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Effect of Topical Anesthesia on the Phonation Process During High-Speed Digital Imaging Laryngoscopy in Patients With Laryngopharyngeal Reflux

6. Juli 2026 aktualisiert von: Mario Bilić

The Effect of Topical Anesthesia on the Phonation Process During High-Speed Digital Imaging Laryngoscopy in Patients With Laryngopharyngeal Reflux: A Randomized Double-Blind Placebo-Controlled Crossover Study

The goal of this clinical trial is to learn if topical anesthesia (lidocaine spray) affects the phonation process during High-Speed Digital Imaging (HSDI) laryngoscopy in adults with laryngopharyngeal reflux (LPR). The main questions it aims to answer are:

Does topical anesthesia change phonation process parameters (such as mucosal wave amplitude, glottal closure pattern, phase symmetry, and periodicity) as assessed on the Voice-Vibratory Assessment with Laryngeal Imaging (VALI) form? Does topical anesthesia change the type of glottal insufficiency observed during phonation?

Researchers will compare HSDI recordings performed with topical anesthesia (lidocaine spray) to recordings performed with placebo (physiological saline) to see if topical anesthesia alters phonation process findings.

Participants will:

Undergo HSDI laryngoscopy recording on two consecutive days, once with topical anesthesia and once with placebo, in a randomized, double-blind order Have a detailed medical history taken and complete the Reflux Symptom Index (RSI) questionnaire Undergo fiberendoscopic examination for determination of the Reflux Finding Score (RFS) Return for a follow-up examination within three months, during which they will continue proton pump inhibitor therapy and hygienic-dietary measures

Studienübersicht

Status

Abgeschlossen

Detaillierte Beschreibung

Standard clinical practice for rigid transoral laryngoscopy, including High-Speed Digital Imaging (HSDI), includes the elective use of topical anesthesia of the oral cavity and oropharynx; however, clearly defined recommendations and indications for its use are lacking, and its potential effect on the phonation process has not been unequivocally established. Upon application to the oral cavity and oropharynx, anesthetic may drain into the larynx and desensitize the mucosa, potentially affecting sensorimotor aspects of laryngeal function. Existing studies on the effect of topical anesthesia on phonation during laryngoscopy are limited and report contradictory findings.

This prospective, randomized, double-blind, placebo-controlled crossover study assigned each participant a unique number via random number generator, determining the order of recording modalities (even numbers recorded first with topical anesthesia, odd numbers first without). Once assigned, the order could not be changed. Randomization and testing order were concealed from the examiner performing the HSDI recording.

Topical anesthesia (lidocaine spray, 100 mg/ml, 0.1 ml per actuation) or physiological saline (placebo) was applied by a junior physician, blinded to the substance used, to the base of the tongue, posterior pharyngeal wall, and soft palate (one actuation per site). HSDI recording was performed 5 minutes after application. Each participant underwent recording in both modalities on two consecutive days, a period considered sufficiently short to avoid confounding phonotraumatic, hormonal, or health-related changes.

HSDI recordings were performed by an experienced otorhinolaryngologist and phoniatrician (>5 years of experience) using a rigid 90° endoscope (Wolf 5562 HRES ENDOCAM with Wolf Auto LP 5132 Hlight light source, Richard Wolf GmbH, Knittlingen, Germany). Participants were seated upright with the tongue held protruded; the endoscope was passed along the midline of the tongue to visualize the full length of the vocal folds. Participants phonated the vowel /a/ dynamically and frequentially, and a 2-second HSDI recording was captured. Recordings were reviewed for quality (minimum 1,000 clear, focused, consecutive images of the full vocal fold length during the steady phonation phase); inadequate recordings were repeated. Fundamental frequency and phonation intensity were recorded via a microphone mounted on the endoscope with software processing. Maximum Phonation Time was determined from three stopwatch-timed measurements of sustained /a/ phonation, taken immediately before and after HSDI recording.

Each HSDI recording was independently assessed by two experienced otorhinolaryngologists/phoniatricians (>5 years of experience) using visual-perceptual analysis. Discrepancies in parameter scoring were resolved through joint re-analysis and discussion until consensus was reached before proceeding to the next recording. Assessment was standardized using the Voice-Vibratory Assessment with Laryngeal Imaging (VALI) form and the European Laryngological Society (ELS) form for glottal closure pattern classification, along with a modified classification of glottal insufficiency. The Reflux Finding Score was re-determined from recordings according to the Belafsky et al. classification.

Participants underwent a follow-up examination within three months of study participation, during which the Reflux Finding Score (via fiberendoscopy) and Reflux Symptom Index (via questionnaire) were re-assessed while participants continued regular proton pump inhibitor therapy and hygienic-dietary measures; participants with persistent pathological findings were excluded from final analysis.

Statistical analysis included the Kolmogorov-Smirnov test for normality of distribution. Normally distributed variables were described using means and standard deviations; non-normally distributed variables were described using medians and ranges. Differences between recordings with and without topical anesthesia were tested using the paired t-test (parametric) or Wilcoxon signed-rank test (non-parametric), as appropriate. Spearman correlation and regression analysis were used to explore associations between anatomical structures and measured characteristics. A p-value <0.05 was considered statistically significant.

Studientyp

Interventionell

Einschreibung (Tatsächlich)

70

Phase

  • Unzutreffend

Kontakte und Standorte

Dieser Abschnitt enthält die Kontaktdaten derjenigen, die die Studie durchführen, und Informationen darüber, wo diese Studie durchgeführt wird.

Studienorte

      • Zagreb, Kroatien, 10000
        • University Hospital Centre Zagreb (KBC Zagreb), Department of ORL Head and Neck Surgery

Teilnahmekriterien

Forscher suchen nach Personen, die einer bestimmten Beschreibung entsprechen, die als Auswahlkriterien bezeichnet werden. Einige Beispiele für diese Kriterien sind der allgemeine Gesundheitszustand einer Person oder frühere Behandlungen.

Zulassungskriterien

Studienberechtigtes Alter

  • Erwachsene

Akzeptiert gesunde Freiwillige

Nein

Beschreibung

Inclusion Criteria:

  • Newly diagnosed laryngopharyngeal reflux (LPR), defined as Reflux Symptom Index (RSI) >13 and Reflux Finding Score (RFS) >7 Age 18-45 years No prior HSDI recording Ability to tolerate HSDI examination without topical anesthesia

Exclusion Criteria:

  • Known allergy to lidocaine and/or other allergens Acute respiratory infection within the preceding month Current smokers or regular alcohol consumers Chronic rhinosinusitis Prior surgery and/or radiotherapy of the larynx, neck, or thyroid gland Inability to visualize the full length of the vocal folds during the 2-second HSDI recording for anatomical reasons

Studienplan

Dieser Abschnitt enthält Einzelheiten zum Studienplan, einschließlich des Studiendesigns und der Messung der Studieninhalte.

Wie ist die Studie aufgebaut?

Designdetails

  • Hauptzweck: Diagnose
  • Zuteilung: Zufällig
  • Interventionsmodell: Crossover-Aufgabe
  • Maskierung: Verdreifachen

Waffen und Interventionen

Teilnehmergruppe / Arm
Intervention / Behandlung
Experimental: Anesthesia-First Sequence (A→B)
Participants received topical anesthesia (lidocaine spray, 100 mg/ml) applied to the base of the tongue, posterior pharyngeal wall, and soft palate on Day 1, followed by HSDI laryngoscopy 5 minutes later. On Day 2, the same participants received placebo (physiological saline), identically applied, followed by HSDI laryngoscopy. Order was determined by randomization.
Lidocaine spray, 100 mg/ml, administered topically as one actuation (0.1 ml) each to the base of the tongue, posterior pharyngeal wall, and soft palate, approximately 5 minutes prior to HSDI laryngoscopy. Administered once per participant, on one of the two study days according to randomized sequence assignment.
Andere Namen:
  • Xylocain-Spray
Physiological saline (0.9% NaCl) spray, administered topically as one actuation (0.1 ml) each to the base of the tongue, posterior pharyngeal wall, and soft palate, approximately 5 minutes prior to HSDI laryngoscopy. Administered once per participant, on one of the two study days according to randomized sequence assignment, identical in application technique to the lidocaine intervention.
Andere Namen:
  • Normal saline spray; 0.9% NaCl spray
Placebo-Komparator: Placebo-First Sequence (B→A)
Participants received placebo (physiological saline) applied to the base of the tongue, posterior pharyngeal wall, and soft palate on Day 1, followed by HSDI laryngoscopy 5 minutes later. On Day 2, the same participants received topical anesthesia (lidocaine spray, 100 mg/ml), identically applied, followed by HSDI laryngoscopy. Order was determined by randomization.
Lidocaine spray, 100 mg/ml, administered topically as one actuation (0.1 ml) each to the base of the tongue, posterior pharyngeal wall, and soft palate, approximately 5 minutes prior to HSDI laryngoscopy. Administered once per participant, on one of the two study days according to randomized sequence assignment.
Andere Namen:
  • Xylocain-Spray
Physiological saline (0.9% NaCl) spray, administered topically as one actuation (0.1 ml) each to the base of the tongue, posterior pharyngeal wall, and soft palate, approximately 5 minutes prior to HSDI laryngoscopy. Administered once per participant, on one of the two study days according to randomized sequence assignment, identical in application technique to the lidocaine intervention.
Andere Namen:
  • Normal saline spray; 0.9% NaCl spray

Was misst die Studie?

Primäre Ergebnismessungen

Ergebnis Maßnahme
Maßnahmenbeschreibung
Zeitfenster
Change in Phonation Process Parameters Assessed by the Voice-Vibratory Assessment with Laryngeal Imaging (VALI) Form
Zeitfenster: Assessed once per recording session; each participant recorded on 2 consecutive days (with and without topical anesthesia)
Parameters assessed by visual-perceptual analysis of HSDI recordings using the VALI form: glottal sufficiency pattern, mucosal wave amplitude, free edge amplitude, vertical level of the vocal folds, non-vibrating segment of the vocal fold, supraglottic structure activation, free edge contour, open-to-closed phase ratio of the glottal cycle, phase symmetry of the vocal folds, periodicity, and axis shift of the vocal folds. Each recording was independently scored by two blinded raters, with discrepancies resolved by consensus.
Assessed once per recording session; each participant recorded on 2 consecutive days (with and without topical anesthesia)
Change in Glottal Closure Pattern (European Laryngological Society Classification)
Zeitfenster: Assessed once per recording session; each participant recorded on 2 consecutive days (with and without topical anesthesia)
Glottal closure pattern during the initial phase of the glottal cycle, classified according to the European Laryngological Society (ELS) form (e.g., concave, convex, straight, complex), assessed by visual-perceptual analysis of HSDI recordings.
Assessed once per recording session; each participant recorded on 2 consecutive days (with and without topical anesthesia)
Change in Type of Glottal Insufficiency (European Laryngological Society Classification)
Zeitfenster: Assessed once per recording session; each participant recorded on 2 consecutive days (with and without topical anesthesia)
Type of glottal insufficiency during phonation, classified according to a modified European Laryngological Society (ELS) classification (e.g., complete glottal closure, incomplete closure in the cartilaginous part of the glottis), assessed by visual-perceptual analysis of HSDI recordings.
Assessed once per recording session; each participant recorded on 2 consecutive days (with and without topical anesthesia)
Change in Acoustic Voice Parameters (Fundamental Frequency and Phonation Intensity)
Zeitfenster: Assessed once per recording session; each participant recorded on 2 consecutive days (with and without topical anesthesia)
Fundamental frequency (F0, Hz) and phonation intensity (dB) during phonation of the sustained vowel /a/, recorded via a microphone mounted on the endoscope with software processing.
Assessed once per recording session; each participant recorded on 2 consecutive days (with and without topical anesthesia)
Change in Maximum Phonation Time (MPT)
Zeitfenster: Assessed immediately before and after each HSDI recording session; each participant recorded on 2 consecutive days (with and without topical anesthesia)
Maximum duration (seconds) of sustained, dynamically stationary phonation of the vowel /a/ following maximal inhalation, determined as the longest of three stopwatch-timed trials performed immediately before and after HSDI recording.
Assessed immediately before and after each HSDI recording session; each participant recorded on 2 consecutive days (with and without topical anesthesia)

Mitarbeiter und Ermittler

Hier finden Sie Personen und Organisationen, die an dieser Studie beteiligt sind.

Sponsor

Ermittler

  • Hauptermittler: Mario Bilić, prof. dr. sc. dr. med., Department of ORL Head and Neck Surgery, University Hospital Centre Zagreb, Croatia

Studienaufzeichnungsdaten

Diese Daten verfolgen den Fortschritt der Übermittlung von Studienaufzeichnungen und zusammenfassenden Ergebnissen an ClinicalTrials.gov. Studienaufzeichnungen und gemeldete Ergebnisse werden von der National Library of Medicine (NLM) überprüft, um sicherzustellen, dass sie bestimmten Qualitätskontrollstandards entsprechen, bevor sie auf der öffentlichen Website veröffentlicht werden.

Haupttermine studieren

Studienbeginn (Tatsächlich)

1. März 2019

Primärer Abschluss (Tatsächlich)

5. Januar 2021

Studienabschluss (Tatsächlich)

5. Dezember 2021

Studienanmeldedaten

Zuerst eingereicht

6. Juli 2026

Zuerst eingereicht, das die QC-Kriterien erfüllt hat

6. Juli 2026

Zuerst gepostet (Tatsächlich)

10. Juli 2026

Studienaufzeichnungsaktualisierungen

Letztes Update gepostet (Tatsächlich)

10. Juli 2026

Letztes eingereichtes Update, das die QC-Kriterien erfüllt

6. Juli 2026

Zuletzt verifiziert

1. Juni 2026

Mehr Informationen

Begriffe im Zusammenhang mit dieser Studie

Plan für individuelle Teilnehmerdaten (IPD)

Planen Sie, individuelle Teilnehmerdaten (IPD) zu teilen?

NEIN

Beschreibung des IPD-Plans

Individual participant data are not made publicly available due to privacy and confidentiality restrictions related to patient health information. De-identified data underlying the results reported in this publication may be made available by the corresponding author upon reasonable request, subject to institutional and ethics committee approval.

Arzneimittel- und Geräteinformationen, Studienunterlagen

Studiert ein von der US-amerikanischen FDA reguliertes Arzneimittelprodukt

Nein

Studiert ein von der US-amerikanischen FDA reguliertes Geräteprodukt

Nein

Diese Informationen wurden ohne Änderungen direkt von der Website clinicaltrials.gov abgerufen. Wenn Sie Ihre Studiendaten ändern, entfernen oder aktualisieren möchten, wenden Sie sich bitte an register@clinicaltrials.gov. Sobald eine Änderung auf clinicaltrials.gov implementiert wird, wird diese automatisch auch auf unserer Website aktualisiert .

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