For adductor spasmodic dysphonia, there is a need for establishing a new therapy under the present circumstance where no standard therapy has been established yet and existing therapies fail to provide permanent effect. Evaluation of the efficacy of type 2 thyroplasty using titanium bridges will expand the therapeutic options available for adductor spasmodic dysphonia and establishment of a standard therapy.
Spasmodic dysphonia is a type of functional dysphonia not associated with any organic abnormality or palsy of the larynx. The speech disorder in this disease is caused by involuntary and intermittent spasms of the intralaryngeal muscles (Castelon, 2002). There is no curative treatment for this disease. Conservative therapies include voice training (voice therapy) and muscle relaxant medication to ease the tension in the larynx during speech, although there is not much evidence to support the effectiveness of either. An internationally employed therapy is local injection of botulinum toxin A into the intralaryngeal muscles to suppress involuntary movements of the vocal cords. The injection can be administered percutaneously from the anterior neck within a short time, and a number of reports have indicated a greater than 90% efficacy of this treatment (Tisch 2003, Blitzer 2010). However, this local injection therapy is effective only for a limited period of 3 to 4 months, and periodic injections have to be continued throughout life for maintaining relief from the symptoms under the present circumstances. Type 2 thyroplasty is an operative procedure in which the thyroid cartilage is incised at the midline, and the incised gap is opened and fixed with the thyroarytenoid muscles attached on both sides, so that the vocal cords do not shut too tightly during speech even with strong adduction of the glottis, as the symptoms of adductor spasmodic dysphonia are caused by excessive closure of the glottis due to strong involuntary and intermittent adduction of the intralaryngeal muscles (Isshiki 2001). In 2002, the titanium bridge made of biocompatible pure titanium was developed in Japan for exclusive use in type 2 thyroplasty (Isshiki 2004). When the titanium bridge was used in actual cases, the symptoms disappeared without recurrence after the operation (Sanuki 2007, Sanuki 2009, Isshiki \& Sanuki 2009, Sanuki 2010). There is a need for establishing a new therapy under the present circumstance where no standard therapy has been established yet and existing therapies fail to provide permanent effect. Evaluation of the efficacy of type 2 thyroplasty using titanium bridges will expand the therapeutic options available for adductor spasmodic dysphonia and establishment of a standard therapy.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
SCREENING
Masking
NONE
Enrollment
20
Hokkaido University Hospital
Sapporo, Hokkaido, Japan
Yokohama City University
Yokohama, Kanagawa, Japan
Kumamoto University Hospital
Kumamoto, Japan
Kyoto University Hospital
Kyoto, Japan
Change in VHI-10 scores assessed by Change from baseline in VHI-10 scores at 13 weeks after surgery
Time frame: 13 weeks after surgery
Changes in VHI,VHI-10 scores assessed by Changes in VHI-10 scores before and after surgery
Time frame: 52 weeks after surgery
Changes in VHI,VHI-10 scores assessed by Changes in VHI scores before and after surgery
Time frame: 52 weeks after surgery
Changes in VHI,VHI-10 scores assessed by Changes in VHI subscale scores in the functional (F), (P), and (E)
Time frame: 52 weeks after surgery
Changes in VHI,VHI-10 scores assessed by Changes in phonatory function test results before and after surgery
Time frame: 52 weeks after surgery
Changes in VHI,VHI-10 scores assessed by Changes in acoustic analysis results
Time frame: 52 weeks after surgery
Changes in VHI,VHI-10 scores assessed by Frequency of adverse events and device defects
Time frame: 52 weeks after surgery
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.