Body sway and vibration perception thresholds in normal aging and in patients with polyneuropathy

Body sway and vibration perception in the lower limbs were measured in 32 normal subjects and 25 patients with peripheral neuropathies; nerve conduction studies were also performed in the patients with neuropathies. Body sway was measured by means of force-plate posturography, and three methods were used to assess vibration perception: a neurothesiometer, a semiquantitative tuning fork, and the bone vibrator of a conventional audiometer. Body sway and vibration perception were increased in the patients with peripheral neuropathies and there was significant correlation between these measures.d These findings, together with the lack of correlation between sway and muscle strength, indicate that the main source of unsteadiness in these patients is the loss of proprioceptive information. Vibration perception and body sway did not correlate with the electrophysiological variables, indicating that these measures assess different aspects of peripheral nerve function. In all subjects there was close correlation between vibration perception as assessed by the neurothesiometer and the audiometer could be used to screen proprioceptive function in patients with balance disorders. In normal subjects age correlated with vibration perception (measured with the neurothesiometer and audiometer) and also with body sway standing on foam. This suggests that the increased body sway in elderly people may partly be due to redue proprioception in the lower limbs.

Repetitive paroxysmal nystagmus and vertigo

A 55-year-old woman had paroxysms of vertigo and visual blurring associated with complex combined torsional, horizontal, and vertical nystagmus. These episodes occurred regularly at 2-minute intervals, each attack lasting for 15 seconds. Between attacks, there was a much finer asymptomatic nystagmus whose components were in the opposite direction to those associated with the paroxysmal attacks. A brain MRI revealed an arteriovenous malformation in close proximity to the left vestibular nucleus, with evidence of previous bleeding. Caloric testing demonstrated a left-sided vestibular paresis. We suggest that neurons in this patient's damaged left vestibular nucleus are usually underactive but regularly produce pathologic brief bursts of hyperactivity causing episodic reversal and gross exacerbation of her resting nystagmus. Treatment with low-dose carbamazepine was successful in abolishing both the paroxysms of nystagmus and the symptoms of vertigo and visual disturbance.

Subjective postural vertical in peripheral and central vestibular disorders

The perception of subjective postural vertical was assessed in normals and patients with peripheral and central vestibular disorders and spasmodic torticollis. The subjects were seated in a motorized gimbal with the head and torso restrained and their eyes closed. The gimbal executed 7-10 cycles of tilt around the vertical at 1.5 degrees/s in either pitch or roll. Subjects indicated when they began to feel upright and again when they began to feel tilted by an analogous 3-position joystick. Normal subjects felt upright within a sector of 5-6 degrees around vertical in pitch and roll. Five patients with absent vestibular function, 25 torticollis patients and 3 patients with acute unilateral peripheral vestibular lesions showed a significant increase of the sector in pitch and roll, but only the latter had a mild directional bias. Two patients with long standing complete unilateral vestibular deficit and 8 patients with up or downbeat nystagmus in the vicinity of upright had abnormally large sectors within which they felt to be upright. The results suggest that vestibular function is important for the accurate perception of the postural vertical and that a directional asymmetry in vestibulo-ocular function or a head tilt does not necessarily correlate with a directional bias of subjective verticality.

Bilateral loss of vestibular function

The clinical findings in 53 patients with bilateral vestibular failure (BVF) seen in a neurological hospital are reported. Bilateral acoustic neuromas were excluded. Seven patients (13%) had progressive cerebellar degeneration; these patients had no hearing complaints but showed gait ataxia, abnormal eye movements and cerebellar atrophy on neuro-imaging. Referral in these patients was primarily for eye movement assessment, and BVF was usually unsuspected. Neuropathies were present in 5 patients (9%), usually with normal central (brainstem-cerebellar) ocular motor function and variable patterns of hearing loss. The single largest group was idiopathic BVF (11 patients, 21%), patients presenting with vertiginous episodes, progressive unsteadiness or brief paroxysms of oscillopsia; auditory function, eye movements, neurological examination and imaging were usually normal. Nine patients (17%) suffered ototoxicity, mostly due to gentamicin; hearing was normal or mildly impaired. In 6 patients (11%) BVF was post-meningitic, with concomitant auditory loss. Autoimmune disease was found in 5 patients (9%); other organs were involved by the disease, and hearing was impaired but eye movements were spared. Miscellaneous neurological, otological or neoplastic diseases accounted for the remaining 10 patients. This study suggests that i) in patients with cerebellar degenerations, BVF may be underdiagnosed as the unsteadiness may be attributed only to the cerebellar disorder, ii) some patients with idiopathic BVF present with only minor visual or vestibular symptoms, and iii) detailed immunological screenings should be undertaken more often, in view of the significant proportion of patients with autoimmune and idiopathic BVF.

Recovery from bilateral vestibular failure: implications for visual and cervico-ocular function

We report a patient who sustained severe bilateral labyrinthine lesions during Streptococcus suis meningitis but considerably recovered vestibular function over a 7 month period. This unique case allowed us to examine the cervico-ocular reflex (COR) and visual function at various levels of activity of his vestibular system. The slow phase COR, elicited by trunk oscillation (0.2 Hz) with the head earth-stationary, was negligible immediately after the acute vestibular loss but rose to a gain of 0.51 one month after. Seven months later, when vestibular function was improved, COR gain dropped to a gain of 0.15. Measurements of spatial visual function during whole body oscillation in the acute stage and after 6 months showed marked improvement which correlated entirely with VOR measurements in the dark and during optic fixation. This patient also showed the unique feature that, in the acute stage, eye movement gain and visual function were poorer during whole body motion than during identical visual target motion. These findings suggest that: i) the COR may be inhibited by the presence of vestibular signals, ii) spatial vision measurements provide accurate assessment of the patient's visual blur during head motion, and iii) the severe oscillopsia experienced by patients in the acute stage of vestibular loss may not only be due to the absence of the VOR; additional degradation in eye movements during head motion, perhaps arising from acutely distorted labyrinthine signals, may also play a part.

EMG-responses to sudden onset free fall

Recordings of axial and limb muscles in reaction to a free fall induced startle were performed in subjects while they were lying on a tilting couch with their eyes closed. Young normals (n = 24, aged 31.1 +/- 6.6 years) showed an activation sequence consisting of sternomastoid (N.XI: 57 ms), abdominal muscles (T10: 65 ms), quadriceps (L3: 75 ms) and deltoid (C5: 78 ms) and tibialis anterior (L4: 80 ms). The sequence of activation is not compatible with the current hypothesis of the startle being produced by a single volley spreading rostrally and caudally from the lower brainstem. Instead it is suggested that the startle is a patterned response organized by a putative reticular generator capable of spatio-temporal sequencing. Two avestibular patients had responses at mildly delayed latencies, showing that these can be elicited by non-vestibular inputs. Similar testing of 11 subjects aged 70-80 years showed a latency delay of ca. 26% in the EMG response but a similar activation sequence. The amount of delay in the elderly can only partially be attributed to age-dependent motor conduction slowing and suggests a prolongation of central processing time. In patients with advanced stages of akinetic-rigid syndromes abnormalities were seen in cases with an involvement of the brainstem reticular formation.

The visual vertigo syndrome

Neuro-otological and posturography findings in 15 patients with visually induced vertiginous symptoms (visual vertigo, VV) are reported. Most patients were considered to have peripheral vestibular disorders but one had cerebellar degeneration and another a brainstem stroke. Five patients showed abnormally large body sway induced by full-field visual motion stimulation; including the 2 patients with CNS disease. Four of these 5 patients had additional strabismic symptoms (diplopia, squint surgery and ocular muscle weakness). VV may occur if patients with balance disorders show high visual field dependence. The presence of additional CNS or strabismic symptoms, probably by reducing the ability to resolve conflicting visual stimuli, may lead to inappropriate postural reactions.

Perceptual studies in patients with vestibular neurectomy

Twelve patients undergoing unilateral vestibular neurectomy for the treatment of refractory vertigo were investigated. Vestibular motion perception was assessed using a self-rotational task and "vestibular remembered saccades". Cervical perception was also measured with remembered saccades. The tests were performed pre- and post-operatively to examine changes in vestibular and cervical perception following an acute vestibular lesion, and to monitor the progress of vestibular compensation. These perception tests were carried out in conjunction with a conventional evaluation of the vestibular ocular reflex (VOR), using electro-oculography. The patients' subjective symptoms at each stage of testing were also quantified with questionnaires. Generally, in the vestibular tests, for stimulation to the operated side, responses became strongly hypometric directly after the neurectomy, with a partial recovery during convalescence. In the cervical test, responses were bilaterally reduced immediately after operation. Results from both of the vestibular perception tests were significantly correlated with the VOR assessment of vestibular function. Scores for the patients' subjective symptoms of "vertigo" were only significantly correlated with the vestibular perception tests, and not with the conventional measures of vestibular function. Perceptual measurements afford useful complementary information in the assessment of vestibular patients.

Vertical and torsional VOR in posterior canal occlusion

The vertical and torsional vestibulo-ocular reflexes (VOR) were investigated in 3 patients with surgical occlusion of the posterior semicircular canal and 1 patient with singular neurectomy, for treatment of refractory paroxysmal positional vertigo. Stimuli comprised sinusoidal oscillation in the coronal ("roll") and sagittal ("pitch") plane as well as in two oblique planes intermediate between pitch in order to stimulate left anterior + right posterior (LARP) and right anterior + left posterior (RALP) canal pairs separately. One case with left side BPPV was investigated pre and post-operatively. Depression of the vertical and torsional VOR gain was seen 1 week postoperatively when the occluded canal was placed in the optimal plane for stimulation at 1 week postoperatively and subsequently gradually recovered. Recordings in other planes suggested that the contralateral posterior canal was also hypofunctioning, a finding which may explain some residual gait unsteadiness in this case. The other 3 cases who were investigated postoperatively all showed a decrease in downward VOR gain in the "on' direction of the operated canal. The data indicate the specificity of the test procedure and underline the prognostic value of comprehensive pre-operative vestibular assessment.

Acquired pendular nystagmus: oculomotor and MRI findings

The clinical, oculomotor and ophthalmological features of 27 patients with pendular nystagmus were studied in whom 22 also had MR imaging of the brainstem. The nystagmus was predominately horizontal in 4 patients, torsional in 5, vertical in 3 and mixed in trajectory in 8. Fifteen patients had conjugate nystagmus. Twelve patients had disconjugate nystagmus. Eight patients had INO. In 16 patients visual acuity was 6/12 or worse. Acuity and the presence of INO were unrelated to the conjugacy of the nystagmus. The MRI cuts at the medullary, pontine and midbrain levels were analysed statistically to determine the areas where there was significant (< 0.05%) overlap between areas of abnormal signal in different patients. Significant target areas for lesions causing the nystagmus were: in the pons the medial vestibular nucleus, central tegmental and paramedian tracts; in the medulla the inferior olivary nucleus, reticular formation, dorsal accessory olivary nucleus, central tegmental tracts and olivo-cerebellar fibres; in the midbrain the red nucleus and central tegmental tracts. Horizontal pendular nystagmus was preferentially associated with pontine lesions and torsional nystagmus with medullary lesions. Patients with conjugate nystagmus had a tendency to have bilateral mirror image MRI lesions (p = 0.028). The prevalence of lesions in our patients raises a possibility that more than one neuronal mechanism must be affected to produce pendular nystagmus. The inferior olive may be responsible for the rhythm of ocular oscillation. The disruption of pathways proximal to the oculomotor nuclei may determine the instability in terms of individual eye movement.

Vision during motion in patients with absent vestibular function

We have measured a spatial visual response and visual velocity discrimination in 4 patients with long standing vestibular loss and 6 controls. The spatial response was measured during; i) body and visual display stationary conditions, ii) whole-body oscillation (1 Hz +/- 50 degrees/s) and iii) visual stimulus oscillation (1 Hz +/- 50 degrees/s). Velocity discrimination was assessed during conditions i) and ii). The visual tests applied were selected on the basis that the spatial response is known to reflect peripheral processes of the retina, whereas velocity processing is more central in origin. Patients had normal spatial responses under static conditions and they suffered a degradation in their spatial responses during whole-body oscillation, whereas, normals' responses remained unaltered. During oscillation of the visual display both patients and normals suffered a degradation in their spatial responses, and for patients the change was very similar to that observed during whole-body oscillation. The changes in the spatial responses were dependent on the gain of the eye movements which compensated for the whole-body or visual display oscillation. In 3 patients and all controls whole-body oscillation did not alter the discrimination of velocity of a vertically moving horizontally orientated grating compared with when the subjects were stationary. One patient suffered a severe reduction in the ability to discriminate velocity under whole-body oscillation, which suggests that central suppression of motion perception reduces oscillopsia.

The perception of head rotation in Parkinson's disease

The accuracy in detecting angular displacements of the head and the neck was investigated in 14 patients with idiopathic Parkinson's disease (PD) and 16 age matched normal controls by the technique of vestibular and cervical "remembered" saccades. It was found that although the remembered saccades in PD patients were multiple-step and showed low initial saccadic gain, the final eye position of the eyes matched the rotational stimulus as accurately as in normals. This indicates that perception of head/neck rotation is normal in PD which is inconsistent with views that vestibulo/proprioceptive dysfunction contributes to the postural disorder in PD. The presence of multiple-step remembered vestibular and cervical saccades agrees with reported abnormalities in visual remembered saccades in PD and indicates that the difficulty in generating saccadic movements based on memorized sensory information is not confined to visual-memory.

Clinical and electrophysiological findings in the Tullio phenomenon

A 55 year old female with idiopathic Tullio phenomenon is presented. Binocular, scleral search eye coil recordings demonstrated a predominantly torsional left-beating and vertical down-beating nystagmus in response to sound intensities over 100 dB HL to the left ear, increasing in amplitude and slow phase velocity with sound intensity and removal of visual fixation. The vertical ocular movement was conjugate, i.e. without skew deviation. Neuro-imaging, all other neuro-otological features, including ipsilateral-contralateral stapedius muscle reflexes, and surgical exploration of the middle ear, were normal. Click-evoked vestibulo-collic potentials were normal from the right ear but showed low threshold (70 dB) and increased amplitude from the left. There was no evidence that the Tullio phenomenon in this patient arises from stapes footplate hypermobility. The findings suggest that some cases of the Tullio phenomenon may be due to a hyperexcitability of the normal vestibular response to sound.

Influence of target distance and acceleration level on eye movements evoked by lateral acceleration steps

Lateral eye movements produced by linear acceleration along the inter-aural axis were studied in 6 normal subjects. They were seated upright, whole-body restrained, and were exposed to randomised rightward/leftward steps of 0.05 g. 0.1 g, 0.24 g of 600 ms duration. When viewing earth-fixed targets at 30, 60 or 280 cm from their eyes, mainly pure compensatory slow-phase eye movements were evoked at latencies around 50 ms measured for the closest viewing distances. At onset, slow-phase amplitude was modulated by acceleration and target distance. When the subjects were stationary and pursued moving targets at similar distances and accelerations, latencies around 140 ms were observed, and catch-up saccades were frequently made. From these experiments, we defined the dynamics of the otolith-ocular reflex for various levels of acceleration and viewing distances.

Responses in neck and facial muscles to sudden free fall and a startling auditory stimulus

EMG responses elicited by sudden onset of free fall and a startling auditory stimulus were investigated in healthy subjects while lying on a couch with their eyes closed. Muscle responses were recorded from masseter (V cranial nerve), orbicularis oculi and mentalis (VII nerve) and sternomastoid and trapezoid (XI nerve). A similar sequence of muscle activation and absolute latencies occurred in response to both stimulus modalities, consisting of a blink (30 msec) followed simultaneously by mentalis, sternomastoid and trapezoid (55 msec). Masseter could either be simultaneously activated with the latter muscles or follow after a delay of 10-20 msec. A patient with bilateral cochleo-vestibular nerve section had responses at comparable latencies in the free fall experiment. The similarities between the reaction to free fall and a startling auditory stimulus indicate that the early response to free fall constitutes a startle and that various stimuli converge onto a common response generator. The latency pattern of neck and facial muscles does not follow a sequence of innervation with increasing segmental distance from a single centre. Therefore, our data do not support the concept that the startle response is produced by a caudally and rostrally spreading volley from a putative pontomedullary centre. It is suggested that the startle response is a polysynaptically generated patterned muscle activation.

Vestibular, cervical and visual remembered saccades in Parkinson's disease

In order to assess both vestibulo-cervical perception of head rotation and saccadic function in Parkinson's disease, 14 patients with idiopathic Parkinson's disease were subjected to discrete sigmoid-shaped rotational displacements whilst fixating a target aligned with primary gaze in an otherwise dark room. The rotational stimuli were applied to (i) the whole body (vestibular stimulus); (ii) the trunk whilst the head remained stationary in space (cervical stimulus); (iii) to the head alone whilst the trunk remained stationary (combined vestibular and cervical stimulus). The fixation target was then extinguished and the subjects had to estimate the angle travelled by the head or trunk with an ocular-pointing task using information from the preceding rotational stimulus (vestibular and cervical 'remembered' saccades). It was found that, although these saccades in Parkinson's disease patients were multiple-step and hypometric, the final position of the eyes matched the rotational stimulus as accurately as in normal subjects. A complementary experiment in six patients showed that visual remembered saccads were hypometric, but significantly less so than vestibular remembered saccades. It is concluded that (i) vestibular and cervical perception of head/neck rotation is normal in Parkinson's disease; (ii) abnormalities of 'remembered' saccades, previously reported in Parkinson's disease, are not confined to the visual modality but involve other sensory modalities as well; (iii) across different modalities of memory-guided saccades, visual input improves saccadic performance. This result demonstrates that the known increased visual dependence found in Parkinson's disease extends to memory-driven tasks.

Visually and memory guided saccades in a case of cerebellar saccadic dysmetria

Saccades under four specific test conditions (visually guided, visually remembered, vestibular remembered, and cervical remembered) were studied in a 38 year old man with ocular dysmetria due to an angioma of the dorsal cerebellar vermis. The aim of the study was to investigate if the saccadic disorder was specific to certain subsets of saccades elicited by different sensory modalities. The experiments showed that initial saccades were equally hypermetric in all four conditions and that final eye position was normal in all memory guided saccade tests. Eye movements differed after the initial saccade, however. Whereas corrective saccades were seen in most visually guided and visually remembered experiments, postsaccadic centripetal drifts were documented in non-visual (vestibular and cervical) remembered saccades. These results indicate that the cerebellar vermis modulates the amplitude of the initial saccade (pulse size of saccadic innervation) independently of the saccadic task. The finding that post-saccadic drift never occurred when saccades were programmed using visual positional information suggests that the dorsal vermis may participate in the process of pulse step integration of saccades elicited by memorised vestibulo-cervical information.

Neuro-otology

New techniques for the assessment of vestibulospinal, neck-afferent, and viscerograviceptive function may show future clinical applications for a broader assessment of balance function in neuro-otological patients. Magnetic resonance imaging studies revealed that many intralabyrinthine disorders (labyrinthitis, hemorrhage, schwannomas) can be adequately visualized. Perceptual and oculomotor clinical studies improved our understanding of vestibular disordered function in the roll (coronal) plane. Therapeutic studies highlight the importance of a team approach, with individually tailored programs for the rehabilitation of patients with vestibular disorders. Reasonable agreement on the criteria for attempting hearing preservation during acoustic neuroma surgery seems to have been reached.

Perception of neck rotation assessed by 'remembered saccades'

A new technique for the assessment of cervical afferent function is described. It is based on the perception of trunk rotation around the earth-fixed head and assessed by the accuracy of eye saccades in the direction of trunk displacement. It was found that normal subjects were able to locate trunk position accurately (mean error 15%), independently of trunk displacement amplitude (10-40 degrees) or velocity (5-40 degrees s-1). It is concluded that normal man has accurate perception of trunk rotation and that neck-spinal afferents carry a tonic signal with efficient access to the ocular motor system. A patient with absent vestibular function showed identical results to those of normal subjects; this suggests that the enhancement of the cervico-ocular reflex observed in such patients is not mediated by an increase in neck-spinal afferent sensitivity.

Pendular pseudonystagmus arising as a combination of head tremor and vestibular failure

We describe three patients with spontaneous pendular oscillation of the eye during funduscopy. All patients had blurred, shimmering vision or oscillopsia, exacerbated by concentration, reading, or trivial head movements, and had a history of unsteadiness. Examination revealed a fine head tremor, mild unsteadiness, absent vestibulo-ocular reflex (VOR), and otherwise normal neurologic and ocular motor findings. Rigid immobilization of the head abolished the retinal oscillations. Simultaneous precision recordings of head and eye movements showed that the eye movement was in the compensatory direction to the head tremor but that, in contrast to normal VOR, it was in phase error. We conclude that the essential head tremor was provoking oscillopsia and retinal oscillation because of the absence of VOR. Recognizing the association of head tremor with absent VOR is important since in all these patients the presence of this pendular pseudonystagmus on ophthalmoscopy raised the diagnostic possibility of brainstem disease.

Torsional nystagmus. A neuro-otological and MRI study of thirty-five cases

Thirty-five patients with torsional nystagmus (TN) underwent vestibular and ocular motor assessment and magnetic resonance image (MRI) scanning of the head. Patients were divided into two groups according to whether TN was predominant and present in primary gaze (Group I, 23 patients) or elicited by head positioning or gaze deviation and less prominent than other concurrent nystagmus (Group II, 12 patients). The main aetiologies in both groups were demyelination, vascular disease and posterior fossa tumours. In Group I, a frequent pattern of findings, occurring in 30-50% of cases, was a caloric canal paresis contralateral to the direction of the fast phases ('beat') of the TN, whereas the duration of horizontal caloric/rotational nystagmus and the slow-phase eye velocity of pursuit and of optokinetic nystagmus were all reduced in the direction of beating. The TN was more frequently and consistently modulated by vertical canal stimuli (head oscillation in roll) than by otolith stimuli (static tilt). Statistical analysis of the MRI showed significant overlap of abnormal MRI signals in the area of the vestibular nuclei, on the side opposite to the beat direction of TN. These results suggest that TN originates in a central imbalance of vertical semicircular canal function, resulting from lesions involving the vestibular nuclei on the opposite side of the TN. Group II was heterogeneous with no consistent pattern of neuro-otological findings, although lesions ipsilateral to the TN were frequent occurrence; in these cases cerebellar system lesions may have produced ipsilateral vestibular nuclei disinhibition.

Visually controlled spatial stabilisation of the human head: compensation for the eye's limited ability to roll

During movements of the head in pitch (yes-yes) or in yaw (no-no) the visual scene appears stable whereas rolling the head (ear down to shoulder) induces an apparent swinging of the world in the opposite direction. This visual instability is due to the inadequacy, in the roll plane, of the reflex eye movements which are effective in stabilising the eyes in space during pitch and yaw. We investigated whether head is stabilised in roll to protect against visual instability. Human subjects were fixed in a gimbal with their heads free and were exposed to unpredictable oscillatory movement in pitch and, for comparison roll, about axes aligned with the head. With vision, during roll motion, the head was displaced from upright by approximately half the amplitude of the gimbal motion. In comparison, with eyes closed relying on vestibular and proprioceptive cues and during pitch stimuli with or without vision, the magnitude of head displacement from upright was approximately equal to that to the gimbal. The superior head stability in roll, dependent on a visual frame of reference, compensates for poverty of eye movement in this plane.

The site of brainstem lesions causing semicircular canal paresis: an MRI study

Ten patients with canal paresis of central origin and ten patients with peripheral canal paresis were studied using MRI of the brainstem to identify lesions within the central vestibular pathways. In the central group, the magnitude of the canal paresis was generally lower than in the peripheral group and removal of fixation had little effect on the nystagmic response. In the peripheral group, removal of fixation enhanced the nystagmus and lessened the discrepancy between the two ears. Statistical processing of the MRI showed that in the central group significant spatially coincident lesions occurred within the medial vestibular nucleus, lateral vestibular nucleus and proximal portion of the vestibular fascicle.

Neurology of otolith function. Peripheral and central disorders

The otolith organs detect gravitoinertial forces acting on the head providing signals to the brain which are essential for spatial orientation, sensing motion and organizing motor behaviour. Although the pathophysiology of otolithic dysfunction is poorly understood, a disorder of otolith function, at a peripheral or central level, may be suspected when a patient describes symptoms of false sensations of linear motion or tilt or shows signs of specific derangements of ocular motor and postural, orienting and balancing responses. When disorientation is severe the patient may describe symptoms which sound bizarre, raising doubts over the organic basis of the disease. Our recognition of an otolithic disorder and understanding otolithic involvement in a wider neurological context may be guided by knowledge of otolith physiology and of the characteristics of the few proven otolithic syndromes.

Testing otolith function

Otolithic signals contribute to; (1) perception of orientation and linear motion, (2) generate compensatory eye movements in response to linear acceleration of the head and (3) participate in the co-ordination of movement and balance. Tests of these functions shown to be useful in identifying clinical disorders have been reviewed: (1) Evaluation of orientation to gravity, as estimated by adjustment of the visual vertical, indicates deranged otolith function at a peripheral or central level and the sensitivity of this test can be enhanced by performing estimates during centrifugation on a motorised turntable. Estimation of thresholds of self motion on a parallel swing identifies global reduction or unilateral loss of peripheral function, with central disorders awaiting study. (2) Otolith ocular reflexes to linear head translation can be used to demonstrate overall integrity of peripheral function and reveal central abnormalities. Counter-rolling responses to head roll-tilt and measurements of cyclodeviation of the eyes demonstrate functional asymmetries, with some lateralising value, particularly in central lesions. Global function and asymmetries may also be evaluated by 'head eccentric' rotational testing, which adds a tangential linear acceleration to the angular stimulus. The linear acceleration enhances the canal response by adding an otolith component. (3) Latency and amplitude of surface electro-myography (EMG) responses in the limbs to sudden falls, which can be recorded with the subject suspended on a hinged bed, indicate gross peripheral abnormality of function and can lateralize disorders of CNS motor pathways. It is concluded that some tests of otolith function can be of use in indicating global loss of peripheral otolith function, others are capable of lateralizing a marked loss of function and all have the potential to give information about central disorders. They all have to be interpreted within the clinical context and, unfortunately, none have yet been shown to be sensitive to partial, particularly unilateral, dysfunction.

Compensatory eye movements in the presence of conflicting canal and otolith signals

Orbital motion of the head with the face directed towards the axis of rotation is a stimulus to the otolith organs which is in the opposite rightwards-left-wards sense to the rotational stimulus to the semicircular canals. This can be experienced, for example, by a child held at arms length "en face' and swung from side to side. As one swings, say to the right, the child's head rotates to its right yet moves linearly to its left. Eye movement responses to a transient orbital movement were observed whilst subjects fixated earth-fixed targets. i) a "near target" placed between the head and the axis whose relative displacement is in the same direction as head rotation, and ii) a "far target" placed beyond the axis whose relative motion is in the opposite direction to head rotation. The motion stimuli evoked slow phase eye movements at 45 ms latency, always in the opposite direction to head rotation, thus compensating for the motion of the far target but in the wrong direction for fixating the near target. Theoretically, fixating the near target demands a predominance of the otolith ocular-reflex, which would give an eye movement in the correct direction. However, despite visual cues, it seems that if the canal and otolith-ocular reflexes are evoked in opposing directions, the otolith reflex fails to operate at a sensitivity sufficiently high to reverse the direction of the canal-reflex.

Congenital-type nystagmus emerging in later life

We describe six patients who, as teenagers or adults, developed florid nystagmus with consequent visual symptoms without any other manifestation of disease. In three patients, previous ophthalmologic examination had excluded nystagmus, and there was medically informed witness to its onset. The remainder may or may not have had a milder, unsuspected nystagmus before the development of symptoms. Ophthalmologic and neurologic investigations were negative, and follow-up of 2 to 15 years has been uneventful. Eye movement recordings showed the characteristics of the nystagmus to be indistinguishable from congenital nystagmus, which normally becomes manifest in early infancy. We conclude that a congenital-type nystagmus can emerge or enhance in later life without apparent provocation and is probably associated with a benign pathophysiology.

The neck-eye reflex in patients with reduced vestibular and optokinetic function

It is accepted that the neck-eye loop (cervico-ocular reflex, COR) is enhanced following loss of vestibular function and that this helps to restore gaze stability during head movements. In this paper we address the question of which structures and/or mechanisms may participate in such plastic enhancement by investigating the COR in 2 patients with absent vestibular function and reduced smooth pursuit-optokinetic eye movements (SP-OKN). The patients had multisystem atrophy involving the vestibular system and the cerebellum. The COR (elicited by angular motion of the trunk relative to the fixed head and angular motion of the head relative to the fixed trunk) was not enhanced in these 2 patients when compared with normal subjects, in contrast to previous findings in a group of patients with absent vestibular function alone. Measurements of slow phase eye movement velocity during SP-OKN stimuli and during combined COR-OKN stimulation (head oscillation relative to the stationary trunk in the light) showed identical values in these two conditions, which indicates that the neck-eye loop did not contribute to gaze stability during head movements. The absence of plastic enhancement of the COR in these patients may be secondary to interruption of SP-OKN pathways at various possible sites and/or to involvement of the vestibulocerebellum, which is known to mediate adaptive plasticity in the vestibulo-ocular reflex.

Cervico-ocular function in patients with spasmodic torticollis

The cervico-ocular (COR) and active and passive vestibulo-ocular reflexes (VOR) were measured in seven patients with spasmodic torticollis (ST) and six normal controls. The COR was found to be weak or absent in both groups. The VOR gain was similar in the two groups but five patients had a significant asymmetry of the response. There was no evidence of abnormal cervico-vestibular interaction during active head rotation. The study suggests that the VOR asymmetry frequently found in ST cannot be explained on the basis of an abnormal cervical input.

Visual control of balance in cerebellar and parkinsonian syndromes

The role of vision in the control of balance in patients with Parkinson's disease (PD) and cerebellar disease (CD) was studied by measuring body sway with eyes open, closed, and in response to visual stimuli generated by discrete lateral displacements of a moveable room which enclosed the subjects. In response to room movement, normal subjects swayed by an amount intermediate between sway with eyes open and eyes closed and their response attenuated on repetition of the movement, a process depending on shifting from predominantly visual to proprioceptive control. CD patients swayed more than controls with eyes open or closed and as shown by high 'Romberg quotients' (eyes closed/eyes open sway ratio) were able to use visual information to control much of their unsteadiness. CD patients had a normal attenuation of response to repetition of the room movement. PD patients had normal sway with eyes open or closed but their responses to room movement were abnormal, being proportionately larger and failing to attenuate during successive stimuli. The results indicate that cerebellar lesions seem largely to spare the visuopostural loop and also spare the ability to shift from a visual to a proprioceptive control of postural sway. In contrast, the findings in PD suggest that the visuopostural loop is hyperactive and that its influence cannot easily be de-emphasized when visual information is misleading. The latter finding suggests that basal ganglia participation in posture is concerned with the reweighting of the various sensorimotor loops controlling posture in the process of adapting to novel situations.

Saccadic function in spasmodic torticollis

Twelve patients with idiopathic spasmodic torticollis were compared with 19 normal controls on tests of saccadic eye movements thought to depend upon normal basal ganglia function. The patients were able to make random, predictive, remembered, and self-paced saccades equally as well as control subjects. This suggests that those parts of the basal ganglia which may be damaged in spasmodic torticollis, are separate from pathways responsible for the normal initiation and execution of saccades.

The neurological complications of Anderson-Fabry disease (alpha-galactosidase A deficiency)--investigation of symptomatic and presymptomatic patients

Anderson-Fabry disease is an X-linked inborn error of metabolism characterized by subnormal activity of the lysosomal hydrolase, alpha-galactosidase A. We have assessed the incidence and nature of neuropathy in 12 patients (seven affected men and five carrier females). Abnormalities of cutaneous thermal sensation were common, even in asymptomatic carriers, with a unique predilection for cold sensitivity which suggests involvement of small myelinated nerve fibres. Intracranial abnormalities were frequently detected by magnetic resonance imaging (MRI) in males, both with and without overt cerebrovascular disease, and were more extensive in older patients. Such abnormalities were not detected in carriers. Auditory and vestibular abnormalities were present in six patients, only one of whom was symptomatic. Cranial MRI and assessment of cutaneous thermal thresholds are sensitive techniques which can identify neurological involvement in asymptomatic patients. They may be of benefit in monitoring the effectiveness of enzyme replacement therapy and excluding the carrier state for the defective gene.

Abnormalities of horizontal gaze. Clinical, oculographic and magnetic resonance imaging findings. I. Abducens palsy

Fifty one patients with abnormalities of horizontal gaze were studied with magnetic imaging of the brain (MRI) and eye movement recordings to identify the loci of lesions responsible for isolated abducens palsy, conjugate gaze palsy and different types of internuclear ophthalmoplegias. The lesions responsible for a particular disorder were identified by overlapping enlarged drawings of the individual scans at comparable brain-stem levels and identifying the areas where the abnormal MRI signals intersected. A statistical procedure was devised to exclude the possibility that the areas of overlap occurred by chance. In this paper, the findings in the group of patients with VI nerve palsy are reported since the location of their lesions could be predicted from known anatomy, so validating the procedure. The results were independently obtained with the overlapping technique and the statistical procedure and showed that the lesions were located in a region corresponding to the posterior part of the abducens fasciculus. This confirms that central lesions producing isolated lateral rectus weakness spare the abducens nuclei. The agreement between the procedures used and earlier clinical and experimental results suggest that the method we describe can be applied to locate the site of lesions on MRI scans in other groups of patients with more complex gaze disorders.

Convergence nystagmus associated with Arnold-Chiari malformation

A case of convergence nystagmus associated with an Arnold-Chiari type I malformation is presented. The nystagmus appeared in the absence of fixation, was provoked during Valsalva's maneuver and neck flexion and extension, and attenuated on deep inspiration. Sagittal magnetic resonance images showed that the diameter of the cerebral aqueduct increased with the neck in full flexion and in full extension. Surgical foramen magnum decompression considerably reduced the nystagmus and abolished the postural variation of aqueduct diameter. It is postulated that this nystagmus was due to a combination of mechanical distortion and abnormal transmission of cerebrospinal fluid pressure to the aqueductal region.

Abnormalities of horizontal gaze. Clinical, oculographic and magnetic resonance imaging findings. II. Gaze palsy and internuclear ophthalmoplegia

The site of lesions responsible for horizontal gaze palsy and various types of internuclear ophthalmoplegia (INO) was established by identifying the common areas where the abnormal MRI signals from patients with a given ocular-motor disorder overlapped. Patients with unilateral gaze palsy had lesions in the paramedian area of the pons, including the abducens nucleus, the lateral part of the nucleus reticularis pontis caudalis and the nucleus reticularis pontis oralis. Patients with abducens nucleus lesions showed additional clinical signs of lateral rectus weakness. Lesions responsible for bilateral gaze palsy involved the pontine tegmental raphe. Since this region contains the saccadic omnipause neurons, this finding suggests that damage to omnipause cells produces slowing of saccades rather than opsoclonus, as previously proposed. All INOs, regardless of the presence of impaired abduction or convergence, had similar MRI appearances. Frequently the lesions in patients with INO, were not confined to the medial longitudinal fasciculus (MLF) but also involved neighbouring structures at the pontine and mid-brain levels. There was a statistically significant association between the clinical severity of the INO and the presence of abnormal abduction or convergence. The findings suggest that the lesions outside the MLF, which may affect abducens, gaze or convergence pathways, are responsible for the presence of features additional to INO, depending on the magnitude of functional disruption they produce.

Ataxia telangiectasia: a reappraisal of the ocular motor features and their value in the diagnosis of atypical cases

The eye movements of four patients with ataxia telangiectasia (AT), three of whom had an unusual neurological presentation, were studied. All had striking abnormalities of saccadic generation with markedly hypometric saccades, increased saccadic latency, but normal saccadic velocity. Three patients used head thrusts to aid refixation. In addition, there was absence of smooth pursuit and optokinetic nystagmus, and hyperactive vestibular responses. Two of the four patients had, in addition, periodic alternating nystagmus. This combination of an ocular motor apraxia with superadded cerebellar ocular motor abnormalities, and possibly periodic alternating nystagmus, should strongly suggest the diagnosis of AT, even if the clinical syndrome is otherwise atypical.

Vestibulo-ocular abnormalities in spasmodic torticollis before and after botulinum toxin injections

In order to establish whether vestibular abnormalities often found in spasmodic torticollis are secondary to the abnormal head posture, the vestibulo-ocular reflex (VOR) was studied in eight patients before and after correction of head posture with botulinum toxin. Eye movements were recorded in the dark during sinusoidal and velocity step rotation. Four patients showed a significantly asymmetric response, with the slow phase of the VOR more active ipsilateral to the torticollis (chin). Despite significant improvement of the head posture in all patients for up to 10 weeks following treatment, no correction of the vestibular asymmetry occurred. This suggests that the VOR abnormalities are not caused by the head posture itself. We interpret the findings as evidence of primary involvement of the vestibular system in torticollis and we postulate a widespread derangement of the sensory-motor mechanisms controlling head posture in this disease.

Evidence for a vestibular input contributing to dynamic head stabilization in man

Horizontal head movements in response to unpredictable horizontal oscillations of the trunk were studied in 6 patients lacking vestibular function and in 6 normal subjects. In order to obtain compensatory (i.e. stabilizing with respect to earth) head movements, all subjects were required to look at an earth-fixed target, using their eyes and head. The turning points (maxima and minima) were determined from head and trunk position records. It was found that normal subjects reversed the direction of head movements in advance of trunk movements (mean lead = 82 ms) whereas the patients reversed head direction after the trunk (mean lag = 169 ms). The coherence function between head and trunk movements, measured with a spectral analyser in an additional labyrinthineless patient, was considerably lower than in normal controls. It is concluded that patients lacking vestibular function have impaired stabilization of the head in space, which can be taken as indirect evidence of the existence of active dynamic vestibulo-collic reflex (VCR) mechanisms in normal man. The lead found in normal subjects, notwithstanding the unpredictability of the stimuli, may reflect the detection of early acceleration signals by the vestibular apparatus to organize compensatory head movements.

Short latency compensatory eye movement responses to transient linear head acceleration: a specific function of the otolith-ocular reflex

Normal subjects were exposed to 0.26 g linear acceleration steps along the inter-aural axis whilst they fixated an earth stationary target at 110 cm distance. The stimulus evoked slow phase eye movements at a mean latency of 34 ms which attained the relative target velocity in 113 ms. In contrast, visual following with head fixed, of identical relative target motion, had significantly longer latencies and time to match target velocity. The short latency responses to linear acceleration were absent in an alabyrinthine subject. It is concluded that the otolith-ocular reflex is responsible for the short latency responses to linear head movement and functions to stabilise vision during sudden head movement before visually guided compensatory eye movements take effect.

Complete gaze palsy in pontine haemorrhage

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Down beating nystagmus: magnetic resonance imaging and neuro-otological findings

Twenty-four patients with down beating nystagmus (DBN) underwent magnetic resonance imaging (MRI) of the head. MRI provided diagnostic images in Arnold-Chiari malformation (6 cases), cerebellar atrophy (6 cases), 1 case with a prepontine-medullary epidermoid tumour and was helpful in the diagnosis of 2 patients with multiple sclerosis and 1 with a ponto-cerebellar infarct. Multiple cerebral hemisphere lesions were found in 6 patients (5 of them over 60 years of age) in whom no diagnosis was made. All cases of DBN, plus 3 additional patients with Arnold-Chiari malformation and other types of nystagmus, were neuro-otologically assessed. Sensitivity of the nystagmus to head tilt with respect to the gravity vector had no localizing value. Impaired horizontal vestibulo-ocular reflex suppression occurred more frequently in those patients with abnormal posterior fossa MRI. Pure torsional nystagmus, and DBN with a strong torsional component, in patients with Arnold-Chiari malformation was associated with syringomyelia. Magnetic resonance is the imaging method of choice for investigating patients with DBN.

Oscillopsia of peripheral vestibular origin. Central and cervical compensatory mechanisms

Eight patients with absent vestibular function categorized into four grades according to the disability they suffered from oscillopsia have been studied with a view to correlating its severity with the development of gaze stabilizing compensatory mechanisms. Eye movements were recorded while the following sinusoidal rotational stimuli were delivered: 1) trunk on head oscillation in the dark (COR); 2) head on trunk oscillation in the dark; 3) head on trunk and whole body (head and trunk) oscillation in the light in the presence of optic fixation. The COR was potentiated in all the patients regardless of their clinical status. Velocity gains (peak slow phase eye velocity/peak head velocity) during whole body rotation were significantly lower than head on trunk gains in the light in the better compensated patients. Since in the absence of vestibular function whole body rotation involves only the otokinetic system (OKN), this finding implies a depression of the OKN in these patients which can be corrected during head on trunk movements by virtue of a dynamic input from the neck. The results suggest that the processes of recovery from oscillopsia are dependent, in the main, upon the development of central mechanisms by means of which undesirable image movement across the retina is perceptually suppressed. Depression of OKN may be secondary to this perceptual rearrangement.

Testing the vestibular-ocular reflexes: abnormalities of the otolith contribution in patients with neuro-otological disease

Conventional vestibular rotation testing with the head centered on the axis stimulates the semicircular canals evoking compensatory eye movements. If the head is placed forwards of the axis in an eccentric position the otoliths are also stimulated by a tangential linear acceleration acting laterally to the skull. In normal subjects the additional otolithic stimulus evokes compensatory eye movements with a higher gain than with head centred, particularly for high frequency (greater than 0.1 Hz) stimuli. The responses with head centred and eccentric in various patients with known/suspected neuro-otological abnormalities have been compared. Patients with vestibular neurinectomies who have asymmetrical head centred responses showed greater asymmetry with head eccentric at higher stimulus frequencies. Some patients with cerebellar lesions showed abnormally enhanced or depressed and asymmetrical responses with head eccentric in comparison with head centred responses, which could be normal. The enhancing effects could be specific to low frequency stimuli. All patients who showed abnormal responses with head eccentric also had positional nystagmus provoked by the gravity acceleration vector when the head was tilted laterally. The direction of the positional nystagmus with respect to the gravity vector was not necessarily the same as the direction of the effect on eye movements of lateral acceleration during eccentric oscillation. Patients with benign paroxysmal vertigo or chronic linear vertigo in whom otolithic abnormalities are suspected were not found to have abnormal responses with head eccentric. We conclude that this method of testing may be useful in elucidating pathophysiology but is not a decisive clinical test for the presence of disordered otolith function.

Spasmodic torticollis following unilateral VIII nerve lesions: neck EMG modulation in response to vestibular stimuli

Three patients with spasmodic torticollis following VIII nerve lesions (VIII-ST) underwent quantitative assessment of their sternomastoid EMG during vestibular (otolith and semicircular canal) stimulation. The results were compared with a normal control group and with six patients with idiopathic spasmodic torticollis (ST). Backwards tilt of the VIII-ST patients resulted in a marked increase in the EMG, especially in the more affected sternomastoid, whereas this manoeuvre did not have a significant effect in normal subjects, or had a variable effect in the ST group. These results suggest that those with torticollis following VIII nerve lesions are a distinct group. Since there was no relationship between the side of the VIII nerve lesion and the direction of the torticollis a direct aetiological link between the two is, however, unlikely. The unusual EMG/tilt responses are explained on the basis of peripheral imbalance of utricular signals (maximal in the supine position) in the presence of central deranged processing of information concerning head posture.