reliable at the compensated stage. Video head impulse test is inadequate in evaluating the compensated vestibular hypofunctional states after compensation has been restored. Level of Evidence: Level 2b [ABSTRACT FROM AUTHOR]

Published

2021

16. Evaluating the Vestibulo-Ocular Reflex Following Traumatic Brain Injury: A Scoping Review.

Author

Crampton, Adrienne, Garat, A., Shepherd, H. A., Chevignard, M., Schneider, K. J., Katz-Leurer, M., and Gagnon, I.J.

Subjects

*CINAHL database, *PSYCHOLOGY information storage & retrieval systems, *MEDICAL information storage & retrieval systems, *MEDICAL databases, *INFORMATION storage & retrieval systems, *ELECTROOCULOGRAPHY, *SYSTEMATIC reviews, *VESTIBULAR apparatus diseases, *REFLEXES, *VESTIBULAR function tests, *BRAIN concussion, *VISION, *VISUAL acuity, *BRAIN injuries, *MEDLINE, *LITERATURE reviews

Abstract

Purpose:To identify the tests and tools used to evaluate vestibulo-ocular reflex (VOR) function after traumatic brain injury (TBI) in all age groups and across TBI severity. Methods: An electronic search was conducted to include relevant peer-reviewed literature published up to November 2019. Studies included those done with humans, of all ages, and had assessments of oculomotor and/or vestibulo-ocular function in TBI. Results: Of the articles selected (N = 48), 50% were published in 2018/2019. A majority targeted mild TBI, with equal focus on non-computerized versus computerized measures of VOR. Computerized assessment tools used were videonystagmography, dynamic visual acuity/gaze stability, rotary chair, and caloric irrigation. Non-computerized tests included the head thrust, dynamic visual acuity, gaze stability, head shaking nystagmus, rotary chair tests and the vestibular/oculomotor screening tool. High variability in administration protocols were identified. Namely: testing environment, distances/positioning/equipment used, active/passive state, procedures, rotation frequencies, and variables observed. Conclusions: There is a rapid growth of literature incorporating VOR tests in mild TBI but moderate and severe TBI continues to be under-represented. Determining how to pair a clinical test with a computerized tool and developing standardized protocols when administering tests will help in developing an optimal battery assessing the VOR in TBI. [ABSTRACT FROM AUTHOR]

Published

2021

17. RELATION BETWEEN CERVICAL AND OCULAR VESTIBULAR EVOKED MYOGENIC POTENTIALS AND BRAINSTEM SYMPTOMS AND MRI LESIONS IN MULTIPLE SCLEROSIS PATIENTS.

Author

Dabbous, Abeir Osman, Shalaby, Nevin Mohieldin, Abousetta, Alaa Eldein Ahmed, Hosny, Noha Ali, and Soliman Fadel, Eman Adel Osman

Subjects

*MULTIPLE sclerosis diagnosis, *EVOKED potentials (Electrophysiology), *MAGNETIC resonance angiography, *ACADEMIC medical centers, *CROSS-sectional method, *REFLEXES, *CASE-control method, *VESTIBULAR function tests, *MEDICAL history taking, *QUESTIONNAIRES, *BRAIN stem

Abstract

Background: In multiple sclerosis (MS), even in the presence of clinical brainstem symptoms, the brainstem does not always show gross lesions on magnetic resonance imaging (MRI). However, MS may impair vestibular-evoked myogenic potential (VEMP) responses. Material and methods: This study included 70 participants, 40 who were MS patients and 30 healthy adult volunteers as controls. All participants were subjected to history taking, otological examination, basic audiological evaluation, bedside examination of the dizzy patient, cervical VEMP (cVEMP), and ocular VEMP (oVEMP). Results: Of the 40 MS patients, 37.5% had abnormal cVEMP and 67.5% had abnormal oVEMP. Some 23% of the 21 MS patients without brainstem lesions on MRI had abnormal cVEMP and oVEMP, including 69% of those who had vertigo. MS patients with brainstem lesions on MRI had significantly greater oVEMP latency than patients without similar MRI findings. Conclusions: MS patients showed dysfunction in the vestibulo-ocular and vestibulo-spinal reflexes. This dysfunction is reflected in impaired oVEMP and cVEMP respectively despite the absence of structural brainstem abnormalities. Thus, VEMP, especially oVEMP, can be used as an early indicator of brainstem involvement in MS before radiological signs appear on MRI. [ABSTRACT FROM AUTHOR]

Published

2021

18. The Relationship of Vestibulo-Ocular Reflex With Self-Reported Dizziness Handicap in Patients With Vestibular Deafferentation.

Author

Eravcı, Fakih Cihat, Yılmaz, Metin, Uğur, Mehmet Birol, Tutar, Hakan, Karamert, Recep, Şansal, Ebru, and Göksu, Nebil

Subjects

*VESTIBULAR nerve, *SACCADIC eye movements, *DIZZINESS, *POSTURAL balance, *INNER ear, *VESTIBULAR apparatus diseases, *REFLEXES, *QUESTIONNAIRES, *LONGITUDINAL method, *SYMPTOMS

Abstract

The relationship between objective vestibular tests and subjective vestibular tests is a controversial topic. In this study, to contribute to this issue, the vestibulo-ocular reflex features and their relationship with balance perception at long-term follow-up in vestibular neurectomy (VN) and total labyrentectomy patients were evaluated. Prospectively, 19 VN and 18 labyrinthectomy patients were enrolled in this study. Patients underwent video head impulse test (VHIT) as objective vestibular test and dizziness handicap inventory (DHI) as subjective vestibular test when they attended to their control visit follow-up between March and September 2017. Lateral canal corrective saccades were classified as organized pattern and deorganized (scattered) pattern. In our results, the saccade pattern analysis (between organized and deorganized saccades) regarding the DHI scores gave P value as.039 for covert saccade pattern and.050 for overt saccade pattern. Therefore, we conclude that the presence of saccades, their patterns, and amplitudes provide extra information at assessing the results of the VHIT test, and the organized pattern of saccades is related to a stable vestibular system and better balance perception. [ABSTRACT FROM AUTHOR]

Published

2021

19. Ocular Reflex Adaptation as an Experimental Model of Cerebellar Learning –– In Memory of Masao Ito ––.

Author

Nagao, Soichi

Subjects

*COGNITIVE ability, *VESTIBULO-ocular reflex, *PURKINJE cells, *MOTOR neurons, *REFLEXES

Abstract

• Studies of ocular reflex adaptations support the cerebellar learning hypothesis. • Purkinje cell synapse plasticity driven by climbing fiber inputs induces adaptations. • The memory of adaptation is initially formed in cerebellar flocculus Purkinje cells. • Repetition of adaptations consolidate the memory of adaptations in vestibular nuclei. • The hypothesis includes integrative functions operated by the cerebrocerebellar loop. Masao Ito proposed a cerebellar learning hypothesis with Marr and Albus in the early 1970s. He suggested that cerebellar flocculus (FL) Purkinje cells (PCs), which directly inhibit the vestibular nuclear neurons driving extraocular muscle motor neurons, adaptively control the horizontal vestibulo-ocular reflex (HVOR) through the modification of mossy and parallel fiber-mediated vestibular responsiveness by visual climbing fiber (CF) inputs. Later, it was suggested that the same FL PCs adaptively control the horizontal optokinetic response (HOKR) in the same manner through the modification of optokinetic responsiveness in rodents and rabbits. In 1982, Ito and his colleagues discovered the plasticity of long-term depression (LTD) at parallel fiber (PF)–PC synapses after conjunctive stimulation of mossy or parallel fibers with CFs. Long-term potentiation (LTP) at PF–PC synapses by weak PF stimulation alone was found later. Many lines of experimental evidence have supported their hypothesis using various experimental methods and materials for the past 50 years by many research groups. Although several controversial findings were presented regarding their hypothesis, the reasons underlying many of them were clarified. Today, their hypothesis is considered as a fundamental mechanism of cerebellar learning. Furthermore, it was found that the memory of adaptation is transferred from the FL to vestibular nuclei for consolidation by repetition of adaptation through the plasticity of vestibular nuclear neurons. In this article, after overviewing their cerebellar learning hypothesis, I discuss possible roles of LTD and LTP in gain-up and gain-down HVOR/HOKR adaptations and refer to the expansion of their hypothesis to cognitive functions. [ABSTRACT FROM AUTHOR]

Published

2021

20. Binocular 3D otolith-ocular reflexes: responses of chinchillas to prosthetic electrical stimulation targeting the utricle and saccule.

Author

Hageman, Kristin N., Chow, Margaret R., Roberts, Dale, Boutros, Peter J., Tooker, Angela, Kye Lee, Felix, Sarah, Pannu, Satinderpall S., Haque, Razi, and Della Santina, Charles C.

Subjects

*SEMICIRCULAR canals, *VESTIBULO-ocular reflex, *VESTIBULAR nerve, *REFLEXES, *HAIR cells, *MACULA lutea, *AUDITORY cortex

Abstract

From animal experiments by Cohen and Suzuki et al. in the 1960s to the first-in-human clinical trials now in progress, prosthetic electrical stimulation targeting semicircular canal branches of the vestibular nerve has proven effective at driving directionally appropriate vestibulo-ocular reflex eye movements, postural responses, and perception. That work was considerably facilitated by the fact that all hair cells and primary afferent neurons in each canal have the same directional sensitivity to head rotation, the three canals' ampullary nerves are geometrically distinct from one another, and electrically evoked three-dimensional (3D) canal-ocular reflex responses approximate a simple vector sum of linearly independent components representing relative excitation of each of the three canals. In contrast, selective prosthetic stimulation of the utricle and saccule has been difficult to achieve, because hair cells and afferents with many different directional sensitivities are densely packed in those endorgans and the relationship between 3D otolith-ocular reflex responses and the natural and/or prosthetic stimuli that elicit them is more complex. As a result, controversy exists regarding whether selective, controllable stimulation of electrically evoked otolith-ocular reflexes (eeOOR) is possible. Using micromachined, planar arrays of electrodes implanted in the labyrinth, we quantified 3D, binocular eeOOR responses to prosthetic electrical stimulation targeting the utricle, saccule, and semicircular canals of alert chinchillas. Stimuli delivered via near-bipolar electrode pairs near the maculae elicited sustained ocular countertilt responses that grew reliably with pulse rate and pulse amplitude, varied in direction according to which stimulating electrode was employed, and exhibited temporal dynamics consistent with responses expected for isolated macular stimulation. [ABSTRACT FROM AUTHOR]

Published

2020

21. Binocular 3D otolith-ocular reflexes: responses of normal chinchillas to tilt and translation.

Author

Hageman, Kristin N., Chow, Margaret R., Roberts, Dale, and Della Santina, Charles C.

Subjects

*ANATOMICAL planes, *VESTIBULO-ocular reflex, *REFLEXES, *EYE movements, *GRAVITATIONAL fields

Abstract

Head rotation, translation, and tilt with respect to a gravitational field elicit reflexive eye movements that partially stabilize images of Earth-fixed objects on the retinas of humans and other vertebrates. Compared with the angular vestibulo-ocular reflex, responses to translation and tilt, collectively called the otolith-ocular reflex (OOR), are less completely characterized, typically smaller, generally disconjugate (different for the 2 eyes) and more complicated in their relationship to the natural stimuli that elicit them. We measured binocular 3-dimensional OOR responses of 6 alert normal chinchillas in darkness during whole body tilts around 16 Earth-horizontal axes and translations along 21 axes in horizontal, coronal, and sagittal planes. Ocular countertilt responses to 40-s whole body tilts about Earth-horizontal axes grew linearly with head tilt amplitude, but responses were disconjugate, with each eye's response greatest for whole body tilts about axes near the other eye's resting line of sight. OOR response magnitude during 1-Hz sinusoidal whole body translations along Earth-horizontal axes also grew with stimulus amplitude. Translational OOR responses were similarly disconjugate, with each eye's response greatest for whole body translations along its resting line of sight. Responses to Earth-horizontal translation were similar to those that would be expected for tilts that would cause a similar peak deviation of the gravitoinertial acceleration (GIA) vector with respect to the head, consistent with the "perceived tilt" model of the OOR. However, that model poorly fit responses to translations along non-Earth-horizontal axes and was insufficient to explain why responses are larger for the eye toward which the GIA vector deviates. [ABSTRACT FROM AUTHOR]

Published

2020

22. Normal Vestibulo Ocular Reflex (VOR) gain Measured Using the Video Head Impulse Test (vHIT) in Healthy Young Adults.

Author

S. A., Jamaluddin and N. A., Omar

Subjects

*YOUNG adults, *INFRARED cameras, *HEAD, *REFLEXES, *SEMICIRCULAR canals

Abstract

Introduction: Many new objective tests to assess the function of specific structures of the vestibular organ are currently adopted in vestibular clinics. One of the objective assessments include the video head impulse test (vHIT) where gain & velocity responses of eye relative to the head movements are recorded using an infrared camera. Methods: Thirty normal hearing subjects age between 18 to 25 years old participated in this study. At least ten Lateral, Left Anterior Right Posterior (LARP), and Right Anterior Left Posterior (RALP) responses were recorded for each participant by making small and rapid unpredictable head movements. Results: The average velocity gain for Lateral responses at 40 ms, 60 ms and 80 ms were 1.05 ± 0.003, 1.03 ± 0.002 and 1.01 ± 0.003 respectively. The LARP average velocity regression were 1.01 ± 0.24 for Left Anterior and 1.05 ± 0.25 for Right Posterior, with an average gain asymmetry of 5.13%. The RALP average velocity regression were 1.08 ± 0.31 for Right Anterior and 1.12 ± 0.30 for Left Posterior, with an average gain asymmetry of 5.87%. One sample T-test were conducted to compare Lateral responses to a previous study by Mossman et al. (2015) where significant differences in velocity gain at 60 ms and 80 ms between studies were found where, t (59) = 5.56, p <0.01 and t (59) = 2.86, p < 0.01 respectively. Conclusion: This indicates the importance of establishing on -site norms for every clinical settings as techniques used and equipment differences could affect the results. [ABSTRACT FROM AUTHOR]

Published

2019

23. Effect of Intensity Level and Speech Stimulus Type on the Vestibulo-Ocular Reflex.

Author

Easterday, Mary, Plyler, Patrick N., Lewis, James D., and Doettl, Steven M.

Subjects

*EAR physiology, *ACOUSTIC reflex, *ANALYSIS of variance, *COMPUTER software, *STATISTICAL correlation, *DIAGNOSIS, *HEARING levels, *NOISE, *OTOACOUSTIC emissions, *REFLEXES, *SPEECH, *SPEECH perception, *REPEATED measures design, *DESCRIPTIVE statistics

Abstract

Background: Accurate vestibulo-ocular reflex (VOR) measurement requires control of extravestibular suppressive factors such as visual fixation. Although visual fixation is the dominant suppressor and has been extensively studied, the mechanisms underlying suppression from nonvisual factors of attention and auditory stimulation are less clear. It has been postulated that the nonvisual suppression of the VOR is the result of one of two mechanisms: (1) activation of auditory reception areas excites efferent pathways to the vestibular nuclei, thus inhibiting the VOR or (2) cortical modulation of the VOR results from directed attention, which implies a nonmodality-specific process. Purpose: The purpose of this research was to determine if the VOR is affected by the intensity level and/or type of speech stimulus. Research Design: A repeated measures design was used. The experiment was single-blinded. Study Sample: Participants included 17 adults (14 females, three males) between the ages of 18-34 years who reported normal oculomotor, vestibular, neurological, and musculoskeletal function. Data Collection and Analysis: Each participant underwent slow harmonic acceleration testing in a rotational chair. VOR gain was assessed at 0.02, 0.08, and 0.32 Hz in quiet (baseline). VOR gain was also assessed at each frequency while a forward running speech stimulus (attentional) or a backward running speech stimulus (nonattentional) was presented binaurally via insert earphones at 42, 62, and 82 dBA. The order of the conditions was randomized across participants. VOR difference gain was calculated as VOR gain in the auditory condition minus baseline VOR gain. To evaluate auditory efferent function, the medial olivocochlear reflex (MOCR) was assayed using transient-evoked otoacoustic emissions (right ear) measured in the presence and absence of broadband noise (left ear). Contralateral acoustic reflex thresholds were also assessed using a broadband noise elicitor. A three-way repeated measures analysis of variance was conducted to evaluate the effect of frequency, intensity level, and speech type on VOR difference gain. Correlations were conducted to determine if difference gain was related to the strength of the MOCR and/or to the acoustic reflex threshold. Results: The analysis of variance indicated that VOR difference gain was not significantly affected by the intensity level or the type of speech stimulus. Correlations indicated VOR difference gain was not significantly related to the strength of the MOCR or the acoustic reflex threshold. Conclusions: The results were in contrast to previous research examining the effect of auditory stimulation on VOR gain as auditory stimulation did not produce VOR suppression or enhancement for most of the participants. Methodological differences between the studies may explain the discrepant results. The removal of an acoustic target from space to attend to may have prevented suppression or enhancement of the VOR. Findings support the hypothesis that VOR gain may be affected by cortical modulation through directed attention rather than due to activation of efferent pathways to the vestibular nuclei. [ABSTRACT FROM AUTHOR]

Published

2019

24. Cervico-ocular reflex upregulation in dizzy patients with asymmetric neck pathology.

Author

ZAMYSŁOWSKA-SZMYTKE, EWA, ADAMCZEWSKI, TOMASZ, ZIĄBER, JACEK, MAJAK, JOANNA, KUJAWA, JOLANTA, ŚLIWIŃSKA-KOWALSKA, MARIOLA, Zamysłowska-Szmytke, Ewa, Ziąber, Jacek, and Śliwińska-Kowalska, Mariola

Subjects

*NECK, *VESTIBULO-ocular reflex, *NECK muscles, *PATHOLOGY, *VERTIGO, *REFLEXES, *H-reflex, *VISION

Abstract

Objectives: The aim of this study was to investigate whether the restriction in neck rotation and increased neck muscle tension could be causally related to vertigo and dizziness.Material and Methods: Seventy-one patients reporting vertigo and/or imbalance were divided into 2 groups: 45 subjects with unilateral restriction (R+) and 26 without restriction (R-) of cervical rotation and muscle tension in the clinical flexion-rotation test. The normal caloric test was the inclusion criterion. The control group comprised 36 healthy volunteers with no history of vertigo. The vestibulo-ocular reflex (VOR) and the cervico-occular reflex (COR) were measured through the videonystagmography (VNG) sinusoidal pendular kinetic test in the conditions of not inactivated head and immobilized head, respectively. The VNG-head torsion test (VNG-HTT) nystagmus was recorded.Results: Among the reported complaints, neck stiffness, headaches and blurred vision were more frequent in the R+ group than in both the R- group and the control group. VNG revealed an increased COR gain and the presence of VNG-HTT nystagmus in the R+ group only. Similarly, only in the R+ group a positive relationship between COR and VOR was observed.Conclusions: Patients with asymmetric restriction in neck rotation and increased neck muscle tension reveal the tendency to have an increased response of the vestibular system, along with co-existing COR upregulation. Further research is needed to investigate the relationships between the activation of cervical mechanoreceptors and dizziness pathomechanisms. Int J Occup Med Environ Health. 2019;32(5):723-33. [ABSTRACT FROM AUTHOR]

Published

2019

25. Power spectra prognostic aspects of impulsive eye movement traces in superior vestibular neuritis.

Author

Micarelli, Alessandro, Viziano, Andrea, Panella, Massimo, Micarelli, Elisa, and Alessandrini, Marco

Subjects

*POWER spectra, *EYE movements, *NEURITIS, *VESTIBULO-ocular reflex, *ELECTROPHYSIOLOGY, *EAR diseases, *PROGNOSIS, *REFLEXES, *REGRESSION analysis, *VESTIBULAR function tests, *VIDEO recording, *CASE-control method, *ONDANSETRON, *EYE movement measurements, ACOUSTIC nerve diseases

Abstract

Since usefulness of power spectra (PS) analysis was demonstrated in many fields of electrophysiology, the aims of the present study were to evaluate differences in frequency domain values of eye velocity traces between a group of 60 healthy subjects (HC) and 35 matched superior vestibular neuritis (VN) patients and to determine prognostic aspects of such values in terms of superior VN recovery. PS calculated on video head impulse test traces was compared between HC and during the acute stage of vertigo (T1) and after 3 months (T2) in superior VN patients. A multiple regression and desirability model between Δ (T2gain - T1gain) vestibulo-ocular reflex (VOR) gain and five prognostic factors were employed. Significant PS differences within the 7.8-16.6 Hz domain were found between superior VN and HC. A significant negative correlation was found between the 7.8-16.6 Hz domain unitary PS value and Δ VOR gain (β = - 0.836). The desirability model depicted a cutoff value of the unitary PS equal to 1.82 in order to obtain a Δ VOR gain rate at least equal to 0.1. Present findings could be a further step for monitoring those superior VN patients with systemic risk factors and high risk of VOR incomplete recovery. Graphical abstract In the top left, healthy control (HC) and superior vestibular neuritis (VN) subjects were screened by means of video head impulse test. In the top right, significant differences in power spectra values were depicted within the 7.8-16.6 Hz domain when comparing the two groups of subjects. In the bottom center, the desirability model depicts a cutoff value of the power spectra equal to 1.82 in order to obtain a Δ vestibulo-ocular reflex gain rate at least equal to 0.1. [ABSTRACT FROM AUTHOR]

Published

2019

26. Strategies for Gaze Stabilization Critically Depend on Locomotor Speed.

Author

Dietrich, H. and Wuehr, M.

Subjects

*GAZE, *VESTIBULO-ocular reflex, *SPEED, *REFLEXES

Abstract

Locomotion involves complex combinations of translational and rotational head movements. For gaze stability, this necessitates the interplay of angular and linear vestibulo-ocular reflexes (VOR) as well as the integration of visual feedback about the desired viewing distance. Furthermore, gaze stabilizing systems must be able to cope with vast differences in head motion brought about by changing locomotor speeds and patterns (walking vs. running). The present study investigated horizontal and vertical angular VOR (aVOR) and linear gaze stabilization (lGS) as well as compensation for linear head movements by angular counter rotation of the head during treadmill walking and running at different velocities (0.4 to 2.4 m/s) while fixating either a close (0.5 m) or distant (2.0 m) target. In the horizontal plane, the aVOR predominated throughout all locomotor speeds, whereas the compensation of linear translations was highly variable and generally insufficient. In contrast, in the vertical plane, eye and angular head motion steadily became more in phase with increasing locomotor speed, which served to optimize linear motion compensation. Furthermore, the timing of the vertical aVOR became more automated and independent of visual feedback during faster locomotion. Thus, horizontal and vertical gaze stabilization strategies appear to be considerably different. Whereas horizontal gaze control is likely governed by passive sensorimotor reflexes throughout all locomotor speeds, vertical gaze stabilization switches to an automated feed-forward control at faster locomotion. This switch is presumably driven by efference copies from spinal locomotor commands that were previously shown to govern gaze stabilization in animal models during stereotypic locomotion. • Gaze stabilization during locomotion depends on locomotor speed, dimension, and target distance. • Gaze stabilization in the horizontal dimension is mediated by sensory feedback independent of locomotor speed. • In contrast, gaze stabilization in the vertical plane undergoes a major transformation from slow to fast locomotion. • These changes in vertical gaze stabilization are presumably governed by feed-forward signals from the locomotor command. [ABSTRACT FROM AUTHOR]

Published

2019

27. Pharmacological profile of vestibular inhibitory inputs to superior oblique motoneurons.

Author

Soupiadou, Parthena, Branoner, Francisco, and Straka, Hans

Subjects

*VESTIBULO-ocular reflex, *REFLEXES, *BRAIN stem, *EYE muscles, *XENOPUS laevis

Abstract

Vestibulo-ocular reflexes (VOR) are mediated by three-neuronal brainstem pathways that transform semicircular canal and otolith sensory signals into motor commands for the contraction of spatially specific sets of eye muscles. The vestibular excitation and inhibition of extraocular motoneurons underlying this reflex is reciprocally organized and allows coordinated activation of particular eye muscles and concurrent relaxation of their antagonistic counterparts. Here, we demonstrate in isolated preparations of Xenopus laevis tadpoles that the discharge modulation of superior oblique motoneurons during cyclic head motion derives from an alternating excitation and inhibition. The latter component is mediated exclusively by GABA, at variance with the glycinergic inhibitory component in lateral rectus motoneurons. The different pharmacological profile of the inhibition correlates with rhombomere-specific origins of vestibulo-ocular projection neurons and the complementary segmental abundance of GABAergic and glycinergic vestibular neurons. The evolutionary conserved rhombomeric topography of vestibulo-ocular projections makes it likely that a similar pharmacological organization of inhibitory VOR neurons as reported here for anurans is also implemented in mammalian species including humans. [ABSTRACT FROM AUTHOR]

Published

2018

28. Video Head Impulse Testing in a Pediatric Population: Normative Findings.

Author

Bachmann, Katheryn, Sipost, Kaitlin, Lavender, Violette, and Hunter, Lisa L.

Subjects

*SEMICIRCULAR canal physiology, *AUDIOLOGISTS, *AUDITORY perception, *CHILDREN'S hospitals, *LONGITUDINAL method, *RESEARCH methodology, *QUESTIONNAIRES, *REFLEXES, *STATISTICS, *T-test (Statistics), *VESTIBULAR apparatus diseases, *VESTIBULAR function tests, *DATA analysis, *CROSS-sectional method, *DESCRIPTIVE statistics, *KRUSKAL-Wallis Test, *ONE-way analysis of variance, *CHILDREN

Abstract

Background: The video head impulse test (vHIT) is a new tool being used in vestibular clinics to assess the function of all six semicircular canals (SCCs) by measuring the gain of the vestibulo-ocular reflex (VOR) in response to rapid head turns. Whereas vHIT has been validated in adults for all SCCs, there are few studies describing the normal response in children, particularly for stimulation of the vertical canals. Purpose: The purpose of this study was to characterize the normal vHIT response for all six SCCs in children aged 4-12 years. Research Design: A cross-sectional prospective descriptive study. Study Sample: Forty-one participants were categorized into one of four groups based on their age (4-6 years, 7-9 years, 10-12 years, and adults) with at least ten participants in each age group. Data Collection and Analysis: The ICS Impulse system (GN Otometrics, Schaumburg, IL) was used to perform vHIT on each participant. Lateral, anterior, and posterior SCCs were stimulated by thrusting the head in the plane of the canal being evaluated and resulting VOR gain measures were calculated as eye velocity divided by head velocity. VOR gain of the pediatric age groups was compared with adults for all SCCs. Results: There were no significant differences in mean VOR gain between the three pediatric age groups for any SCC measured; thus, the pediatric data were combined into one group of 30 children for comparison with the adult group. Results showed that the pediatric group had significantly higher mean VOR gain than the adult group during left lateral SCC testing. A significantly lower mean VOR gain, however, was observed for the children compared with the adult participants for left anterior and right posterior (LARP) impulses. There was a large amount of variability in the data during right anterior and left posterior (RALP) impulse testing for both the pediatric and the adult groups, which was at least partially attributed to large pupil diameter in the younger participants. Test time decreased with an increase in age for all impulse conditions (lateral, RALP, and LARP). Several modifications were necessary to obtain adequate data on the pediatric participants. Conclusions: vHIT can be used to successfully measure the function of the lateral SCC in children as young as 4 years of age. Our results provide normative gain values that can be used when testing children with lateral vHIT. Care must be taken to obtain the most accurate measures and reduce variability when testing children, particularly with LARP and RALP. Our data would suggest that lower gain cutoffs should be used for LARP and RALP testing in children than the cutoffs used for lateral vHIT. Further research is warranted to study LARP and RALP response reliability and validity in children because of the highly variable VOR gains found in this population. Pediatric modifications for successfully administering vHIT and obtaining reliable results are discussed. [ABSTRACT FROM AUTHOR]

Published

2018

29. Intratympanal gentamicin in Meniere's disease: Effects on individual semicircular canals.

Author

Büki, Béla and Jünger, Heinz

Subjects

*MENIERE'S disease, *GENTAMICIN, *SEMICIRCULAR canals, *VESTIBULO-ocular reflex, *VERTIGO, *THERAPEUTICS, *DRUG therapy for vertigo, *ENZYME inhibitors, *REFLEXES, *VESTIBULAR function tests, *RETROSPECTIVE studies, *PHARMACODYNAMICS

Abstract

Objective: In this retrospective study the aim of the authors was to examine the effect of gentamicin on the individual semicircular canals after low dose, single injection intratympanal gentamicin therapy in Meniere's disease.Methods: Data of 32 patients treated between 2011 and 2015 were collected. The high frequency, high acceleration vestibuloocular reflex (VOR) gain was measured in the individual semicircular canals using video head impulse test immediately before the first intratympanal gentamicin instillation and approximately two months later.Results: In all cases 'AAO-HNS Class A' vertigo control could be attained at least for several months. In 13 cases only one instillation was necessary. In the other 19 cases the attacks returned after a few months. In 11 cases the injection had to be repeated a second time, in 4 cases 3 injections, in 2 cases 4, in 1 case 5 injections and in another 6 injections were necessary. The initial VOR gain was normal in all cases and two months after one injection it decreased in average by 40% in a highly significant manner. However, there were cases in which, although the patients became free of attacks, the gain values remained normal.Conclusion: It was possible to demonstrate a significant correlation between the gain decrease of the individual canals. There was no prognostic correlation between the initial gain decrease after the first injection and the necessity of further injections. Gain values also decreased slightly but significantly in the lateral and posteriors canals on the contralateral, untreated side, possibly because of the missing disfacilitation from the treated side. [ABSTRACT FROM AUTHOR]

Published

2018

30. The influence of cervical movement on eye stabilization reflexes: a randomized trial.

Author

Ischebeck, Britta K., de Vries, Jurryt, van Wingerden, Jan Paul, Kleinrensink, Gert Jan, Frens, Maarten A., and van der Geest, Jos N.

Subjects

*VESTIBULO-ocular reflex, *REFLEXES, *RANGE of motion of joints, *HYPERKINESIA, *HYPOKINESIA

Abstract

To investigate the influence of the amount of cervical movement on the cervico-ocular reflex (COR) and vestibulo-ocular reflex (VOR) in healthy individuals. Eye stabilization reflexes, especially the COR, are changed in neck pain patients. In healthy humans, the strength of the VOR and the COR are inversely related. In a cross-over trial the amplitude of the COR and VOR (measured with a rotational chair with eye tracking device) and the active cervical range of motion (CROM) was measured in 20 healthy participants (mean age 24.7). The parameters were tested before and after two different interventions (hyperkinesia: 20 min of extensive active neck movement; and hypokinesia: 60 min of wearing a stiff neck collar). In an additional replication experiment the effect of prolonged (120 min) hypokinesia on the eye reflexes were tested in 11 individuals. The COR did not change after 60 min of hypokinesia, but did increase after prolonged hypokinesia (median change 0.220; IQR 0.168, p = 0.017). The VOR increased after 60 min of hypokinesia (median change 0.155, IQR 0.26, p = 0.003), but this increase was gone after 120 min of hypokinesia. Both reflexes were unaffected by cervical hyperkinesia. Diminished neck movements influences both the COR and VOR, although on a different time scale. However, increased neck movements do not affect the reflexes. These findings suggest that diminished neck movements could cause the increased COR in patients with neck complaints. [ABSTRACT FROM AUTHOR]

Published

2018

31. Determination of the time course of caloric nystagmus in patients with spinocerebellar degeneration using caloric step stimulus procedure.

Author

Takeda, Takamori, Makabe, Ayane, Hirai, Chiaki, and Tsutsumi, Takeshi

Subjects

*FRIEDREICH'S ataxia, *ADAPTABILITY (Personality), *AGING, *NYSTAGMUS, *REFLEXES, *TIME, *VESTIBULAR function tests, *SYMPTOMS, *DIAGNOSIS

Abstract

Conclusions:The step stimulus procedure can provide information on the time course of the vestibulo-ocular reflex. Spinocerebellar degeneration and aging seem to shorten the time constant of the onset of the vestibulo-ocular reflex, causing a rapid rise up. Failure of the central processing of velocity storage might contribute to this rapid rise up. Objectives:The aim of this study is to evaluate the time course characteristics of the vestibulo-ocular reflex in patients with spinocerebellar degeneration. Methods:Ten patients (20 ears) and 22 healthy subjects (30 ears) underwent caloric test using the step stimulus procedure. We evaluated the time course of caloric VOR and calculated the parameters of the time constant of an activation and adaptation response. We compared between the control and SCD groups to elucidate the time course characteristics of caloric VOR in patients with SCD. Results:Spinocerebellar degeneration seems to shorten the time constant of the activation response by caloric irrigation with 20 °C, 7l/min air. However, aging also possibly contributes to this shortening. No change was observed in the time constant of the adaptation response. [ABSTRACT FROM PUBLISHER]

Published

2018

32. Role of video-head impulse test in lateralization of vestibulopathy: Comparative study with caloric test.

Author

Park, Pona, Park, Joo Hyun, Kim, Ji Soo, and Koo, Ja-Won

Subjects

*DIAGNOSIS of ear diseases, *CEREBRAL dominance, *VESTIBULO-ocular reflex, *VERTIGO, *CALORIC expenditure, *RECEIVER operating characteristic curves, *VERTIGO diagnosis, *VESTIBULAR apparatus diseases, *COMPARATIVE studies, *RESEARCH methodology, *MEDICAL cooperation, *REFLEXES, *RESEARCH, *VESTIBULAR function tests, *VIDEO recording, *EVALUATION research, *CASE-control method, *DIAGNOSIS

Abstract

Objective: To evaluate the lateralization value of video head-impulse test (vHIT) for the diagnosis of vestibulopathy and to analyze cases showing dissociated results with caloric test.Methods: In total, 19 healthy volunteers and 92 dizzy patients who underwent both a caloric test and a vHIT were enrolled. Patients were divided into two groups depending on their fluctuating pattern of vertigo. The vestibulo-ocular reflex (VOR) gain and gain asymmetry (GA) of a vHIT as well as unilateral weakness (UW) and the sum of the slow-phase velocities (SPVs) of warm and cold irrigation of the same side were compared. A cutoff value of VOR gain of a vHIT was also calculated using a receiver-operating characteristic curve.Results: A VOR gain in an affected ear and GA of a vHIT showed a statistically significant correlation with UW in a caloric test. The cutoff value of a vHIT was determined to be 0.875, derived under the assumption that UW of a caloric test ≤25% is normal. However, the parameters of the two tests were dissociated in 18%.Conclusion: A VOR gain of vHIT is a valuable objective parameter with a lateralization value determining vestibular hypofunction. However, considering substantial dissociation between a vHIT and a caloric test, these tests can be complementary tools for the lateralization of vestibular impairment for the comprehensive evaluation of patients' VOR. [ABSTRACT FROM AUTHOR]

Published

2017

33. Effect of spaceflight on the spatial orientation of the vestibulo-ocular reflex during eccentric roll rotation: A case report.

Author

Reschke, Millard F., Wood, Scott J., and Clément, Gilles

Subjects

*VESTIBULO-ocular reflex, *REFLEXES, *NEUROLOGIC examination, *DISEASE management, *MEDICAL rehabilitation

Abstract

BACKGROUND: Ground-based studies have reported shifts of the vestibulo-ocular reflex (VOR) slow phase velocity (SPV) axis toward the resultant gravito-inertial force vector. The VOR was examined during eccentric roll rotation before, during and after an 8-day orbital mission. On orbit this vector is aligned with the head z-axis. Our hypothesis was that eccentric roll rotation on orbit would generate horizontal eye movements. METHODS: Two subjects were rotated in a semi-supine position with the head nasal-occipital axis parallel to the axis of rotation and 0.5 m off-center. The chair accelerated at 120 deg/s2 to 120 deg/s, rotated at constant velocity for one minute, and then decelerated to a stop in similar fashion. RESULTS: On Earth, the stimulation primarily generated torsional VOR. During spaceflight, in one subject torsional VOR became horizontal VOR, and then decayed very slowly. In the other subject, torsional VOR was reduced on orbit relative to pre- and post-flight, but the SPV axis did not rotate. CONCLUSION: We attribute the shift from torsional to horizontal VOR on orbit to a spatial orientation of velocity storage toward alignment with the gravito-inertial force vector, and the inter-individual difference to cognitive factors related to the subjective straight-ahead. [ABSTRACT FROM AUTHOR]

Published

2017

34. Early Reflex Development, Links between Movement and Vision, and Possible Repercussions for Optometric Care.

Author

Eastwood, Bernie

Subjects

*INFANT development, *MOTION, *PSYCHOLOGY of movement, *PROPRIOCEPTION, *REFLEXES, *VISION

Abstract

In our clinic, we are seeing more children who are less able to control their own bodies in space. They are unable to demonstrate age-appropriate ipsilateral and contralateral movement, upper and lower body control, or postural control. They will often demonstrate retained or poorly integrated primitive reflexes, and needless to say, eye-motor control is also poor. In education, these difficulties can manifest as an inability to sit still in the classroom, reading without fluency, and poor handwriting. Recently, when I asked a parent "what moving" their child was doing, I was advised of the number of times the family had changed address. This concerning response reflects society's changing concept of what type of movement experience is appropriate for children and raises questions regarding what impact today's culture and environment may have on the foundations of movement development in a young child. Many playgrounds have been stripped of certain styles of play equipment due to safety and litigation fears, backyards are shrinking, many families have both parents in full-time work, and there can be an excessive use of devices that unnecessarily restrict infants' natural movement. Rapid advances in technology provide benefits and advantages across many diverse areas of life, but these benefits may not extend to the development of good foundations of movement in childhood. Ironically, these advances in technology have also allowed us to gather evidence through in vivo neuroimaging that movement development and cognitive development are more closely related than previously thought. As optometrists, we are aware that eyes guide motor movement. Researchers across many disciplines agree that infants continue to learn by building on prior sensory-motor experience to plan, to perform, and to perfect their actions within their environment. This literature review reflects on what we currently know about the process of how movement begins in early childhood and what advice we may be able to provide to the families and the children in our care as a result. [ABSTRACT FROM AUTHOR]

Published

2017

35. Vestibular neuritis: Involvement and long-term recovery of individual semicircular canals.

Author

Büki, Bela, Hanschek, Manuela, and Jünger, Heinz

Subjects

*SEMICIRCULAR canals, *VESTIBULO-ocular reflex, *NEURITIS, *STROKE diagnosis, *MEDICAL literature, *MEDICAL research, *TREATMENT of ear diseases, *CONVALESCENCE, *EAR diseases, *EYE movements, *LONGITUDINAL method, *NYSTAGMUS, *REFLEXES, *VESTIBULAR function tests, *RETROSPECTIVE studies, *THERAPEUTICS, ACOUSTIC nerve diseases

Abstract

Objective: In this retrospective study, the aim of the authors was to examine the frequency of involvement of the individual semicircular canals (SCCs) in vestibular neuritis (VN) and to assess the degree of long-term recovery. A secondary aim was to retrospectively determine the usefulness of a three-step bedside oculomotor test (the HINTS-test) for the differential diagnosis of peripheral VN.Methods: 44 cases were evaluated during the acute phase and approximately two months later. The gain of the vestibuloocular reflex was determined using video-head-impulse test, carried out using Otometrics ICS Impulse Otosuite Vestibular V 1.2.Results: In 19 cases (43%), a typical, so called "superior" VN could be diagnosed; in 17 cases (38%), all three SCCs were involved; in 4 cases, an isolated inferior canal involvement was seen; and in another 4 cases, a slight, isolated horizontal canal involvement was registered. Slight, isolated horizontal canal vestibular neuritis causing acute vestibular syndrome has not yet been reported in the literature. A three-step bedside oculomotor examination, the HINTS-test (head-impulse test, examination of gaze evoked nystagmus, and test of skew-deviation), suggested peripheral involvement in all cases with superior pattern VN and in cases when all three SCC were involved. It indicated 'stroke' in cases with inferior pattern and in the cases with isolated involvement of the horizontal canal. At follow-up, the horizontal canal function normalized in 55%, the anterior canal in 38%, and the inferior in 38%. When all cases were pooled, 14 patients recovered completely. In cases with severe initial decrease of gain in the horizontal canal (initial value less than 0.5), the canals had a 50 per cent chance to recover significantly.Conclusion: In vestibular neuritis, in cases with severe decrease of gain in the horizontal canal (initial value less than 0.5), the canal has a 50 per cent chance to recover significantly. The vertical canals have worse prognosis, and especially the inferior canals seldom improve. Slight, isolated horizontal canal vestibular neuritis may cause acute vestibular syndrome, most probably by the same mechanism as full-blown vestibular neuritis. In these cases, the three-step bedside oculomotor test may indicate cerebellar stroke (may be false positive). [ABSTRACT FROM AUTHOR]

Published

2017

36. Decrease of Horizontal Canal Vestibulo-Oculomotor Reflex Gain in the Elderly with Dysequilibrium without Lifetime Vertigo.

Author

Teggi, Roberto, Trimarchi, Matteo, Gatti, Omar, Fornasari, Francesco, and Bussi, Mario

Subjects

*VESTIBULAR apparatus, *AGING, *DIZZINESS, *VESTIBULO-ocular reflex, *DISEASES in older people, *ACCIDENTAL fall prevention, *VERTIGO diagnosis, *GERIATRIC assessment, *ACCIDENTAL falls, *CEREBELLAR ataxia, *LONGITUDINAL method, *PEOPLE with intellectual disabilities, *REFLEXES, *RISK assessment, *SEMICIRCULAR canals, *VERTIGO, *VESTIBULAR function tests, *PREDICTIVE tests, *DISEASE incidence, *RETROSPECTIVE studies, *DIAGNOSIS

Abstract

Background/aims: Unsteadiness in the elderly is a frequent complaint and a strong predictor of falls and psychological distress. Although there is a general consensus that it is a multifactorial condition, recent studies have focused on the role of aging of the vestibular system as a possible cofactor. The aim of our work was to assess horizontal canal function in the elderly.Methods: We evaluated the gain of horizontal vestibulo-ocular reflex (VOR) with a video head impulse test on a sample of 58 subjects aged >70 years without lifetime episodes of vertigo and correlated the value with different clinical conditions (hypertension, diabetes, prior cardiovascular and vascular disorders of the central nervous system, and falls).Results: The mean value of the gain was 0.86 ± 0.12, and people aged between 70 and 80 years presented higher values (0.90 ± 0.1) compared to those >80 years (0.81 ± 0.13; p = 0.025). Previous vascular disorders of the central nervous system were a predictor of decreased VOR gain (p = 0.0003). A nonparametric analysis demonstrated that sex, age, and VOR gain (p ˂ 0.0001) were predictive of falls.Conclusions: Our data support the hypothesis of a decrease of VOR gain in the elderly. The decrease of canal function may therefore play a role in the risk of falls in the elderly. [ABSTRACT FROM AUTHOR]

Published

2017

37. Direct perturbation of neural integrator by bilateral galvanic vestibular stimulation.

Author

Hong, Kihwan, Shim, Hyeon-min, Goh, Minsoo, Jang, Seung-Yon, Lee, Sangmin, and Kim, Kyu-Sung

Subjects

*VESTIBULAR stimulation, *CENTRAL nervous system, *BIOMECHANICS, *PERIPHERAL nervous system, *INFORMATION processing, *VESTIBULAR nerve, *ELECTRIC stimulation, *NYSTAGMUS, *REFLEXES, *PHYSIOLOGY

Abstract

Caloric vestibular stimulation (CVS) and galvanic vestibular stimulation (GVS) act primarily on the peripheral vestibular system. Although the electrical current applied during GVS is thought to flow through peripheral vestibular organs, some current may spread into areas within the central nervous system, particularly when the bilateral galvanic vestibular stimulation (bGVS) method is used. According to Alexander's law, the magnitude of nystagmus increases with eccentric gaze movement, due to the function of the neural integrator (NI); thus, if the information for vestibular stimulation corresponds to Alexander's law, the peripheral vestibular organ is stimulated. Therefore, it would appear that if CVS results comply with Alexander's law, and bGVS results do not, the sites stimulated by bGVS are not perfectly located in the peripheral vestibular area. In our experiments on normal human subjects, the magnitude of nystagmus under CVS increased with rising gaze eccentricity in the direction that the magnitude of the nystagmus increases, and this change was found to follow Alexander's law. However, in the case of nystagmus under bGVS, results did not follow Alexander's law. In addition, study of the influences of bGVS at different current intensities on nystagmus magnitude showed that bGVS at 5 mA distorted nystagmus magnitude more than at 3 mA, which suggests bGVS acts not only on the peripheral vestibular nerves, but also on some areas of the central nervous system, particularly the NI. According to our experiments, bGVS directly affects neural integrator function. [ABSTRACT FROM AUTHOR]

Published

2017

38. Effect of betel nut chewing on the otolithic reflex system.

Author

Lin, Chuan-Yi and Young, Yi-Ho

Subjects

*BETEL nut, *REFLEXES, *MYOBLASTS, *VESTIBULAR nerve, *MASTICATION, *CHEWING gum

Abstract

Objective This study investigated the effect of betel nut chewing on the otolithic reflex system. Methods Seventeen healthy volunteers without any experience of chewing betel nut (fresh chewers) and 17 habitual chewers underwent vital sign measurements, ocular vestibular-evoked myogenic potential (oVEMP), and cervical VEMP (cVEMP) tests prior to the study. Each subject then chewed two pieces of betel nut for 2 min (dosing). The same paradigm was repeated immediately, 10 min, and 20 min after chewing. On a different day, 10 fresh chewers masticated chewing gum as control. Results Fresh chewers exhibited significantly decreased response rates of oVEMP (53%) and cVEMP (71%) after dosing compared with those from the predosing period. These abnormal VEMPs returned to normal 20 min after dosing. In contrast, 100% response rates of oVEMP and cVEMP were observed before and after masticating chewing gum. In habitual chewers, the response rates of oVEMP and cVEMP were 32% and 29%, respectively, 20 min after dosing. Conclusion Chewing betel nuts induced a transient loss of the otolithic reflexes in fresh chewers but may cause permanent loss in habitual chewers. Significance Chewing betel nuts can cause a loss of otholitic reflex function. This creates a risk for disturbed balance and malfunction, for instance, during driving. [ABSTRACT FROM AUTHOR]

Published

2017

39. Quantitative analysis of gains and catch-up saccades of video-head-impulse testing by age in normal subjects.

Author

Yang, C.J., Lee, J.Y., Kang, B.C., Lee, H.S., Yoo, M.H., and Park, H.J.

Subjects

*VESTIBULO-ocular reflex, *HEALTH outcome assessment, *REFLEXES, *QUANTITATIVE research, *MEDICAL care

Abstract

Objectives To evaluate video-head-impulse test ( vHIT) results in normal subjects, to determine the normative values of vHIT for the vestibulo-ocular reflex ( VOR) and to characterise the catch-up saccades ( CSs). Design Prospective cohort study. Setting Tertiary care academic referral centre. Participants Fifty healthy subjects with no history of vestibular impairment, ten each in their 20's, 30's, 40's, 50's and 60's, underwent vHITs in the lateral semicircular canal plane. Main outcome measures vHIT gains and the incidence and amplitudes of covert and overt CSs. Results The mean vHIT gain was 1.02 ± 0.07, and the mean gain asymmetry was 2.39 ± 1.96%, with no significant differences among age groups. CSs were observed during 22.6% of the trials and in 49% of the ears. The incidence of CSs was not associated with age. The mean velocity of CSs was 55.5 ± 16.9°/s, and its mean interaural difference was 11.8 ± 10.7°/s. Conclusions vHIT gains were consistently equal to 1.0 in all age groups (20's to 60's), suggesting that abnormal criteria for vHIT gain (e.g. 0.8) and gain asymmetry (e.g. 8%) can be used, regardless of age. CSs were observed in about half of normal ears, suggesting that VOR is a hypometric system. The amplitudes and interaural difference of CSs were also similar in all age groups, suggesting that abnormal criteria for CS amplitude (e.g. 100°/s) and interaural difference (e.g. 40°/s) can be used, regardless of age. [ABSTRACT FROM AUTHOR]

Published

2016

40. Mechanism of the hanger reflex. Comment on the article "Vestibulo-ocular reflex gain changes in the hanger reflex".

Author

Asahi, Takashi, Nakamura, Takuto, and Kajimoto, Hiroyuki

Subjects

*VESTIBULO-ocular reflex, *REFLEXES

Published

2022

41. Video head impulse findings in the ictal period of vestibular migraine.

Author

Na, Seunghee, Lee, Eek-Sung, Lee, Jong Dae, Sung, Ki-Bum, and Lee, Tae-Kyeong

Subjects

*VERTIGO, *VESTIBULO-ocular reflex, *REFLEXES, *HEADACHE, *MIGRAINE

Abstract

The article presents a case study of a 40-year-old man presented with positional vertigo without auditory symptoms. Topics discussed include his medical history of several episodes of vertigo lasting from 48 to 72 hours, diagnosis of decreased vestibulo–ocular reflex (VOR) gain from sinusoidal harmonic acceleration tests, pulsatile headache in the patient two days after vertigo onset, and video head impulse findings in the ictal period of vestibular migraine.

Published

2019

42. Vestibulo-ocular reflex gain changes in the hanger reflex.

Author

Takahashi, Koji and Johkura, Ken

Subjects

*VESTIBULO-ocular reflex, *REFLEXES

Abstract

• Placement of a hanger diagonally on the head rotates the head towards the hanger. • The mechanism underlying the hanger reflex (HR) is unknown. • We found an asymmetric reduction in the vestibular response during HR. • This inhibitory somatosensory-vestibular interaction may be a mechanism of HR. [ABSTRACT FROM AUTHOR]

Published

2022

43. Neurovestibular Compensation following Ototoxic Lesion and Labyrinthectomy.

Author

Yazdanshenas, Hamed, Ashouri, Anousheh, and Kaufman, Galen

Subjects

*VESTIBULO-ocular reflex, *REFLEXES

Abstract

Introduction: Unilateral labyrinthectomy and intra-tympanic gentamycin have been employed in the treatment of Ménière's disease, but the efficacy of these techniques has not been well established. Objective: The objective of this study is to measure the time course of recovery from a unilateral labyrinthectomy either after ipsilateral topical treatment with gentamicin to the inner ear or without the previous insult. Methods: Twenty-nine adult Mongolian gerbils were randomized into two experimental groups. Group 1 (n = 17) received a right ear gentamicin drug-induced lesion by unilateral labyrinthectomy (UL). Group 2 (n = 12) only received a right unilateral labyrinthectomy lesion. We measured the horizontal vestibulo-ocular responses in gerbils before and after the lesion. The gerbils received an angular acceleration stimulus and their eye movements were recorded. Results: The gentamicin lesion resulted in a quicker recovery. Experimental groups underwent a similar time course of recovery. Statistical analysis showed no significant difference between the two groups. Both groups displayed adaptation to the lesion by day 21, but long-termcompensation did not completely revert to the original pre-lesion state. Conclusions: In a lesion requiring both static and dynamic compensation as in UL, the need for a static compensation may alter pre-existing compensation from a previous dynamic insult and require a new compensation. A previous lesion and adaptation is not preserved for a second lesion and the subject has to re-compensate. Therefore, surgical treatment in Meniere's disease such as UL can be considered without prior gentamicin treatment. Static and dynamic compensations do not appear to be as independent as previous studies have suggested. [ABSTRACT FROM AUTHOR]

Published

2016

44. Translational otolith-ocular reflex during off-vertical axis rotation in humans.

Author

Clément, Gilles and Wood, Scott J.

Subjects

*NEUROSCIENCES, *OTOLITHS, *REFLEXES, *STIMULUS & response (Biology), *GRAVITY, *VIDEO recording, *ELECTRONIC modulation

Abstract

Two characteristics of otolith-ocular responses – linear vestibulo-ocular reflex and vergence – were examined during constant velocity off-vertical axis rotation (OVAR) in the dark. Sixteen subjects were rotated about their longitudinal axis when tilted 30° relative to the direction of gravity. Rotational velocities were 36 and 288/s corresponding to frequencies of 0.1 and 0.8 Hz, respectively. Subjects were asked to imagine stationary targets located at 0.5 m, 1 m, and 2 m in the straight-ahead direction. Binocular eye movements were recorded in the dark using infrared videography. The modulation of horizontal slow phase velocity during OVAR was larger at 0.8 Hz than at 0.1 Hz, and the modulation at the high frequency was larger for the near target than for the mid and far targets. These characteristics confirm that the horizontal slow phase velocity during yaw OVAR represents a translational otolith-ocular reflex in response to acceleration along the inter-aural axis that is dependent on imagined fixation distance. [ABSTRACT FROM AUTHOR]

Published

2016

45. Age dependent normal horizontal VOR gain of head impulse test as measured with video-oculography.

Author

Mossman, Benjamin, Mossman, Stuart, Purdie, Gordon, and Schneider, Erich

Subjects

*AGE distribution, *EYE movements, *HEAD, *RESEARCH methodology, *REFLEXES, *REGRESSION analysis, *SEMICIRCULAR canals, *VESTIBULAR apparatus

Abstract

Background: The head impulse test (HIT) is a recognised clinical sign of the high frequency vestibulo-ocular reflex (VOR), which can be quantified with video-oculography. This measures the VOR gain as the ratio of angular eye velocity to angular head velocity. Although normative data is available for VOR gain with video-oculography, most normal studies in general include small numbers of subjects and do not include analysis of variation of VOR gain with age. The purpose of our study was to establish normative data across 60 control subjects aged 20 to 80 years to represent a population distribution. Methods: Sixty control subjects without any current or previous form of brain disorder or vertigo participated in this study and form the basis for future comparison to patients with vestibular lesions. The relationship between the horizontal vestibulo-ocular reflex (HVOR) velocity gain and age was analysed using a mixed regression model with a random effect for subjects. Differences in testing technique were assessed to ensure reliability in results. Results: The mean HVOR velocity gain of 60 normal subjects was 0.97 (SD = 0.09) at 80 ms and 0.94 (SD = 0.10) at 60 ms. The 2 SD lower limit of normal HVOR velocity gain was 0.79 at 80 ms and 0.75 at 60 ms. No HVOR velocity gain fell below 0.76 and 0.65 at 80 ms and 60 ms respectively. The HVOR velocity gain declined by 0.012 and 0.017 per decade as age increased at 80 ms and 60 ms respectively. A non-physiologically high horizontal HVOR velocity gain was found to occur in tests where passive HITs were predictable in direction and time and where target distance was below 0.70 m. Conclusions: Normative data with respect to HVOR velocity gain decreases slightly with age, but with careful attention to methodology the 2 SD lower limit of normal is relatively robust across a wide age range and into the eighth decade, without requirement for adjustment with age. [ABSTRACT FROM AUTHOR]

Published

2015

46. Velocity-selective adaptation of the horizontal and cross-axis vestibulo-ocular reflex in the mouse.

Author

Hübner, Patrick, Khan, Serajul, and Migliaccio, Americo

Subjects

*BRAIN research, *LABORATORY mice, *VESTIBULO-ocular reflex, *REFLEXES, *EYE movements, *SENSORY stimulation, *VESTIBULAR stimulation, *VESTIBULAR apparatus

Abstract

One commonly observed phenomenon of vestibulo-ocular reflex (VOR) adaptation is a frequency-selective change in gain (eye velocity/head velocity) and phase (relative timing between the vestibular stimulus and response) based on the frequency content of the adaptation training stimulus. The neural mechanism behind this type of adaptation is not clear. Our aim was to determine whether there were other parameter-selective effects on VOR adaptation, specifically velocity-selective and acceleration-selective changes in the horizontal VOR gain and phase. We also wanted to determine whether parameter selectivity was also in place for cross-axis adaptation training (a visual-vestibular training stimulus that elicits a vestibular-evoked torsional eye movement during horizontal head rotations). We measured VOR gain and phase in 17 C57BL/6 mice during baseline (no adaptation training) and after gain-increase, gain-decrease and cross-axis adaptation training using a sinusoidal visual-vestibular (mismatch) stimulus with whole-body rotations (vestibular stimulus) with peak velocity 20 and 50°/s both with a fixed frequency of 0.5 Hz. Our results show pronounced velocity selectivity of VOR adaptation. The difference in horizontal VOR gain after gain-increase versus gain-decrease adaptation was maximal when the sinusoidal testing stimulus matched the adaptation training stimulus peak velocity. We also observed similar velocity selectivity after cross-axis adaptation training. Our data suggest that frequency selectivity could be a manifestation of both velocity and acceleration selectivity because when one of these is absent, e.g. acceleration selectivity in the mouse, frequency selectivity is also reduced. [ABSTRACT FROM AUTHOR]

Published

2014

47. Recruitment properties and significance of short latency reflexes in neck and eye muscles evoked by brief lateral head accelerations.

Author

Colebatch, James, Dennis, Danielle, Govender, Sendhil, Chen, Peggy, and Todd, Neil

Subjects

*REFLEXES, *NECK muscles, *EYE muscles, *VESTIBULAR apparatus, *VESTIBULO-ocular reflex, *ELECTROMYOGRAPHY, *EVOKED potentials (Electrophysiology)

Abstract

Short lateral head accelerations were applied to investigate the recruitment properties of the reflexes underlying the earliest ocular and cervical electromyographic reflex responses to these disturbances. Components of both reflexes are vestibular dependent and have been termed 'ocular vestibular evoked myogenic potentials' and 'cervical vestibular evoked myogenic potentials', respectively. Previous investigations using a unilateral vestibular stimulus have indicated that some but not all these vestibular-dependent reflexes show a simple power law relationship to stimulus intensity. In particular, crossed otolith-ocular reflexes showed evidence of an inflection separating two types of behaviour. The present stimulus acts bilaterally, and only the earliest crossed otolith-ocular reflex, previously shown to have a strictly unilateral origin, showed evidence of an inflection. Reflex changes in ocular torsion could, in principle, correct for the changes associated with translation for an elevated eye, but our findings indicated that the responses were consistent with previous reports of tilt-type reflexes. For the neck, both vestibular and segmental (muscle spindle) reflexes were evoked and followed power law relationships, without any clear separation in sensitivity. Our findings are consistent with previous evidence of 'tilt-like' reflexes evoked by lateral acceleration and suggest that the departure from a power law occurs as a consequence of a unilateral crossed pathway. For the neck, responses to transients are likely to always consist of both vestibular and non-vestibular (segmental) components. Most of the translation-evoked ocular and cervical reflexes appear to follow power law relationship to stimulus amplitude over a physiological range. [ABSTRACT FROM AUTHOR]

Published

2014

48. Does the human immunodeficiency virus influence the vestibulocollic reflex pathways? A comparative study.

Author

Heinze, B M, Vinck, B M, and Swanepoel, D W

Subjects

*VESTIBULAR apparatus physiology, *HIV infection complications, *ANTIRETROVIRAL agents, *ANALYSIS of variance, *IMPEDANCE audiometry, *CHI-squared test, *COMPARATIVE studies, *POSTURAL balance, *EVOKED potentials (Electrophysiology), *REFLEXES, *T-test (Statistics), *VESTIBULAR function tests, *DISEASE progression, *DATA analysis software, *DESCRIPTIVE statistics, *ODDS ratio

Abstract

Background:This study compared vestibulocollic reflex and vestibulo-ocular reflex functioning in subjects with and without human immunodeficiency virus. It also described test results throughout progression of the disease and compared the results of human immunodeficiency virus positive subjects who were receiving antiretroviral therapies with those not receiving this treatment.Methods:Subjects comprised 53 adults with human immunodeficiency virus (mean age 38.5 ± 4.4 years) and 38 without human immunodeficiency virus (mean age 36.9 ± 8.2 years). Clinical examinations included cervical vestibular-evoked myogenic potential and bithermal caloric testing.Results:Abnormal cervical vestibular-evoked myogenic potential and caloric results were significantly higher in the human immunodeficiency virus positive group (p = 0.001), with an odds ratio of 10.2. Vestibulocollic reflex and vestibulo-ocular reflex involvement increased with progression of the disease. There were more abnormal test results in subjects receiving antiretroviral therapies (66.7 per cent) than in those not receiving antiretroviral therapies (63.6 per cent), but this difference was insignificant.Conclusion:Human immunodeficiency virus seems to influence vestibulocollic reflex pathways. Combining cervical vestibular-evoked myogenic potential and caloric testing may be useful to detect early neurological involvement in human immunodeficiency virus positive subjects. [ABSTRACT FROM PUBLISHER]

Published

2014

49. Impaired vestibulo-ocular reflex (VOR) in spinocerebellar ataxia type 3 (SCA3): Bedside and search coil evaluation.

Author

Gordon, Carlos R., Zivotofsky, Ari Z., and Caspi, Avi

Subjects

*CEREBELLAR ataxia, *VESTIBULO-ocular reflex, *REFLEXES, *ATAXIA, *CEREBELLUM diseases, *SPINOCEREBELLAR ataxia, *EYE movements, *ETIOLOGY of diseases

Abstract

Vestibulo-Ocular Reflex (VOR) abnormalities in cerebellar ataxias are a matter of renewed interest. We have previously reported vestibular areflexia in a group of Yemenite-Jews with Spinocerebellar Ataxia Type 3 (SCA3) who had clear bilateral pathological horizontal Head Impulse Test (HIT). The objective of this study was to evaluate the VOR of ten SCA3 patients who have variable bedside HIT responses by recording their eye movements using magnetic search coils and to correlate these results with their clinical and genetic data. Eight out of the ten patients have abnormal horizontal HIT detected by both clinical bedside examination and laboratory tests. Results of bedside HIT testing were significantly correlated with the VOR gain recorded using magnetic search coils. No significant correlations were found between VOR gain and other clinical or genetic data. Our study confirms the presence of defective VOR in SCA3 patients and corroborates the useful of the HIT as a reliable bedside test for diagnosis of VOR deficits. [ABSTRACT FROM AUTHOR]

Published

2014

50. Amplitude and frequency prediction in the translational vestibulo-ocular reflex.

Author

Schneider, Rosalyn and Walker, Mark F.

Subjects

*VESTIBULO-ocular reflex, *REFLEXES, *EYE movements, *HUMAN information processing, *VISUAL evoked response, *VISUAL evoked potentials, *EVOKED potentials (Electrophysiology), *BRAIN function localization

Abstract

The goal of this study was to assess the effect of amplitude and frequency predictability on the performance of the translational vestibulo-ocular reflex (tVOR). Eye movements were recorded in 5 subjects during continuous vertical translation that consisted of a series of segments with: 1) 3 amplitudes at constant frequency (2 Hz) or 2) 3 different frequencies (1.6, 2, 2.5 Hz). Stimulus changes were presented in a pseudo-random order. We found that there was little change in the tVOR immediately after an unexpected stimulus change, as if eye velocity were being driven more by an expectation based on previous steady-state motion than by current head translation. For amplitude transitions, only about 30% of the eventual response change was seen in the first half cycle. Similarly, a sudden change in translation frequency did not appear in eye velocity for 70 ms, compared to a 8 ms lag during similar yaw rotation. Finally, after a sudden large decrease in frequency, the eyes continued to track at the original higher frequency, resulting initially in an anti-compensatory tVOR acceleration. Our results elucidate further the complexity of the tVOR and show that motion prediction based on prior experience plays an important role in its response. [ABSTRACT FROM AUTHOR]

Published

2014