This study will investigate the safety and efficacy of a silk protein microparticle-based filler for vocal fold injection augmentation to treat dysphonia/dysphagia secondary to vocal fold paralysis. Participants will receive one injection and follow-up for a planned period of 12 months.
Vocal fold paralysis is a clinical condition that arises commonly as a complication of surgery, endotracheal intubation, malignancy, or idiopathic etiologies. It often results in glottal insufficiency, which is the inability of the true vocal folds to meet and achieve complete closure during normal physiologic functions such as speech, swallowing, and coughing. The presence of vocal fold paralysis with glottal insufficiency can lead to decreased quality-of-life, as well as increase risks of complications such as aspiration pneumonia. Current treatments for vocal fold paralysis are based around techniques to medialize the paralyzed vocal fold. One manner in which this is done is via injection of a filler or bulking agent into the vocal fold in order to augment it. Injection augmentation has many advantages including its minimally invasive nature, overall safety and low risk/complication rate, immediate clinical effect, and ability to perform it at the bedside or in-office. Various materials are used for injection augmentation including autologous fat, hyaluronic acid, collagen, carboxymethylcellulose, and calcium hydroxyapatite. However, all of the current injection choices have individual limitations such as temporary effect, unpredictability due to variable resorption by the body, unfavorable mechanical properties, and challenging handling attributes. Silk is derived from the Bombyx mori silk worm and has a long history as a surgical biomaterial. Surgical scaffolds derived from silk have been used for reconstructive surgery, due to its ability to allow cellular infiltration and encourage tissue regeneration/remodeling. Given the potential advantages of such a material, Brown et al engineered and studied a novel silk protein microparticle-based filler material suitable for injection augmentation. Patients with unilateral vocal fold paralysis identified at the study sites will be offered participation in this study to receive injection augmentation of the paralyzed vocal fold with the filler material under investigation. Outcome measures evaluated pre- and post-injection and over follow-up visits will include various patient reported quality of life indices, objective clinical assessments of voice, laryngeal videostroboscopy examinations, and acoustic/aerodynamic testing. The investigators hypothesize that the novel silk protein microparticle-based filler will have a favorable safety profile for use as an injectable material in the human larynx and it will produce durable clinical benefit lasting up to 12 months.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
TREATMENT
Masking
NONE
Enrollment
11
A silk protein microparticle-based filler will be injected deep to the thyroarytenoid muscle of the paralyzed vocal fold to augment/medialize its position.
University of Southern California
Los Angeles, California, United States
Incidence of Treatment-Emergent Adverse Events as assessed by FDA/CBER Adverse Event Severity Grading Scale
Adverse event severity grading scale from 1 to 4, with grade 1 as mild, grade 2 as moderate, grade 3 as severe, and grade 4 potentially life-threatening.
Time frame: 12 months
Quality of Life as assessed by Voice Handicap Index-10 (VHI-10)
VHI-10 is a patient questionnaire with 10 statements rated from 0 to 4 with overall scale 0-40.
Time frame: 12 months
Quality of Life as assessed by Vocal Fatigue Index (VFI)
VFI is a patient questionnaire with 19 statements rated from 0-4 with overall scale 0-76.
Time frame: 12 months
Quality of Life as assessed by Dyspnea Index (DI)
DI is a patient questionnaire with 10 statements rated from 0 to 4 with overall scale 0-40.
Time frame: 12 months
Quality of Life as assessed by Eating Assessment Tool (EAT-10)
EAT-10 is a patient questionnaire with 10 statements rated from 0 to 4 with overall scale 0-40.
Time frame: 12 months
Objective Vocal Quality as assessed by experts using the Consensus Auditory-Perceptual Evaluation of Voice (CAPE-V) instrument
Blinded evaluations of audio voice recordings will be performed by laryngologists and speech-language pathologists using the CAPE-V, which grades overall severity, roughness, breathiness, strain, pitch, and loudness from 0-100.
Time frame: 12 months
Vocal Fold Appearance as assessed by experts using a modified version of the Voice-Vibratory Assessment with Laryngeal Imaging (VALI) form
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Blinded assessments of recorded laryngeal videostroboscopy exams will be performed by laryngologists and speech-language pathologists using a modified version of the VALI, which is a graphical rating form to grade various components seen on stroboscopy.
Time frame: 12 months
Objective Acoustic Testing as assessed by fundamental frequency
Measurement of fundamental frequency (F0) during sustained vowel phonation.
Time frame: 12 months
Objective Acoustic Testing as assessed by Sound Pressure Level (SPL)
Measurement of minimum/maximum SPL during phonation.
Time frame: 12 months
Objective Acoustic Testing as assessed by Cepstral Peak Prominence (CPP)
Measurement of CPP during phonation.
Time frame: 12 months
Objective Aerodynamic Testing as assessed by Vital Capacity (VC)
Measurement of VC.
Time frame: 12 months
Objective Aerodynamic Testing as assessed by Maximum Phonation Time (MPT)
Measurement of MPT.
Time frame: 12 months
Objective Aerodynamic Testing as assessed by Mean Glottal Flow Rate (MGFR)
Measurement of MGFR.
Time frame: 12 months
Objective Aerodynamic Testing as assessed by Subglottal Pressure (SGP)
Measurement of SGP.
Time frame: 12 months
Objective Aerodynamic Testing as assessed by Cough Velocity (CV)
Measurement of maximum CV.
Time frame: 12 months