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The Effect of Otolith Dysfunction and Its Rehabilitation in Vestibular Diseases

18 maggio 2026 aggiornato da: Şeyma Tuğba Öztürk, Medipol University

The Effect and Rehabilitation of Otolith Dysfunction in Vestibular Diseases: A Randomized Comparison of Cawthorne-Cooksey Exercises, 2D Visual Habituation, and 3D/Virtual Reality Visual Habituation

This randomized controlled study compared the clinical and electrophysiological effectiveness of three vestibular rehabilitation approaches in patients with unilateral peripheral vestibular disease accompanied by otolith dysfunction: (1) traditional Cawthorne-Cooksey exercises (CCE), (2) two-dimensional (2D) otolith-targeted visual habituation, and (3) three-dimensional/virtual reality (3D/VR) otolith-targeted visual habituation. Forty-five patients aged 18-60 years were randomized into three groups and followed for 6 weeks. The Dizziness Handicap Inventory (DHI) was used as the primary clinical outcome, and cervical and ocular Vestibular Evoked Myogenic Potentials (cVEMP and oVEMP) were used as objective electrophysiological measures. Patients were monitored remotely using the Moodle learning management system.

Panoramica dello studio

Stato

Completato

Condizioni

Intervento / Trattamento

Descrizione dettagliata

Vestibular rehabilitation is a cornerstone of management in peripheral vestibular hypofunction. While conventional protocols such as the Cawthorne-Cooksey exercises focus largely on vestibulo-ocular reflex adaptation, otolith organs (utricle and saccule) are often underaddressed despite their critical role in spatial orientation and postural stability. Visual habituation protocols delivering wide-field optokinetic stimuli in the horizontal and vertical planes may target otolith-related symptoms more directly.

In this trial, 45 patients with chronic unilateral peripheral vestibular hypofunction (>3 months post-attack) and VEMP asymmetry >40% were randomized into three groups: CCE (n=16), 2D visual habituation (n=13), and 3D/VR visual habituation (n=16). Each group performed assigned exercises three times daily for 6 weeks, supported by the Moodle e-learning platform. Outcomes were assessed pre- and post-intervention using DHI and cVEMP/oVEMP latency, amplitude, and interaural asymmetry ratio (IAR).

Tipo di studio

Interventistico

Iscrizione (Effettivo)

45

Fase

  • Non applicabile

Contatti e Sedi

Questa sezione fornisce i recapiti di coloro che conducono lo studio e informazioni su dove viene condotto lo studio.

Luoghi di studio

  • Turchia (Türkiye)
    • Istanbul
      • Istanbul, Istanbul, Turchia (Türkiye), 34810
        • Istanbul Medipol University

Criteri di partecipazione

I ricercatori cercano persone che corrispondano a una certa descrizione, chiamata criteri di ammissibilità. Alcuni esempi di questi criteri sono le condizioni generali di salute di una persona o trattamenti precedenti.

Criteri di ammissibilità

Età idonea allo studio

  • Adulto

Accetta volontari sani

No

Descrizione

Inclusion Criteria:

Diagnosed unilateral peripheral vestibular disease No identified hearing loss (symmetric hearing) VEMP interaural asymmetry >40% At least 3 months post-acute attack (chronic phase) No ocular disorders No cervical/physical problems No history of psychological or neurological disorders No regular use of alcohol or vestibular suppressant medications Non-fluctuating vestibular symptoms

Exclusion Criteria:

Additional balance disorder pathology beyond unilateral peripheral vestibular disease BPPV repositioning maneuver within the last 30 days Asymmetric or moderate-to-severe hearing loss Motion sickness Active BPPV symptoms in history

Piano di studio

Questa sezione fornisce i dettagli del piano di studio, compreso il modo in cui lo studio è progettato e ciò che lo studio sta misurando.

Come è strutturato lo studio?

Dettagli di progettazione

  • Scopo principale: Trattamento
  • Assegnazione: Randomizzato
  • Modello interventistico: Assegnazione parallela
  • Mascheramento: Nessuno (etichetta aperta)

Armi e interventi

Gruppo di partecipanti / Arm
Intervento / Trattamento
Comparatore attivo: Cawthorne-Cooksey Exercises (CCE)
Traditional vestibular rehabilitation protocol consisting of progressive eye, head, and body movements (saccade and VOR exercises, balance exercises) performed three times daily for 6 weeks, with hierarchical difficulty progression across weeks 1-2, 3-4, and 5-6.
Comportamentale: Cawthorne-Cooksey Exercises
A classical vestibular rehabilitation protocol promoting central vestibular compensation through habituation and adaptation mechanisms. The 6-week protocol consists of hierarchical eye, head, and body movements progressing across three phases: Weeks 1-2 in sitting position (saccade and VOR exercises, single-leg standing, head shaking with eyes closed); Weeks 3-4 in standing position (saccades and VOR while standing, walking on mat, sit-to-stand exercises); Weeks 5-6 dynamic phase (saccades and VOR while walking, walking with head shaking, single-leg standing on soft surface). Exercises were performed three times daily (morning, noon, evening). Progression was individualized based on symptom provocation. Patients received initial in-clinic training and were followed remotely via the Moodle e-learning platform with weekly video-based exercise modules.
Sperimentale: 2D Visual Habituation
Otolith-targeted visual habituation using 2D wide-field optokinetic flow videos in horizontal and vertical planes. Patients viewed videos on a screen positioned at eye level at 1 meter distance, three times daily (morning/noon/evening), approximately 15-20 minutes per session, for 6 weeks.
Comportamentale: 2D Visual Habituation
A digital visual habituation protocol targeting otolith organs through wide-field 2D optokinetic visual flow stimuli. Pre-recorded videos generating horizontal-plane and vertical-plane motion perception (vection) were used to promote otolith re-weighting and habituation. Participants viewed videos seated in front of a screen at eye level, 1 meter away. Each session lasted 15-20 minutes and was performed three times daily (morning, noon, evening) for 6 weeks. Both horizontal and vertical optokinetic stimuli were delivered per session. Stimulus duration, speed, and complexity were gradually increased according to individual symptom tolerance. Sessions were paused if marked nausea or severe dizziness developed. Patients accessed videos through dedicated Moodle e-learning platform modules via smartphone or computer, ensuring standardized delivery and adherence monitoring.
Sperimentale: 3D/Virtual Reality Visual Habituation
Otolith-targeted visual habituation delivered via VR headset (VR Shinecon G04ea) presenting 3D wide-field optokinetic flow in horizontal and vertical planes. Same dosing as 2D arm: three times daily, 15-20 minutes per session, for 6 weeks.
Dispositivo: 3D/Virtual Reality Visual Habituation
An immersive virtual reality (VR) visual habituation protocol targeting otolith organs through 3D wide-field optokinetic stimuli. The horizontal- and vertical-plane motion stimuli used in the 2D protocol were adapted for VR delivery using Movavi Video Editor 360 software and presented via a head-mounted display (VR Shinecon G04ea, Scinecon, China). Participants were immersed in 3D visual flow scenarios generating motion perception (vection), providing a more naturalistic stimulus than screen-based delivery. Sessions lasted 15-20 minutes and were performed three times daily for 6 weeks. Stimulus intensity and complexity were progressively increased according to tolerance. Short breaks were provided to minimize cybersickness. The Moodle platform supported protocol delivery and remote adherence monitoring. The protocol targeted otolith-related symptoms through systematic desensitization and sensory re-weighting.

Cosa sta misurando lo studio?

Misure di risultato primarie

Misura del risultato
Misura Descrizione
Lasso di tempo
Mean change in Dizziness Handicap Inventory (DHI) total score
Lasso di tempo: Baseline and 6 weeks post-intervention
The Dizziness Handicap Inventory (DHI) is a 25-item self-report questionnaire measuring perceived dizziness-related handicap. Each item is scored as "Yes" (4 points), "Sometimes" (2 points), or "No" (0 points). The total score is calculated by summing all 25 items and ranges from 0 to 100, where 0 indicates no perceived handicap and 100 indicates maximum perceived handicap. Higher scores represent greater dizziness-related disability. The outcome is reported as the mean change in total DHI score, calculated as post-intervention total score minus baseline total score for each participant.
Baseline and 6 weeks post-intervention
Mean change in cervical Vestibular Evoked Myogenic Potential (cVEMP) P13 wave latency
Lasso di tempo: Baseline and 6 weeks post-intervention
Cervical Vestibular Evoked Myogenic Potential (cVEMP) P13 wave latency is an objective electrophysiological measure of saccular and inferior vestibular nerve function. Recordings were obtained using the Interacoustics Eclipse platform with 500 Hz tone-burst stimuli at 100 dB SPL delivered monaurally through insert earphones. Surface EMG electrodes were placed over the sternocleidomastoid muscle, with the ground electrode at the vertex and reference electrode at the sternum. The latency of the first positive peak (P13) was measured from stimulus onset to peak in milliseconds. The outcome is reported as the mean change in P13 latency, calculated as post-intervention latency minus baseline latency for each participant.
Baseline and 6 weeks post-intervention
Mean change in cervical Vestibular Evoked Myogenic Potential (cVEMP) N23 wave latency
Lasso di tempo: Baseline and 6 weeks post-intervention
Cervical Vestibular Evoked Myogenic Potential (cVEMP) N23 wave latency is an objective electrophysiological measure of saccular and inferior vestibular nerve function. Recordings were obtained using the Interacoustics Eclipse platform with 500 Hz tone-burst stimuli at 100 dB SPL delivered monaurally through insert earphones. Surface EMG electrodes were placed over the sternocleidomastoid muscle. The latency of the negative peak (N23) following the P13 peak was measured from stimulus onset to peak in milliseconds. The outcome is reported as the mean change in N23 latency, calculated as post-intervention latency minus baseline latency for each participant.
Baseline and 6 weeks post-intervention
Mean change in ocular Vestibular Evoked Myogenic Potential (oVEMP) N10 wave latency
Lasso di tempo: Baseline and 6 weeks post-intervention
Ocular Vestibular Evoked Myogenic Potential (oVEMP) N10 wave latency is an objective electrophysiological measure of utricular and superior vestibular nerve function. Recordings were obtained using the Interacoustics Eclipse platform with monaural acoustic stimuli delivered through insert earphones. Surface electrodes were placed below the contralateral eye over the inferior oblique muscle, with reference electrodes 2 cm below the active electrodes and ground at the vertex. Participants maintained an upward gaze at a fixed visual target during recording. The latency of the first negative peak (N10) was measured from stimulus onset to peak in milliseconds. The outcome is reported as the mean change in N10 latency, calculated as post-intervention latency minus baseline latency for each participant.
Baseline and 6 weeks post-intervention
Mean change in ocular Vestibular Evoked Myogenic Potential (oVEMP) P15 wave latency
Lasso di tempo: Baseline and 6 weeks post-intervention
Ocular Vestibular Evoked Myogenic Potential (oVEMP) P15 wave latency is an objective electrophysiological measure of utricular and superior vestibular nerve function. Recordings were obtained using the Interacoustics Eclipse platform with monaural acoustic stimuli delivered through insert earphones. Surface electrodes were placed over the inferior oblique muscle below the contralateral eye, with participants maintaining an upward gaze at a fixed visual target. The latency of the positive peak (P15) following the N10 peak was measured from stimulus onset to peak in milliseconds. The outcome is reported as the mean change in P15 latency, calculated as post-intervention latency minus baseline latency for each participant.
Baseline and 6 weeks post-intervention

Misure di risultato secondarie

Misura del risultato
Lasso di tempo
Change in cVEMP peak-to-peak amplitude from baseline to 6 weeks
Lasso di tempo: Baseline and 6 weeks post-intervention
Baseline and 6 weeks post-intervention
Change in oVEMP peak-to-peak amplitude from baseline to 6 weeks
Lasso di tempo: Baseline and 6 weeks post-intervention
Baseline and 6 weeks post-intervention
Change in cVEMP interaural asymmetry ratio (IAR) from baseline to 6 weeks
Lasso di tempo: Baseline and 6 weeks post-intervention
Baseline and 6 weeks post-intervention
Change in oVEMP interaural asymmetry ratio (IAR) from baseline to 6 weeks
Lasso di tempo: Baseline and 6 weeks post-intervention
Baseline and 6 weeks post-intervention

Collaboratori e investigatori

Qui è dove troverai le persone e le organizzazioni coinvolte in questo studio.

Sponsor

Medipol University

Collaboratori

Istanbul Medeniyet University

Pubblicazioni e link utili

La persona responsabile dell'inserimento delle informazioni sullo studio fornisce volontariamente queste pubblicazioni. Questi possono riguardare qualsiasi cosa relativa allo studio.

Pubblicazioni generali

Studiare le date dei record

Queste date tengono traccia dell'avanzamento della registrazione dello studio e dell'invio dei risultati di sintesi a ClinicalTrials.gov. I record degli studi e i risultati riportati vengono esaminati dalla National Library of Medicine (NLM) per assicurarsi che soddisfino specifici standard di controllo della qualità prima di essere pubblicati sul sito Web pubblico.

Studia le date principali

Inizio studio (Effettivo)

1 marzo 2025

Completamento primario (Effettivo)

24 dicembre 2025

Completamento dello studio (Effettivo)

24 marzo 2026

Date di iscrizione allo studio

Primo inviato

14 novembre 2025

Primo inviato che soddisfa i criteri di controllo qualità

18 maggio 2026

Primo Inserito (Effettivo)

26 maggio 2026

Aggiornamenti dei record di studio

Ultimo aggiornamento pubblicato (Effettivo)

26 maggio 2026

Ultimo aggiornamento inviato che soddisfa i criteri QC

18 maggio 2026

Ultimo verificato

1 maggio 2026

Maggiori informazioni

Termini relativi a questo studio

Parole chiave

Altri numeri di identificazione dello studio

  • stozturk1
  • 1063 (21.12.2023) (Altro identificatore: Istanbul Medipol University No)

Piano per i dati dei singoli partecipanti (IPD)

Hai intenzione di condividere i dati dei singoli partecipanti (IPD)?

NO

Informazioni su farmaci e dispositivi, documenti di studio

Studia un prodotto farmaceutico regolamentato dalla FDA degli Stati Uniti

No

Studia un dispositivo regolamentato dalla FDA degli Stati Uniti

No

Queste informazioni sono state recuperate direttamente dal sito web clinicaltrials.gov senza alcuna modifica. In caso di richieste di modifica, rimozione o aggiornamento dei dettagli dello studio, contattare register@clinicaltrials.gov. Non appena verrà implementata una modifica su clinicaltrials.gov, questa verrà aggiornata automaticamente anche sul nostro sito web .

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